Matched Space Investigations

Click "Study ID" to access detailed information.

Study IDs	Study Titles	Investigation Categories	Studied Biophysical Phenomena	Associated Disease conditions	Studied Biological Phenomena
SLID-001	The NASA Twins Study: A multidimensional analysis of a year-long human spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Saliva; Urine; Blood; Fecal; Microbiota;	●n.a.	●Aging ●Neuro-ocular syndrome ●Immune system dysregulation ●Stress	●Omics - Transcriptome ---> Blood ●Omics - Transcriptome ---> Leukocytes ●Omics - Epigenome ---> Leukocytes ●Omics - Proteome ---> Blood ●Omics - Proteome ---> Urine ●Omics - Metabolome ---> Blood ●Omics - Metabolome ---> Fecal ●Omics - Metabolome ---> Urine ●Omics - Microbiome ---> Fecal ●Omics - Microbiome ---> Skin ●Cardiovascular and Immune System - Blood components ---> Blood cells ●Cardiovascular and Immune System - Blood components ---> Oxidative status ●Cardiovascular and Immune System - Immune function ---> Cytokine concentration ●Cardiovascular and Immune System - Immune function ---> Leukocytes ●Omics - DNA damage ---> Telomere length dynamics ●Omics - DNA damage ---> Omics - DNA damage responses ●Nervous and regulatory systems - Cognitive performance ●Nervous and regulatory systems - Eye properties ---> Intraocular pressure ●Cardiovascular and Immune System - Vessel properties ---> Carotid intima-media layer
SLID-002	Eye-Head Coordination in 31 Space Shuttle Astronauts during Visual Target Acquisition	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Visuo-motor disorder	●Nervous and regulatory systems - Neuromotor control ---> Eye-head coordination changes
SLID-003	Short-duration spaceflight does not prolong QTc intervals in male astronauts	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart;	●Statistical physics of fluctuation system - Heartbeat fluctuation	●Long QT syndrome	●Cardiovascular and Immune System - Heart rhythm ---> QTc intervals ●Cardiovascular and Immune System - Heart rhythm ---> PR intervals ●Cardiovascular and Immune System - Heart rhythm ---> RR intervals
SLID-004	Effects of 17-day spaceflight on knee extensor muscle function and size	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle force ●Musculoskeletal system - Muscle properties ---> Muscle cross-sectional area
SLID-005	Microbiological status of cosmonauts during orbital spaceflights on Salyut and Mir orbital stations	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Urine; Microbiota;	●n.a.	●Pathogen antibiotic resistance	●Omics - Microbiome ---> Urine ●Omics - Microbiome ---> Skin ●Omics - Microbiome ---> Mouth ●Omics - Microbiome ---> Throat ●Omics - Microbiome ---> Conventional pathogens ●Omics - Microbiome ---> Antibiotic sensitivity
SLID-006	Protein expression changes caused by spaceflight as measured for 18 Russian cosmonauts	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●n.a.	●Cardiovascular and Immune System - Blood components ---> Blood proteins
SLID-007	Stress Related Shift Toward Inflammaging in Cosmonauts After Long-Duration Space Flight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Lymphocytes;	●n.a.	●Stress ●Immune system dysregulation	●Nervous and regulatory systems - Stress analysis ---> Stress markers ●Cardiovascular and Immune System - Immune function ---> Leukocyte number ●Cardiovascular and Immune System - Immune function ---> Cytokine response
SLID-008	Temporal Telomere and DNA Damage Responses in the Space Radiation Environment	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Urine; Blood;	●n.a.	●Aging	●Omics - DNA damage ---> Telomere length dynamics ●Omics - DNA damage ---> Telomere elongation ●Omics - DNA damage ---> Omics - DNA damage responses
SLID-009	Cardiovascular autonomic control after short-duration spaceflights	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart; Vessel;	●Statistical physics of fluctuation system - Heartbeat fluctuation ●Fluid dynamics - Hemodynamics	●Cardiac rhythm disturbances ●Orthostatic intolerance	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate variability ●Cardiovascular and Immune System - Vessel properties ---> Blood pressure variability ●Cardiovascular and Immune System - Vessel properties ---> Baroreflex sensitivity ●Nervous and regulatory systems - Vegetative nervous system function ---> Cardiovascular autonomic control
SLID-010	Impairments of manual tracking performance during spaceflight: more converging evidence from a 20-day space mission	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Visuo-motor disorder ●Mood impairment	●Nervous and regulatory systems - Neuromotor control ---> Manual tracking performance ●Nervous and regulatory systems - Psychology ---> Mood
SLID-011	Ocular Counter Rolling in Astronauts After Short- and Long-Duration Spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Visuo-motor disorder ●Neurovestibular decline	●Nervous and regulatory systems - Neuro-sensory function ---> Ocular counter-rolling ●Nervous and regulatory systems - Neuro-sensory function ---> Gravity sensing ●Nervous and regulatory systems - Neuro-sensory function ---> Microgravity adaptation
SLID-012	Mechanism of spaceflight-induced changes in left ventricular mass	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain structure ---> Left ventricular mass ●Nervous and regulatory systems - Brain structure ---> Left ventricular end-diastolic volume ●Nervous and regulatory systems - Brain structure ---> Left ventricular wall thickness
SLID-013	Immune system dysregulation occurs during short duration spaceflight on board the space shuttle	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Leukocytes distribution ●Cardiovascular and Immune System - Immune function ---> Leukocytes population ●Cardiovascular and Immune System - Immune function ---> Leukocytes function
SLID-014	Latent virus reactivation in astronauts on the international space station	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Urine; Saliva; Blood;	●n.a.	●Latent viral reactivation	●Cardiovascular and Immune System - Immune function ---> Latent viral reactivation
SLID-015	Alterations in adaptive immunity persist during long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Lymphocytes population ●Cardiovascular and Immune System - Immune function ---> Lymphocytes function
SLID-016	Latent viral reactivation is associated with changes in plasma antimicrobial protein concentrations during long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Saliva; Blood; Urine;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Latent viral reactivation ●Cardiovascular and Immune System - Immune function ---> Plasma antimicrobial protein concentrations
SLID-017	Optic Nerve Length before and after Spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Nerve; Behavior;	●n.a.	●Neuro-ocular syndrome	●Nervous and regulatory systems - Neuro-sensory function ---> Optic nerve length increasement
SLID-018	Plasma cytokine concentrations indicate that in vivo hormonal regulation of immunity is altered during long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Cytokine concentration ●Nervous and regulatory systems - Endocrine function ---> Hormonal regulation
SLID-019	Spaceflight modulates gene expression in the whole blood of astronauts	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●n.a.	●Omics - Transcriptome ---> Blood ●Other profiles - Molecular pathway
SLID-020	Intrinsic cardiovascular autonomic regulatory system of astronauts exposed long-term to microgravity in space: observational study	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart;	●Statistical physics of fluctuation system - Heartbeat fluctuation	●Cardiac rhythm disturbances	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate variability ●Cardiovascular and Immune System - Heart rhythm ---> Power-law scaling β ●Cardiovascular and Immune System - Heart rhythm ---> Intrinsic autonomic regulatory system ●Cardiovascular and Immune System - Circadian rhythm
SLID-021	Effect of short- and long-duration spaceflight on QTc intervals in healthy astronauts	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vessel; Heart;	●Statistical physics of fluctuation system - Heartbeat fluctuation	●Cardiac rhythm disturbances	●Cardiovascular and Immune System - Heart rhythm ---> QTc intervals ●Cardiovascular and Immune System - Heart rhythm ---> PR intervals ●Cardiovascular and Immune System - Heart rhythm ---> RR intervals ●Cardiovascular and Immune System - Blood components ---> Serum electrolytes
SLID-022	Bisphosphonates as a supplement to exercise to protect bone during long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Urine; Blood;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone mineral density ●Musculoskeletal system - Bone properties ---> Bone metabolism ●Digestive and Excretory System - Urine components ---> Urine Ca ●Other profiles - Medication use ---> Bisphosphonates ●Other profiles - Medication use ---> Alendronate ●Other profiles - Medication use ---> Exercise
SLID-023	Anti-aging effects of long-term space missions, estimated by heart rate variability	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart;	●Statistical physics of fluctuation system - Heartbeat fluctuation ●Magnetosphere	●Aging	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate variability ●Other profiles - Magnetosphere ●Cardiovascular and Immune System - Circadian rhythm
SLID-024	Measurements of jugular, portal, femoral, and calf vein cross-sectional area for the assessment of venous blood redistribution with long duration spaceflight (Vessel Imaging Experiment)	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vessel;	●Fluid dynamics - Hemodynamics	●n.a.	●Cardiovascular and Immune System - Vessel properties ---> Vein volume ●Cardiovascular and Immune System - Vessel properties ---> Vessel cross-sectional area ●Cardiovascular and Immune System - Vessel properties ---> Vessel 3D reconstruction ●Cardiovascular and Immune System - Vessel properties ---> Venous blood redistribution ●Cardiovascular and Immune System - Vessel properties ---> Venous blood velocity
SLID-025	NK cell function is impaired during long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Natural killer cell impairment
SLID-026	Modification of unilateral otolith responses following spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●Inertial forces - Otolith system	●Neurovestibular decline	●Nervous and regulatory systems - Neuro-sensory function ---> Unilateral otolith responses
SLID-027	Telomere Length Dynamics and DNA Damage Responses Associated with Long-Duration Spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood; Urine;	●n.a.	●Aging	●Omics - DNA damage ---> Telomere length dynamics ●Omics - DNA damage ---> Telomere elongation ●Omics - DNA damage ---> Omics - DNA damage responses
SLID-028	Reduction in proximal femoral strength due to long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Proximal femoral strength
SLID-029	Flexor bias of joint position in humans during spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Joint;	●n.a.	●Joint injury	●Musculoskeletal system - Joint mobility ---> Elbow extension ●Musculoskeletal system - Joint mobility ---> Elbow flexion ●Musculoskeletal system - Joint mobility ---> Ankle plantarflexion ●Musculoskeletal system - Joint mobility ---> Ankle dorsiflexion ●Musculoskeletal system - Joint mobility ---> Elbow joint angles ●Musculoskeletal system - Joint mobility ---> Flexor bias
SLID-030	Plasticity of the human IgM repertoire in response to long-term spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood; Saliva;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Antibody function ●Cardiovascular and Immune System - Immune function ---> IgM repertoire ●Cardiovascular and Immune System - Immune function ---> Stress response
SLID-031	Cortical reorganization in an astronaut's brain after long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain; Behavior;	●n.a.	●Sensorimotor decline	●Nervous and regulatory systems - Neuromotor control ---> Motor cortex-cerebellum functional connectivity ●Nervous and regulatory systems - Neuromotor control ---> Supplementary motor areas ●Nervous and regulatory systems - Neural properties ---> Cortical reorganization
SLID-032	Brain Tissue-Volume Changes in Cosmonauts	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain structure ---> Gray matter volume ●Nervous and regulatory systems - Brain structure ---> White matter volume ●Nervous and regulatory systems - Brain structure ---> Cerebrospinal fluid space
SLID-033	Spaceflight-Associated Brain White Matter Microstructural Changes and Intracranial Fluid Redistribution	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain;	●Fluid dynamics - Hemodynamics	●Brain damage ●Aging	●Nervous and regulatory systems - Brain structure ---> Intracranial extracellular free water shifts ●Nervous and regulatory systems - Brain structure ---> Transient balance declines ●Nervous and regulatory systems - Brain structure ---> White matter microstructural changes
SLID-034	Lumbopelvic Muscle Changes Following Long-Duration Spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Lumbar musculature attenuation
SLID-035	Alterations in hematologic indices during long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Anemia	●Cardiovascular and Immune System - Blood components ---> Red blood cell indices ●Cardiovascular and Immune System - Blood components ---> Hemoglobin content
SLID-036	Effects of 17-day spaceflight on electrically evoked torque and cross-sectional area of the human triceps surae	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle plus bone cross-sectional area ●Musculoskeletal system - Muscle properties ---> Twitch kinetics
SLID-037	Long-term changes in the density and structure of the human hip and spine after long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone mineral density ●Musculoskeletal system - Bone properties ---> Bone mineral content ●Musculoskeletal system - Bone properties ---> Vertebral cross-sectional area
SLID-038	Increased core body temperature in astronauts during long-duration space missions	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●Fluid dynamics - Hemodynamics ●Heat conduction - Body temperature	●Fever	●Nervous and regulatory systems - Body temperature ---> Core body temperature ●Nervous and regulatory systems - Body temperature ---> Thermoregulation ●Cardiovascular and Immune System - Immune function ---> Interleukin-1 receptor antagonist protein ●Nervous and regulatory systems - Cognitive performance
SLID-039	The effects of spaceflight on mammary metabolism in pregnant rats	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Mammary gland;	●n.a.	●Development impairment	●Nervous and regulatory systems - Endocrine function ---> Mammary metabolism
SLID-040	Loss of T cell precursors after spaceflight and exposure to vector-averaged gravity	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6 (B6)mice; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone marrow; Spleen; Thymus; Leukocytes;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> T cell development ●Environment - Simulated microgravity
SLID-041	Effects of spaceflight on the murine mandible: Possible factors mediating skeletal changes in non-weight bearing bones of the head	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Skull remodeling ●Musculoskeletal system - Bone properties ---> Bone volume ●Musculoskeletal system - Bone properties ---> Mineral density ●Musculoskeletal system - Bone properties ---> Mineral content
SLID-042	Effects of Spaceflight on Bone Microarchitecture in the Axial and Appendicular Skeleton in Growing Ovariectomized Rats	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Fischer 344; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone mass ●Musculoskeletal system - Bone properties ---> Bone density ●Musculoskeletal system - Bone properties ---> Bone structure ●Nervous and regulatory systems - Endocrine function ---> Ovarian hormone insufficiency
SLID-043	Spaceflight Activates Lipotoxic Pathways in Mouse Liver	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Liver;	●n.a.	●Nonalcoholic fatty liver	●Omics - Transcriptome ●Omics - Metabolome ●Digestive and Excretory System - Liver function ---> Lipids metabolism dysfunction
SLID-044	Spaceflight-induced vertebral bone loss in ovariectomized rats is associated with increased bone marrow adiposity and no change in bone formation	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Fischer 344; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone marrow adiposity ●Musculoskeletal system - Bone properties ---> Bone formation ●Musculoskeletal system - Bone properties ---> Bone loss
SLID-045	Effects of spaceflight on the immunoglobulin repertoire of unimmunized C57BL/6 mice	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6Tac; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Liver;	●n.a.	●Bone loss	●Nervous and regulatory systems - Brain properties ---> Structure ●Nervous and regulatory systems - Brain properties ---> Protein localization
SLID-046	Responses to spaceflight of mouse mandibular bone and teeth	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone; Teeth;	●n.a.	●Bone loss ●Development impairment	●Musculoskeletal system - Teeth properties ---> Teeth proteins ●Musculoskeletal system - Teeth properties ---> Teeth development retardation ●Musculoskeletal system - Teeth properties ---> Teeth mineralization ●Musculoskeletal system - Bone properties ---> Bone structure
SLID-047	Reproducible changes in the gut microbiome suggest a shift in microbial and host metabolism during spaceflight	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Liver; Microbiota;	●n.a.	●Gastrointestinal homeostasis	●Omics - Transcriptome ---> Liver ●Omics - Microbiome
SLID-048	Multiscale effects of spaceflight on murine tendon and bone	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Tendon; Bone;	●n.a.	●Bone loss ●Tendon decline	●Musculoskeletal system - Bone properties ---> Bone composition ●Musculoskeletal system - Bone properties ---> Bone structure ●Musculoskeletal system - Bone properties ---> Bone mechanics ●Musculoskeletal system - Tendon properties ---> Fibril diameter
SLID-049	Multi-omics analysis of multiple missions to space reveal a theme of lipid dysregulation in mouse liver	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Liver;	●n.a.	●Nonalcoholic fatty liver	●Omics - Multiomics analysis ●Digestive and Excretory System - Liver function ---> Lipid dysregulation
SLID-050	Impact of spaceflight on the murine thymus and mitigation by exposure to artificial gravity during spaceflight	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Thymus;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Thymic size ●Omics - Transcriptome ---> Thymus ●Environment - Artificial gravity ●n.a.
SLID-051	Effects of spaceflight on rat humerus geometry, biomechanics, and biochemistry	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Wistar; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone structure ●Musculoskeletal system - Bone properties ---> Bone biomechanical property ●Musculoskeletal system - Bone properties ---> Bone components
SLID-052	Protein and collagen content of rat skeletal muscle following space flight	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle composition
SLID-053	Fragility and composition of growing rat bone after one week in spaceflight	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Pathogen-free albino male; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone metabolism ●Musculoskeletal system - Bone properties ---> Osteocalcin content
SLID-054	Effect of space flight on cytokine production and other immunologic parameters of rhesus monkeys	Investigated Organism: Macaca mulatta; Organism Common Name: Rhesus monkey; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone marrow; Leukocytes;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Cytokine production ●Cardiovascular and Immune System - Immune function ---> Marrow cell responsiveness
SLID-055	Spaceflight Downregulates Antioxidant Defense Systems in Rat Liver	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Liver;	●n.a.	●Oxidative damage	●Digestive and Excretory System - Liver function ---> Antioxidant defense ●Digestive and Excretory System - Liver function ---> Enzyme activity
SLID-056	Sustained microgravity reduces intrinsic wound healing and growth factor responses in the rat	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Fisher 344; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Connective tissue;	●n.a.	●Wound healing	●Development and Reproduction - Regeneration ---> Wound healing ●Other profiles - Medication use ---> Growth factor
SLID-057	Effects of spaceflight and PEG-IL-2 on rat physiological and immunological responses	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Brain; Heart; Kidney; Liver; Lungs; Trachea; Spleen; Thymus; Bone; Blood; Whole animal;	●n.a.	●Bone loss ●Immune system dysregulation	●Other profiles - Organ morphology ---> Brain ●Other profiles - Organ morphology ---> Heart ●Other profiles - Organ morphology ---> Kidneys ●Other profiles - Organ morphology ---> Liver ●Other profiles - Organ morphology ---> Lungs ●Other profiles - Organ morphology ---> Trachea ●Other profiles - Organ morphology ---> Spleen ●Other profiles - Organ morphology ---> Thymus ●Cardiovascular and Immune System - Immune function ---> Blood cell differentials ●Cardiovascular and Immune System - Immune function ---> Colony-forming units ●Cardiovascular and Immune System - Immune function ---> Lymphocyte mitogenic ●Cardiovascular and Immune System - Immune function ---> Superantigenic responses ●Cardiovascular and Immune System - Immune function ---> Interferon-gamma responses ●Cardiovascular and Immune System - Immune function ---> Cytokine secretion ●Musculoskeletal system - Bone properties ---> Bone strength ●Musculoskeletal system - Bone properties ---> Bone mass ●Other profiles - Medication use ---> Pegylated interleukin-2
SLID-058	Urinary excretion of LH and testosterone from male rats during exposure to increased gravity: post-spaceflight and centrifugation	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Urine;	●n.a.	●Fertility	●Nervous and regulatory systems - Endocrine function ---> Luteinizing hormone content ●Nervous and regulatory systems - Endocrine function ---> Testosterone content
SLID-059	The effects of 10 days of spaceflight on the shuttle Endeavor on predominantly fast-twitch muscles in the rat	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Fischer 344; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle structure ●Musculoskeletal system - Muscle properties ---> Muscle proteins ●Musculoskeletal system - Muscle properties ---> Muscle plasticity
SLID-060	Space shuttle flight (STS-90) enhances degradation of rat myosin heavy chain in association with activation of ubiquitin-proteasome pathway	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Wistar; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Ubiquitin-proteasome ●Musculoskeletal system - Muscle properties ---> Myosin heavy chain degradation
SLID-061	Skeletal muscle gene expression in space-flown rats	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Omics - Transcriptome ---> Muscle
SLID-062	Effects of spaceflight on myosin heavy-chain content, fibre morphology and succinate dehydrogenase activity in rat diaphragm	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Myosin heavy-chain content ●Musculoskeletal system - Muscle properties ---> Fibre morphology ●Musculoskeletal system - Muscle properties ---> Succinate dehydrogenase activity
SLID-063	Comparison of cell body size and oxidative enzyme activity in motoneurons between the cervical and lumbar segments in the rat spinal cord after spaceflight and recovery	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Neurons;	●n.a.	●Muscle atrophy	●Nervous and regulatory systems - Neural properties ---> Neuronal morphology ●Nervous and regulatory systems - Neural properties ---> Neuronal activity
SLID-064	Resveratrol prevents the wasting disorders of mechanical unloading by acting as a physical exercise mimetic in the rat	Investigated Organism: Rattus norvegicus; Studied Organism Strains: Wistar; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Blood; Muscle; Bone;	●n.a.	●Bone loss ●Inflammation ●Muscle atrophy	●Other profiles - Medication use ---> Resveratrol ●Other profiles - Medication use ---> Physical exercise mimetic ●Nervous and regulatory systems - Endocrine function ---> Wasting disorders ●Nervous and regulatory systems - Endocrine function ---> Insulin sensitivity ●Cardiovascular and Immune System - Immune function ---> Inflammation ●Musculoskeletal system - Muscle properties ---> Muscle mechanics ●Musculoskeletal system - Bone properties ---> Bone shape ●Musculoskeletal system - Bone properties ---> Bone mechanics
SLID-065	Observing the mouse thyroid sphingomyelin under space conditions: a case study from the MDS mission in comparison with hypergravity conditions	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Thyroid;	●n.a.	●Immune system dysregulation	●Other profiles - Organ morphology ---> Thyroid ●Nervous and regulatory systems - Endocrine function ---> Thyroid gland enzymes ●Nervous and regulatory systems - Endocrine function ---> Sphingomyelin metabolism dysregulation ●Environment - Hypergravity
SLID-066	Effect of actual long-term spaceflight on BDNF, TrkB, p75, BAX and BCL-XL genes expression in mouse brain regions	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Brain;	●n.a.	●Neurodegenerative disease ●Behavioral abnormalities	●Nervous and regulatory systems - Neural properties ---> Neurogenesis ●Nervous and regulatory systems - Neural properties ---> Neuronal apoptosis ●Nervous and regulatory systems - Neural properties ---> Proapoptotic factor ●Nervous and regulatory systems - Neural properties ---> Antiapoptotic factor ●Nervous and regulatory systems - Neural properties ---> Neurotrophic factor
SLID-067	Spaceflight Effects on Cytochrome P450 Content in Mouse Liver	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Liver;	●n.a.	●Drug metabolism change	●Digestive and Excretory System - Liver function ---> Cytochrome P450 ●Digestive and Excretory System - Liver function ---> Biotransformation
SLID-068	The effect of long-term hindlimb unloading on the expression of risk neurogenes encoding elements of serotonin-, dopaminergic systems and apoptosis; comparison with the effect of actual spaceflight on mouse brain	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Brain;	●n.a.	●Neurodegenerative disease	●Nervous and regulatory systems - Neural properties ---> Neuroplasticity ●Nervous and regulatory systems - Neural properties ---> Dopaminergic system ●Nervous and regulatory systems - Neural properties ---> Serotoninergic system
SLID-069	Healthy offspring from freeze-dried mouse spermatozoa held on the International Space Station for 9 months	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Spermatozoa;	●n.a.	●Fertility	●Development and Reproduction - Reproduction ---> Fertilization rate ●Development and Reproduction - Reproduction ---> Birth rate ●Omics - DNA damage ●Environment - Radiation
SLID-070	One-month spaceflight compromises the bone microstructure, tissue-level mechanical properties, osteocyte survival and lacunae volume in mature mice skeletons	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss ●Aging	●Musculoskeletal system - Bone properties ---> Bone volume ●Musculoskeletal system - Bone properties ---> Bone resorption ●Musculoskeletal system - Bone properties ---> Fatty marrow ●Musculoskeletal system - Bone properties ---> Osteocyte death ●Musculoskeletal system - Bone properties ---> Lacunae mineralization
SLID-071	Thirty days of spaceflight does not alter murine calvariae structure despite increased Sost expression	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone structure ●Musculoskeletal system - Bone properties ---> Calvaria mechanotransduction pathways ●Musculoskeletal system - Bone properties ---> Sclerostin
SLID-072	Stromal and Hematopoietic Progenitors from C57/BI/6N Murine Bone Marrow After 30-Day "BION-M1" Spaceflight	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone marrow;	●n.a.	●Immune system dysregulation	●Musculoskeletal system - Bone properties ---> Bone Marrow cell population ●Musculoskeletal system - Bone properties ---> Bone Marrow cell function
SLID-073	Space radiation triggers persistent stress response, increases senescent signaling, and decreases cell migration in mouse intestine	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Intestine;	●n.a.	●Gastrointestinal homeostasis	●Environment - Radiation ●Digestive and Excretory System - Gastrointestinal properties ---> Persistent stress response ●Digestive and Excretory System - Gastrointestinal properties ---> Senescent signaling ●Digestive and Excretory System - Gastrointestinal properties ---> Cell migration
SLID-074	Analysis of femurs from mice embarked on board BION-M1 biosatellite reveals a decrease in immune cell development, including B cells, after 1 wk of recovery on Earth	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone marrow; Spleen;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> B lymphopoiesis reduction ●Cardiovascular and Immune System - Immune function ---> Increased susceptibility to infection
SLID-075	Down-regulation of GATA1-dependent erythrocyte-related genes in the spleens of mice exposed to a space travel	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Spleen; Blood;	●n.a.	●Immune system dysregulation	●Other profiles - Organ morphology ---> Spleen mass and structure ●Cardiovascular and Immune System - Immune function ---> Plasma immunoglobulin concentration ●Omics - Transcriptome ---> Spleen ●Environment - Artificial gravity
SLID-076	Characterization of mouse ocular response to a 35-day spaceflight mission: Evidence of blood-retinal barrier disruption and ocular adaptations	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Eye;	●Fluid dynamics - Hemodynamics	●Visual impairment	●Nervous and regulatory systems - Eye properties ---> Intraocular pressure ●Nervous and regulatory systems - Eye properties ---> Apoptosis ●Nervous and regulatory systems - Eye properties ---> Blood-retinal barrier ●Nervous and regulatory systems - Eye properties ---> Ocular structural
SLID-077	Hypergravity disrupts murine intestinal microbiota	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Microbiota;	●n.a.	●Gastrointestinal homeostasis	●Omics - Microbiome ---> Gut ●Other profiles - Organ morphology ---> Mucosal integrity ●Environment - Hypergravity
SLID-078	Spaceflight influences gene expression, photoreceptor integrity, and oxidative stress-related damage in the murine retina	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Eye;	●n.a.	●Oxidative damage ●Visual impairment	●Nervous and regulatory systems - Eye properties ---> Photoreceptor integrity ●Nervous and regulatory systems - Eye properties ---> Oxidative stress-related damage
SLID-079	Male mice, caged in the International Space Station for 35 days, sire healthy offspring	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Reproduction organs;	●n.a.	●Fertility ●Development impairment	●Development and Reproduction - Development ---> Male reproductive organs ●Development and Reproduction - Reproduction ---> Fertilization ●Development and Reproduction - Reproduction ---> Sperm function ●Development and Reproduction - Reproduction ---> Offspring viability ●Environment - Artificial gravity
SLID-080	Effects of spaceflight on the mouse submandibular gland	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Submandibular gland; Saliva;	●n.a.	●n.a.	●Nervous and regulatory systems - Endocrine function ---> Secretory protein expression
SLID-081	Validation of a New Rodent Experimental System to Investigate Consequences of Long Duration Space Habitation	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Whole animal; Whole animal; Liver; Spleen; Thymus; Adrenal gland; Muscle;	●n.a.	●Muscle atrophy	●Other profiles - Methodology ---> Equipment test ●Other profiles - Organ morphology ---> Liver ●Other profiles - Organ morphology ---> Spleen ●Other profiles - Organ morphology ---> Thymus ●Other profiles - Organ morphology ---> Adrenal glands ●Musculoskeletal system - Muscle properties ---> Muscle mass ●Nervous and regulatory systems - Behavior ---> Physical activity
SLID-082	Spaceflight affects neuronal morphology and alters transcellular degradation of neuronal debris in adult Caenorhabditis elegans	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Neurons;	●n.a.	●Neurodegenerative disease	●Nervous and regulatory systems - Neural properties ---> Neuronal morphology ●Nervous and regulatory systems - Neural properties ---> Neuronal debris clearance
SLID-083	Effects of a Four-day Spaceflight and Recombinant Human Growth Hormone on Cancellous Bone Microarchitecture in Femoral Head of Rapidly Growing Male Rats	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone volume ●Musculoskeletal system - Bone properties ---> Bone structure ●Musculoskeletal system - Bone properties ---> Bone lose ●Other profiles - Medication use ---> Recombinant human growth hormone
SLID-084	Persistent deterioration of visuospatial performance in spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Cognitive decline ●Sensorimotor decline	●Nervous and regulatory systems - Neuromotor control ---> Electrophysiological responses ●Nervous and regulatory systems - Neuro-sensory function ---> Visuospatial performance ●Nervous and regulatory systems - Cognitive performance
SLID-085	Behavior of mice aboard the International Space Station	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Nervous and regulatory systems - Behavior ---> Physical activity ●Nervous and regulatory systems - Behavior ---> Circling behavior ●Nervous and regulatory systems - Behavior ---> Race-tracking
SLID-086	Thermoregulatory responses of Rhesus monkeys during spaceflight	Investigated Organism: Macaca mulatta; Organism Common Name: Rhesus monkey; Organism Class: Mammalia; Studied Organ/Tissue/Part: Body temperature;	●Fluid dynamics - Hemodynamics ●Heat conduction - Body temperature	●Fever	●Nervous and regulatory systems - Body temperature ---> Axillary temperature ●Nervous and regulatory systems - Body temperature ---> Ankle skin temperature ●Nervous and regulatory systems - Body temperature ---> Thermoregulatory responses ●Cardiovascular and Immune System - Cardiovascular properties ---> Heart rate ●Cardiovascular and Immune System - Cardiovascular properties ---> Circadian rhythms
SLID-087	A spaceflight study of synaptic plasticity in adult rat vestibular maculas	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Vestibular organs;	●Inertial forces - Otolith system	●Stress	●Nervous and regulatory systems - Neural properties ---> Synaptic plasticity ●Nervous and regulatory systems - Neuro-sensory function ---> Neurovestibular center structural modification ●Nervous and regulatory systems - Behavior ---> Chromodacryorrhea ●Nervous and regulatory systems - Behavior ---> Abnormal posture and movement
SLID-088	Effects of spaceflight on bone mineralization in the rhesus monkey	Investigated Organism: Macaca mulatta; Organism Common Name: Rhesus monkey; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone mineralization ●Musculoskeletal system - Bone properties ---> Bone volume
SLID-089	Effects of 14 days of spaceflight and nine days of recovery on cell body size and succinate dehydrogenase activity of rat dorsal root ganglion neurons	Investigated Organism: Rattus norvegicus; Studied Organism Strains: SpragueDawley-derived; Organism Common Name: Rat; Organism Class: Mammalia; Studied Organ/Tissue/Part: Nerve;	●n.a.	●Neurovestibular decline	●Nervous and regulatory systems - Neuro-sensory function ---> Proprioception
SLID-090	Spaceflight affects bone formation in rhesus monkeys: a histological and cell culture study	Investigated Organism: Macaca mulatta; Organism Common Name: Rhesus monkey; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone structure ●Musculoskeletal system - Bone properties ---> Bone formation ●Musculoskeletal system - Bone properties ---> Osteoblastic cell proliferation
SLID-091	Effects of spaceflight on innate immune function and antioxidant gene expression	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Thymus; Spleen; Liver;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Blastogenesis ●Cardiovascular and Immune System - Immune function ---> Blood cell population ●Cardiovascular and Immune System - Immune function ---> Cytokine concentrition
SLID-092	Evaluation of gene, protein and neurotrophin expression in the brain of mice exposed to space environment for 91 days	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/10J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Brain;	●n.a.	●n.a.	●Omics - Transcriptome ---> Brain ●Omics - Proteome ---> Brain
SLID-093	Effects of spaceflight and ground recovery on mesenteric artery and vein constrictor properties in mice	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Vessel;	●Fluid dynamics - Hemodynamics	●Unstable blood pressure	●Cardiovascular and Immune System - Cardiovascular properties ---> Blood pressure ●Cardiovascular and Immune System - Cardiovascular properties ---> Vessel morphology ●Cardiovascular and Immune System - Cardiovascular properties ---> Mesenteric artery ●Cardiovascular and Immune System - Cardiovascular properties ---> Vein constrictor properties ●Cardiovascular and Immune System - Cardiovascular properties ---> Vasoconstrictor responses ●Cardiovascular and Immune System - Cardiovascular properties ---> Orthostatic stress ●Other profiles - Medication use ---> Norepinephrine ●Other profiles - Medication use ---> Potassium chloride ●Other profiles - Medication use ---> Caffeine
SLID-094	Spaceflight-induced alterations in cerebral artery vasoconstrictor, mechanical, and structural properties: implications for elevated cerebral perfusion and intracranial pressure	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Brain; Vessel;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain properties ---> Cerebral arteries function ●Nervous and regulatory systems - Brain properties ---> Cerebral arteries mechanics ●Nervous and regulatory systems - Brain properties ---> Cerebral arteries structure ●Nervous and regulatory systems - Brain properties ---> Cerebral perfusion ●Nervous and regulatory systems - Brain properties ---> Intracranial pressure
SLID-095	Risk neurogenes for long-term spaceflight: dopamine and serotonin brain system	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Brain;	●n.a.	●Locomotor impairment	●Nervous and regulatory systems - Brain properties ---> Brain dopaminergic and serotonergic systems
SLID-096	Spaceflight on the Bion-M1 biosatellite alters cerebral artery vasomotor and mechanical properties in mice	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Vessel; Brain;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain properties ---> Cerebral arteries function ●Nervous and regulatory systems - Brain properties ---> Cerebral arteries mechanics ●Nervous and regulatory systems - Brain properties ---> Cerebral arteries structure ●Nervous and regulatory systems - Brain properties ---> Cerebral perfusion
SLID-097	Effects of microgravity on DNA damage response in Caenorhabditis elegans during Shenzhou-8 spaceflight	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●Aging	●Omics - DNA damage ●Omics - Transcriptome ---> Whole animal
SLID-098	Spaceflight impairs antigen-specific tolerance induction in vivo and increases inflammatory cytokines	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Lymph node; Spleen; Leukocytes;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Immune tolerance impairement ●Cardiovascular and Immune System - Immune function ---> Lymphocytes population ●Cardiovascular and Immune System - Immune function ---> Cytokine content
SLID-099	Osteoprotegerin is an effective countermeasure for spaceflight-induced bone loss in mice	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone lose ●Musculoskeletal system - Bone properties ---> Bone mechanical properties ●Musculoskeletal system - Bone properties ---> Bone mass ●Musculoskeletal system - Bone properties ---> Bone components ●Other profiles - Medication use ---> Osteoprotegerin
SLID-100	BION-M 1: First continuous blood pressure monitoring in mice during a 30-day spaceflight	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Vessel; Heart;	●Fluid dynamics - Hemodynamics	●Cardiovascular deconditioning	●Cardiovascular and Immune System - Cardiovascular properties ---> Blood pressure ●Cardiovascular and Immune System - Cardiovascular properties ---> Hydrostatic pressure
SLID-101	Socioenvironmental stressors encountered during spaceflight partially affect the murine TCR-β repertoire and increase its self-reactivity	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Leukocytes; Thymocytes;	●n.a.	●Stress ●Pregnant ●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> T lymphopoiesis ●Cardiovascular and Immune System - Immune function ---> Thymocyte maturation ●Environment - Socioenvironmental stressors
SLID-102	Articular cartilage and sternal fibrocartilage respond differently to extended microgravity	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Cartilage;	●n.a.	●n.a.	●Musculoskeletal system - Cartilage properties
SLID-103	Hypergravity and microgravity exhibited reversal effects on the bone and muscle mass in mice	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Muscle atrophy ●Bone loss	●Musculoskeletal system - Bone properties ●Musculoskeletal system - Muscle properties ●Environment - Hypergravity
SLID-104	Skeletal muscle in MuRF1 null mice is not spared in low-gravity conditions, indicating atrophy proceeds by unique mechanisms in space	Investigated Organism: Mus musculus; Studied Organism Strains: MuRF1 KO; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties
SLID-105	The effects of spaceflight and fracture healing on distant skeletal sites	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Wound healing ●Bone loss	●Musculoskeletal system - Bone properties ---> Bone loss ●Musculoskeletal system - Bone properties ---> Bone geometry ●Development and Reproduction - Regeneration ---> Fracture healing
SLID-106	Skeletal adaptations in young male mice after 4 weeks aboard the International Space Station	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Development impairment ●Bone loss	●Musculoskeletal system - Bone properties ---> Skeletal adaptation ●Musculoskeletal system - Bone properties ---> Bone mass ●Development and Reproduction - Development ---> Skeletal maturation
SLID-107	Standardized nomenclature, symbols, and units for bone histomorphometry: a 2012 update of the report of the ASBMR Histomorphometry Nomenclature Committee	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone micro-architectural ●Musculoskeletal system - Bone properties ---> Bone mechanical properties ●Other profiles - Medication use ---> Dried plum powder ●Environment - Simulated microgravity ●Environment - Radiation
SLID-108	Dynamics of entomopathogenic nematode foraging and infectivity in microgravity	Investigated Organism: Steinernema feltiae; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●Infectious disease	●Nervous and regulatory systems - Behavior ---> Foraging ●Nervous and regulatory systems - Behavior ---> Crop protection ●Other profiles - Parasite infectivity
SLID-109	Spaceflight induces oxidative damage to blood-brain barrier integrity in a mouse model	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Brain; Blood-brain barrier;	●Fluid dynamics - Hemodynamics	●Brain damage ●Oxidative damage	●Nervous and regulatory systems - Brain properties ---> Blood-brain barrier integrity ●Nervous and regulatory systems - Neural properties ---> Neurovascular damage ●Omics - Proteome ---> Brain
SLID-110	Bioinformatic Analysis of the Sciatic Nerve Transcriptomes of Mice after 30-Day Spaceflight on Board the Bion-M1 Biosatellite	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Nerve;	●n.a.	●n.a.	●Omics - Transcriptome ---> Sciatic nerve
SLID-111	Vestibular cerebellum of thick-toed geckos (Chondrodactylus turnery GRAY, 1864) and C57/BL6N mice after the long-term space flight on the biosatellite BION-M1	Investigated Organism: Mus musculus; Chondrodactylus turneri; Studied Organism Strains: GRAY,1864; C57/BL6N; Organism Common Name: Thick-toed gecko; Mice; Organism Class: Reptile; Mammalia; Studied Organ/Tissue/Part: Vestibular organs;	●n.a.	●n.a.	●Nervous and regulatory systems - Neural properties ---> Cellular pathomorphological change
SLID-112	Effects of spaceflight on ocular counterrolling and the spatial orientation of the vestibular system	Investigated Organism: Macaca mulatta; Organism Common Name: Rhesus monkey; Organism Class: Mammalia; Studied Organ/Tissue/Part: Eye;	●n.a.	●Visuo-motor disorder	●Nervous and regulatory systems - Neuro-sensory function ---> Ocular counterrolling reduce ●Nervous and regulatory systems - Neuro-sensory function ---> Spatial orientation shift
SLID-113	Embryonic quail eye development in microgravity	Investigated Organism: Coturnix coturnix; Organism Common Name: Quail; Organism Class: Bird; Studied Organ/Tissue/Part: Embryos;	●n.a.	●Development impairment	●Development and Reproduction - Development ---> Eye development
SLID-114	Weightlessness during spaceflight results in enhanced synapse formation in a fish brain vestibular nucleus	Investigated Organism: Xiphophorus helleri; Organism Common Name: Swordtail fish; Organism Class: Fish; Studied Organ/Tissue/Part: Vestibular organs;	●n.a.	●Development impairment	●Development and Reproduction - Development ---> Synapse formation ●Development and Reproduction - Development ---> Brain vestibular nucleus
SLID-115	Mechanism of vestibular adaptation of fish under microgravity	Investigated Organism: Carassius auratus; Organism Common Name: Goldfish; Organism Class: Fish; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Nervous and regulatory systems - Behavior ---> Looping and rolling behavior ●Nervous and regulatory systems - Behavior ---> Dorsal light responses ●Nervous and regulatory systems - Behavior ---> Body flexion ●Nervous and regulatory systems - Neuro-sensory function ---> Vestibular adaptation
SLID-116	Calcium utilization by quail embryos during activities preceding space flight and during embryogenesis in microgravity aboard the orbital space station MIR	Investigated Organism: Coturnix coturnix; Organism Common Name: Quail; Organism Class: Bird; Studied Organ/Tissue/Part: Embryos;	●n.a.	●Development impairment	●Development and Reproduction - Development ---> Calcium utilization ●Development and Reproduction - Development ---> Embryogenesis
SLID-117	The calcium endocrine system of adolescent rhesus monkeys and controls before and after spaceflight	Investigated Organism: Macaca mulatta; Organism Common Name: Rhesus monkey; Organism Class: Mammalia; Studied Organ/Tissue/Part: Blood;	●Fluid dynamics - Hemodynamics	●Endocrine disorders	●Nervous and regulatory systems - Endocrine function ---> Calcium endocrine system
SLID-118	Urodelean amphibians in studies on microgravity: effects upon organ and tissue regeneration	Investigated Organism: Pleurodeles waltl; Organism Common Name: Newt; Organism Class: Amphibian; Studied Organ/Tissue/Part: Eye;	●n.a.	●n.a.	●Development and Reproduction - Regeneration ---> Organ and tissue regeneration ●Development and Reproduction - Regeneration ---> Cell proliferation ●Environment - Simulated microgravity
SLID-119	Morphometric investigations of sensory vestibular structures in tadpoles (Xenopus laevis) after a spaceflight: implications for microgravity-induced alterations of the vestibuloocular reflex	Investigated Organism: Xenopus laevis; Organism Common Name: African Clawed Frog; Organism Class: Amphibian; Studied Organ/Tissue/Part: Vestibular organs;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Otoliths shap ●Development and Reproduction - Development ---> CalBindin expressing cell ●Nervous and regulatory systems - Neuro-sensory function ---> Vestibular adaptation ●Nervous and regulatory systems - Neuro-sensory function ---> Vestibuloocular reflex
SLID-120	Spaceflight-associated changes in immunoglobulin VH gene expression in the amphibian Pleurodeles waltl	Investigated Organism: Pleurodeles waltl; Organism Common Name: Newt; Organism Class: Amphibian; Studied Organ/Tissue/Part: Spleen;	●n.a.	●n.a.	●Cardiovascular and Immune System - Immune function ---> IgM heavy-chain gene expression
SLID-121	Decrease in antibody somatic hypermutation frequency under extreme, extended spaceflight conditions	Investigated Organism: Pleurodeles waltl; Organism Common Name: Newt; Organism Class: Amphibian; Studied Organ/Tissue/Part: Spleen; Liver;	●n.a.	●n.a.	●Cardiovascular and Immune System - Immune function ---> IgM heavy-chain gene mutation
SLID-122	Gravity changes during animal development affect IgM heavy-chain transcription and probably lymphopoiesis	Investigated Organism: Pleurodeles waltl; Organism Common Name: Newt; Organism Class: Amphibian; Studied Organ/Tissue/Part: Larvae;	●n.a.	●n.a.	●Cardiovascular and Immune System - Immune function ---> IgM heavy-chain gene expression ●Cardiovascular and Immune System - Immune function ---> Lymphopoiesis
SLID-123	Changes in titin and myosin heavy chain isoform composition in skeletal muscles of Mongolian gerbil (Meriones unguiculatus) after 12-day spaceflight	Investigated Organism: Meriones unguiculatus; Organism Common Name: Mongolian jird; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle composition ●Musculoskeletal system - Muscle properties ---> Titin ●Musculoskeletal system - Muscle properties ---> Myosin heavy chain isoform
SLID-124	Microgravity promotes osteoclast activity in medaka fish reared at the international space station	Investigated Organism: Oryzias latipes; Organism Common Name: Medaka fish; Organism Class: Fish; Studied Organ/Tissue/Part: Whole animal; Bone;	●n.a.	●n.a.	●Musculoskeletal system - Bone properties ---> Bone mineral density ●Musculoskeletal system - Bone properties ---> Osteoclasts mitochondria roundness ●Musculoskeletal system - Bone properties ---> Osteoclast activation ●Nervous and regulatory systems - Behavior ---> Motionless ●Omics - Transcriptome
SLID-125	Evaluation of rodent spaceflight in the NASA animal enclosure module for an extended operational period (up to 35 days)	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Whole animal; Thymus; Adrenal gland; Spleen; Heart; Lungs; Blood;	●n.a.	●n.a.	●Other profiles - Equipment test ●Other profiles - Organ morphology ---> Thymus ●Other profiles - Organ morphology ---> Adrenals ●Other profiles - Organ morphology ---> Spleen ●Other profiles - Organ morphology ---> Heart ●Other profiles - Organ morphology ---> Lungs ●Nervous and regulatory systems - Behavior ---> Food consumption ●Nervous and regulatory systems - Behavior ---> Water consumption ●Cardiovascular and Immune System - Blood components ---> Blood proteins ●Cardiovascular and Immune System - Blood components ---> Blood cells ●Cardiovascular and Immune System - Blood components ---> Blood elements ●Other profiles - Methodology ---> Equipment test
SLID-126	Behavior of Stem-Like Cells, Precursors for Tissue Regeneration in Urodela, Under Conditions of Microgravity	Investigated Organism: Pleurodeles waltl; Organism Common Name: Newt; Organism Class: Amphibian; Studied Organ/Tissue/Part: Stem-Like Cells;	●n.a.	●n.a.	●Development and Reproduction - Regeneration ---> Stem-like cell-dependent regeneration
SLID-127	Radiation and microgravity effects observed in the insect system Carausius morosus	Investigated Organism: Carausius morosus; Organism Common Name: Indian stick insect; Organism Class: Arthropod; Studied Organ/Tissue/Part: Egg;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Embryogenesis ●Development and Reproduction - Development ---> Hatching rate ●Development and Reproduction - Development ---> Growth kinetics ●Development and Reproduction - Development ---> Anomaly frequency ●Environment - Radiation
SLID-128	Embryonic Development and Behaviour of Japanese Quail Exposed to Microgravity	Investigated Organism: Coturnix coturnix; Organism Common Name: Quail; Organism Class: Bird; Studied Organ/Tissue/Part: Embryos;	●n.a.	●Development impairment	●Development and Reproduction - Development ---> Embryogenesis ●Development and Reproduction - Development ---> Eye development ●Development and Reproduction - Development ---> Brain development ●Development and Reproduction - Development ---> Beak development ●Development and Reproduction - Development ---> Embryos morphology
SLID-129	The Quail Embryonic Development Under the Conditions of Weightlessness	Investigated Organism: Coturnix coturnix; Organism Common Name: Quail; Organism Class: Bird; Studied Organ/Tissue/Part: Embryos;	●n.a.	●Development impairment	●Development and Reproduction - Development ---> Embryogenesis ●Development and Reproduction - Development ---> Shatching rate ●Development and Reproduction - Development ---> Anomalies
SLID-130	Ophthalmic changes and increased intracranial pressure associated with long duration spaceflight: An emerging understanding	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain; Eye;	●Fluid dynamics - Hemodynamics	●Visual impairment	●Nervous and regulatory systems - Neuro-sensory function ---> Visual impairment ●Nervous and regulatory systems - Neuro-sensory function ---> Visual acuity shift ●Nervous and regulatory systems - Neuro-sensory function ---> Ophthalmic changes ●Nervous and regulatory systems - Neuro-sensory function ---> Intracranial pressure
SLID-131	Circadian misalignment affects sleep and medication use before and during spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Sleeplessness	●Nervous and regulatory systems - Sleep ---> Nervous and regulatory systems - Sleep deficiency ●Other profiles - Medication use ---> Hypnotic drug ●Cardiovascular and Immune System - Circadian rhythm ---> Circadian misalignment
SLID-132	Medication use by U.S. crewmembers on the International Space Station	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●n.a.	●Other profiles - Medication use ---> Hypnotic drug ●Other profiles - Medication use ---> Pain relievers ●Other profiles - Medication use ---> Antifungal preparations ●Other profiles - Medication use ---> Steroid ●Other profiles - Medication use ---> Antihistamines
SLID-133	Characterization of sleep-wake patterns in crew members under a short-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior; Heart;	●n.a.	●Sleeplessness	●Nervous and regulatory systems - Sleep ---> Nervous and regulatory systems - Sleep deficiency ●Nervous and regulatory systems - Sleep ---> Nervous and regulatory systems - Sleep-wake patterns ●Cardiovascular and Immune System - Heart rhythm ---> Heart rate
SLID-134	Effects of Spaceflight on Astronaut Brain Structure as Indicated on MRI	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain structure ---> Cerebrospinal fluid space narrowing ●Nervous and regulatory systems - Brain structure ---> Ventricular volume ●Nervous and regulatory systems - Brain structure ---> Central sulcus narrowing ●Nervous and regulatory systems - Brain structure ---> Brain upward shift
SLID-135	Changes in human skeletal muscle architecture and function induced by extended spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle strength ●Musculoskeletal system - Muscle properties ---> Muscle architecture ●Musculoskeletal system - Muscle properties ---> Fiber length ●Musculoskeletal system - Muscle properties ---> Pennation angle
SLID-136	The effect of long-term exposure to microgravity on the perception of upright	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Neurovestibular decline	●Nervous and regulatory systems - Neuro-sensory function ---> Perception of upright ●Nervous and regulatory systems - Neuro-sensory function ---> Orientation
SLID-137	Spaceflight-induced cardiovascular changes and recovery during NASA's Functional Task Test	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart;	●Fluid dynamics - Hemodynamics	●Cardiac rhythm disturbances	●Cardiovascular and Immune System - Heart rhythm ---> Mean heart rate ●Cardiovascular and Immune System - Heart rhythm ---> Heart rate variability ●Nervous and regulatory systems - Vegetative nervous system function ---> Autonomic activity ●Nervous and regulatory systems - Vegetative nervous system function ---> Parasympathetic modulation ●Nervous and regulatory systems - Vegetative nervous system function ---> Sympathovagal balance
SLID-138	Long-term exposure to microgravity impairs vestibulo-cardiovascular reflex	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vessel;	●Fluid dynamics - Hemodynamics	●Orthostatic intolerance	●Nervous and regulatory systems - Neuro-sensory function ---> Vestibulo-cardiovascular reflex impairment ●Cardiovascular and Immune System - Vessel properties ---> Blood pressure
SLID-139	Study of the impact of long-duration space missions at the International Space Station on the astronaut microbiome	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Microbiota;	●n.a.	●Hypersensitivity ●Gastrointestinal homeostasis	●Omics - Microbiome ---> Gut ●Omics - Microbiome ---> Skin ●Cardiovascular and Immune System - Immune function ---> Cytokine profile
SLID-140	Long-duration spaceflight adversely affects post-landing operator proficiency	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Sensorimotor decline ●Cognitive decline	●Nervous and regulatory systems - Neuromotor control ---> Manual dexterity ●Nervous and regulatory systems - Neuromotor control ---> Dual-tasking ●Nervous and regulatory systems - Neuromotor control ---> Motion perception ●Nervous and regulatory systems - Cognitive performance
SLID-141	Inflight leg cuff test does not identify the risk for orthostatic hypotension after long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vessel; Heart;	●Fluid dynamics - Hemodynamics	●Orthostatic intolerance	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate ●Cardiovascular and Immune System - Vessel properties ---> Systolic pressure ●Cardiovascular and Immune System - Vessel properties ---> Diastolic pressure ●Cardiovascular and Immune System - Vessel properties ---> Mean arterial pressure ●Cardiovascular and Immune System - Vessel properties ---> Baroreflex response
SLID-142	Mental performance in extreme environments: results from a performance monitoring study during a 438-day spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Cognitive decline ●Mood impairment	●Nervous and regulatory systems - Psychology ---> Mental performance ●Nervous and regulatory systems - Psychology ---> Mood ●Nervous and regulatory systems - Cognitive performance
SLID-143	Impaired pressor response after spaceflight and bed rest: evidence for cardiovascular dysfunction	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vessel; Heart;	●Fluid dynamics - Hemodynamics	●Blood pressor response impairment	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate ●Cardiovascular and Immune System - Vessel properties ---> Pressor response ●Cardiovascular and Immune System - Vessel properties ---> Isometric muscle action ●Cardiovascular and Immune System - Vessel properties ---> Mean arterial pressure
SLID-144	Heart rate variability and short duration spaceflight: relationship to post-flight orthostatic intolerance	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart;	●Fluid dynamics - Hemodynamics ●Statistical physics of fluctuation system - Heartbeat fluctuation	●Orthostatic intolerance	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate variability ●Nervous and regulatory systems - Vegetative nervous system function ---> Parasympathetic activity ●Nervous and regulatory systems - Vegetative nervous system function ---> Sympathetic activity ●Nervous and regulatory systems - Vegetative nervous system function ---> Sympathovagal balance
SLID-145	B cell homeostasis is maintained during long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> B cell homeostasis ●Cardiovascular and Immune System - Immune function ---> B cell number ●Cardiovascular and Immune System - Immune function ---> B cell phenotype ●Cardiovascular and Immune System - Immune function ---> Plasama anti body concentrition
SLID-146	Brain ventricular volume changes induced by long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain structure ---> Brain ventricular volume ●Nervous and regulatory systems - Brain structure ---> Cerebrospinal fluid volume ●Nervous and regulatory systems - Brain structure ---> Cerebrospinal fluid resorption
SLID-147	Resistive exercise in astronauts on prolonged spaceflights provides partial protection against spaceflight-induced bone loss	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior; Urine; Blood; Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone loss ●Musculoskeletal system - Bone properties ---> Bone mineral density ●Musculoskeletal system - Bone properties ---> Bone resorption ●Cardiovascular and Immune System - Blood components ---> Bone markers ●Digestive and Excretory System - Urine components ---> Bone markers ●Other profiles - Medication use ---> Exercise
SLID-148	Exercise as a countermeasure for latent viral reactivation during long duration space flight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Saliva; Urine; Blood;	●n.a.	●Latent viral reactivation	●Cardiovascular and Immune System - Immune function ---> Latent viral reactivation ●Other profiles - Medication use ---> Exercise
SLID-149	Non-linear heart rate control in orthostatic tolerant cosmonauts after short-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart;	●Fluid dynamics - Hemodynamics	●Orthostatic intolerance	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate variability ●Cardiovascular and Immune System - Heart rhythm ---> Non-linear heart rate control
SLID-150	Dysfunctional vestibular system causes a blood pressure drop in astronauts returning from space	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vessel; Vestibular system;	●Fluid dynamics - Hemodynamics	●Unstable blood pressure	●Nervous and regulatory systems - Neuro-sensory function ---> Otolith system deconditioning ●Cardiovascular and Immune System - Vessel properties ---> Mean arterial pressure ●Cardiovascular and Immune System - Vessel properties ---> Blood pressure instability ●Nervous and regulatory systems - Vegetative nervous system function ---> Cardiovascular autonomic control
SLID-151	Macro- and microstructural changes in cosmonauts' brains after long-duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain structure ---> White matter ●Nervous and regulatory systems - Brain structure ---> Gray matter ●Nervous and regulatory systems - Brain structure ---> Cerebrospinal fluid composition ●Nervous and regulatory systems - Neuro-sensory function ---> Visual acuity ●Nervous and regulatory systems - Neural properties ---> Motor strategies adaption
SLID-152	Understanding the effects of spaceflight on head–trunk coordination during walking and obstacle avoidance	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Sensorimotor decline	●Nervous and regulatory systems - Neuromotor control ---> Head–trunk coordination ●Nervous and regulatory systems - Neuromotor control ---> Movement strategies
SLID-153	A microbial survey of the International Space Station (ISS)	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Microbiota; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-154	Spaceflight Modifies Escherichia coli Gene Expression in Response to Antibiotic Exposure and Reveals Role of Oxidative Stress Response	Investigated Organism: Escherichia coli; Studied Organism Strains: ATCC 4157; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Normal flora of Human; Model organism; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Stress resistance - Oxidative stress resistance ●Omics - Transcriptome
SLID-155	Succession and persistence of microbial communities and antimicrobial resistance genes associated with International Space Station environmental surfaces	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Microbiota; Microbe Form: Spacecraft sample;	●n.a.	●Antibiotic resistance ●Virulence	●Omics - Microbiome ●Cell behavior - Survival and growth ---> Cell viability ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-156	Comparison of Bacillus subtilis transcriptome profiles from two separate missions to the International Space Station	Investigated Organism: Bacillus subtilis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Plant probiotic; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation ●Polymer network-Biofilm ---> Transcriptomic	●n.a.	●Omics - Transcriptome
SLID-157	Microbiomes of China's Space Station During Assembly, Integration, and Test Operations	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Microbiota; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ---> China's space station samples ●Cell behavior - Survival and growth ---> Cell viability ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-158	Identification of potential tobramycin-resistant mutagenesis of Escherichia coli strains after spaceflight	Investigated Organism: Escherichia coli; Studied Organism Strains: T1_13; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Normal flora of Human; Human opportunistic pathogen; Model organism; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Omics - Genome ---> Mutagenesis ●Omics - Transcriptome
SLID-159	Increased growth rate and amikacin resistance of Salmonella enteritidis after one-month spaceflight on China's Shenzhou-11 spacecraft	Investigated Organism: Salmonella enteritidis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm growth ●Polymer network-Biofilm ---> Proteomic	●Antibiotic resistance	●Cell behavior - Survival and growth ---> Growth rate ●Morphology - Biofilm
SLID-160	Characterization of the total and viable bacterial and fungal communities associated with the International Space Station surfaces	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Microbiota; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-161	Integrated proteomic and metabolomic analysis to study the effects of spaceflight on Candida albicans	Investigated Organism: Candida albicans; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation ●Polymer network-Biofilm ---> Proteomic/Metabolomic	●Virulence	●Cell behavior - Survival and growth ---> Growth rate ●Morphology - Mycelium ●Stress resistance - Oxidative stress resistance ●Morphology - Biofilm
SLID-162	Genomic and phenotypic characterization of Burkholderia isolates from the potable water system of the International Space Station	Investigated Organism: Burkholderia contaminans; Burkholderia cepacia; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation ●Polymer network-Biofilm ---> Genomic	●Virulence	●Omics - Genome ---> Mutagenesis ●Morphology - Biofilm
SLID-163	Space Station conditions are selective but do not alter microbial characteristics relevant to human health	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Microbiota; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation ●Polymer network-Biofilm ---> Genomic	●Antibiotic resistance	●Omics - Microbiome ●Stress resistance - Heat shock resistance ●Stress resistance - PH tolerance ●Morphology - Biofilm
SLID-164	Expression of stress response genes in barley Hordeum vulgare in a spaceflight environment	Investigated Organism: Hordeum vulgare; Organism Common Name: Barley; Organism Class: Food; Studied Organ/Tissue/Part: Seedling; Food Category: Grain; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Seedling ●Omics - Transcriptomics of stress resistance ---> Heat shock response ●Omics - Transcriptomics of stress resistance ---> Pathogenesis-related response ●Omics - Transcriptomics of stress resistance ---> ROS scavenging response
SLID-165	Microgravity effects on thylakoid, single leaf, and whole canopy photosynthesis of dwarf wheat	Investigated Organism: Triticum aestivum (Dwarf wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Foil; Whole plant; Food Category: Grain; Growth Stage During Space Flight: Seed to mature plant;	●Light absorption and electron transfer - Photosynthesis	●n.a.	●Process - Photosynthesis ---> Photosynthetic photon flux ●Process - Photosynthesis ---> Quantum yield of canopy photosynthesis ●Process - Photosynthesis ---> Whole chain electron ●Process - Photosynthesis ---> Chlorophyll content ●Process - Photosynthesis ---> Chlorophyll fluorescence ●Growth - Whole plant ---> Plant dry mass
SLID-166	Microgravity effects on leaf morphology, cell structure, carbon metabolism and mRNA expression of dwarf wheat	Investigated Organism: Triticum aestivum (Dwarf wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed to mature plant;	●Light absorption and electron transfer - Photosynthesis - Chloroplasts	●n.a.	●Process - Photosynthesis ---> Chloroplast density ●Process - Photosynthesis ---> Chloroplast area ●Process - Photosynthesis ---> Chloroplast L/W ●Process - Photosynthesis ---> Thylakoid density ●Process - Photosynthesis ---> Thylakoid spacing ●Growth - Leaf ---> Leaf transverse thickness ●Growth - Leaf ---> Leaf cell density ●Growth - Leaf ---> Cell area ●Omics - Transcriptomics ---> RNA seq ●Omics - Transcriptomics ---> Leaf ●Component - Carbohydrate ---> Insoluble starch ●Component - Carbohydrate ---> Lignin ●Component - Carbohydrate ---> Coniferyl ●Component - Carbohydrate ---> Sinapyl ●Component - Carbohydrate ---> Rhamnose ●Component - Carbohydrate ---> Fucose ●Component - Carbohydrate ---> Arabinose ●Component - Carbohydrate ---> Xylose ●Component - Carbohydrate ---> Mannose ●Component - Carbohydrate ---> Galactose ●Component - Carbohydrate ---> Glucose
SLID-167	Quantification of four active ingredients and fingerprint analysis of Licorice (Glycyrrhiza uralensis Fisch.) after spaceflight by HPLC–DAD	Investigated Organism: Glycyrrhiza uralensis; Organism Common Name: Licorice; Organism Class: Herb; Studied Organ/Tissue/Part: Seed; Root; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Component - Active ingredients ---> Isoliquiritin ●Component - Active ingredients ---> Liquiritigenin ●Component - Active ingredients ---> Isoliquirigenin ●Component - Active ingredients ---> Glabridin
SLID-168	STS-95 space experiment for plant growth and development, and auxin polar transport	Investigated Organism: Pisum sativum; Zea mays; Organism Common Name: Pea; Maize; Organism Class: Food; Studied Organ/Tissue/Part: Seedling; Epicotyls; Coleoptile; Food Category: Vegetable; Grain; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Seed germination ---> Epicotyls extensibility ●Growth - Seed germination ---> Coleoptiles extensibility ●Growth - Seed germination ---> Epicotyls direction ●Growth - Seed germination ---> Epicotyls angle ●Component - Plant hormone ---> Auxin
SLID-169	Polar auxin transport is essential to maintain growth and development of etiolated pea and maize seedlings grown under 1 g conditions: Relevance to the international space station experiment	Investigated Organism: Pisum sativum; Zea mays; Organism Common Name: Pea; Maize; Organism Class: Food; Studied Organ/Tissue/Part: Seedling; Epicotyls; Coleoptile; Food Category: Vegetable; Grain; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Seed germination ---> Coleoptile length ●Growth - Seed germination ---> Mesocotyls length ●Component - Plant hormone ---> Auxin
SLID-170	A novel maize dwarf mutant generated by Ty1-copia LTR-retrotransposon insertion in Brachytic2 after spaceflight	Investigated Organism: Zea mays; Organism Common Name: Maize; Organism Class: Food; Studied Organ/Tissue/Part: Seed; Ear; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Stem and branch ---> Ear height ●Growth - Stem and branch ---> Cell length ●Growth - Stem and branch ---> Total cell number per internode ●Growth - Fruit and seed ---> Seed-setting rate ●Omics - Genetics and breeding ---> Polymorphic sites ●Omics - Genetics and breeding ---> Allelic mutations ●Omics - Genetics and breeding ---> Retrotransposon insertion ●Quality - Yield
SLID-171	Genome-wide expression analysis of reactive oxygen species gene network in Mizuna plants grown in long-term spaceflight	Investigated Organism: Brassica rapa (Mizuna); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Food Category: Vegetable; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Leaf ●Omics - Transcriptomics of stress resistance ---> ROS oxidative marker gene expression ●Omics - Transcriptomics of stress resistance ---> ROS scavenging response
SLID-172	Gravity-regulated localization of PsPIN1 is important for polar auxin transport in etiolated pea seedlings: Relevance to the International Space Station experiment	Investigated Organism: Pisum sativum; Organism Common Name: Pea; Organism Class: Food; Studied Organ/Tissue/Part: Seedling; Food Category: Vegetable; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Component - Plant hormone ---> Auxin ●Component - Plant hormone ---> Auxin transport protein
SLID-173	Spaceflight effects on consecutive generations of peas grown onboard the Russian segment of the International Space Station	Investigated Organism: Pisum sativum; Organism Common Name: Pea; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Seed; Root; Food Category: Vegetable; Growth Stage During Space Flight: Seed to seed;	●n.a.	●n.a.	●Growth - Fruit and seed ---> Pods per plant ●Growth - Fruit and seed ---> Seeds per plant ●Omics - Genetics and breeding ---> Chromosomal aberrations count ●Quality - Yield
SLID-174	Microbiological and Nutritional Analysis of Lettuce Crops Grown on the International Space Station	Investigated Organism: Lactuca sativa; Organism Common Name: Red romaine lettuce; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Root; Food Category: Vegetable; Growth Stage During Space Flight: Seed to mature plant;	●n.a.	●n.a.	●Omics - Microbiota ---> Species composition ●Omics - Microbiota ---> Species diversity ●Component - Mineral elements
SLID-175	Growth regulation mechanisms in higher plants under microgravity conditions - changes in cell wall metabolism	Investigated Organism: Arabidopsis thaliana; Oryza sativa; Organism Common Name: Thale cress; Rice; Organism Class: Model organism; Food; Studied Organ/Tissue/Part: Coleoptile; Hypocotyl; Food Category: Grain; n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Seed germination ---> Coleoptile length ●Growth - Seed germination ---> Hypocotyl length ●Growth - Seed germination ---> Coleoptiles extensibility ●Component - Plant hormone ---> Auxin ●Component - Cell wall ---> Cell wall enzyme activity ●Component - Cell wall ---> Cell wall extensibility ●Component - Cell wall ---> Cell wall polysaccharides
SLID-176	Growth and cell wall changes in rice roots during spaceflight	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Root; Food Category: Grain; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Root ---> Root length ●Growth - Root ---> Root angle ●Component - Cell wall ---> Cell wall polysaccharides ●Component - Cell wall ---> Polysaccharides level
SLID-177	Analysis of cytogenetic damage in rice seeds induced by energetic heavy ions on-ground and after spaceflight	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Root tip; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Root ---> Mitosis index ●Process - DNA damage ---> Micronucleus ●Process - DNA damage ---> Cytogenetic damage
SLID-178	Diversity and Stability Study on Rice Mutants Induced in Space Environment	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Proteome ---> Leaf ●Component - Proteins
SLID-179	Comparison of space flight and heavy ion radiation induced genomic/epigenomic mutations in rice (Oryza sativa)	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Genetics and breeding ---> Polymorphic sites ●Omics - Genetics and breeding ---> Mutation rate ●Omics - Genetics and breeding ---> Mutation heritability ●Omics - Epigenome
SLID-180	Gene expression of rice seeds surviving 13- and 20-month exposure to space environment	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Seed; Root; Shoot; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Dry seeds ●Omics - Transcriptomics ---> Germinated seed ●Omics - Transcriptomics ---> Roots ●Omics - Transcriptomics ---> Shoots ●Omics - Genetics and breeding ---> Mutation rate ●Omics - Genetics and breeding ---> Allelic mutations
SLID-181	Proteomic analysis in different development stages on SP0 generation of rice seeds after space flight	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ---> Germination rate ●Growth - Stem and branch ---> Tiller number ●Process - Stress resistance ---> Reactive oxygen species resistance
SLID-182	Space environment induced mutations prefer to occur at polymorphic sites of rice genomes	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Process - Stress resistance ---> Rice blast resistance ●Omics - Genetics and breeding ---> Polymorphic sites ●Omics - Genetics and breeding ---> Mutation rate
SLID-183	Transcriptomic analyses of space-induced rice mutants with enhanced susceptibility to rice blast	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Process - Stress resistance ---> Susceptibility to rice blast ●Component - Plant hormone ---> Hormone metabolism ●Omics - Transcriptomics ---> Seedling leaf ●Component - Cell wall ---> Cell wall structure ●Environment - Simulated microgravity
SLID-184	Proteomic analysis of high yield rice variety mutated from spaceflight	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Proteome ---> Leaf ●Component - Proteins
SLID-185	Characteristics of phenotype and genetic mutations in rice after spaceflight	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Whole plant; Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Whole plant ---> Plant hight ●Growth - Fruit and seed ---> Spike length ●Growth - Fruit and seed ---> Mature grains per spike ●Growth - Fruit and seed ---> Seed rate ●Omics - Genetics and breeding ---> Mutation rate ●Quality - Yield
SLID-186	A Comparative Study on Mutagenic Effects of Space Flight and Irradiation of γ-rays on Rice	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Seed; Seedling; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ---> Seedling height ●Growth - Fruit and seed ---> Seed fertility
SLID-187	Xylem development and cell wall changes of soybean seedlings grown in space	Investigated Organism: Glycine max; Organism Common Name: Soybean; Organism Class: Food; Herb; Studied Organ/Tissue/Part: Hypocotyl; Cotyledon; Food Category: Grain; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Xylem ---> Cellulose microfibrils ●Growth - Xylem ---> Vessel wall thickness
SLID-188	Growth patterns for etiolated soybeans germinated under spaceflight conditions	Investigated Organism: Glycine max; Organism Common Name: Soybean; Organism Class: Food; Herb; Studied Organ/Tissue/Part: Root; Food Category: Grain; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Growth - Root ---> Primary root length ●Growth - Root ---> Lateral root length ●Component - Plant hormone ---> Ethylene ●Environment - Simulated microgravity
SLID-189	Comparative floral development of Mir-grown and ethylene-treated, earth-grown Super Dwarf wheat	Investigated Organism: Triticum aestivum (Super Dwarf wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Flower; Food Category: Grain; Growth Stage During Space Flight: Seed to mature plant;	●n.a.	●n.a.	●Growth - Whole plant ---> Plant hight ●Growth - Flower ---> Anther morphology ●Growth - Flower ---> Florets per spikelet ●Growth - Flower ---> Pollen produce ●Growth - Stem and branch ---> Tiller number ●Growth - Fruit and seed ---> Awn length ●Growth - Fruit and seed ---> Rachis nodes per spike ●Growth - Fruit and seed ---> Spike length ●Component - Plant hormone ---> Ethylene ●Quality - Yield
SLID-190	Effects of spaceflight and simulated microgravity on cell sub-microstructure and antioxidant enzyme activity in tomato	Investigated Organism: Solanum lycopersicum; Organism Common Name: Tomato; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Fruit; Food Category: Fruit; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Process - Photosynthesis ---> Chloroplasts structure ●Growth - Fruit and seed ---> Fruit bearing rate ●Growth - Fruit and seed ---> Fruit maximum diameter ●Quality - Yield ●Environment - Simulated microgravity
SLID-191	Physical, chemical and biological characteristics of space flown tomato ( Lycopersicum esculentum ) seeds	Investigated Organism: Solanum lycopersicum; Organism Common Name: Tomato; Organism Class: Food; Studied Organ/Tissue/Part: Seed; Whole plant; Food Category: Fruit; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Whole plant ---> Plant hight ●Component - Plant hormone ---> Cytokinin ●Component - Plant hormone ---> Cibberellin ●Component - Plant hormone ---> Auxin ●Component - Carbohydrate ●Component - Mineral elements
SLID-192	The effects of spaceflight on soluble protein, isoperoxidase, and genomic DNA in ural licorice (Glycyrrhiza uralensis fisch.)	Investigated Organism: Glycyrrhiza uralensis; Organism Common Name: Licorice; Organism Class: Herb; Studied Organ/Tissue/Part: Leaf; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Process - Stress resistance ---> Ionizing radiation ●Process - Stress resistance ---> Peroxidase activity ●Component - Proteins ●Environment - Radiation
SLID-193	Transcriptome and proteomic analyses reveal multiple differences associated with chloroplast development in the spaceflight-induced wheat albino mutant mta	Investigated Organism: Triticum aestivum (Wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●Light absorption and electron transfer - Photosynthesis	●n.a.	●Process - Photosynthesis ---> Chloroplast development ●Process - Photosynthesis ---> Chloroplast morphology ●Process - Photosynthesis ---> Chlorophyll content ●Process - Photosynthesis ---> Carotenoid content ●Omics - Transcriptomics ---> Leaf ●Omics - Proteome ---> Leaf
SLID-194	RNAseq analysis reveals pathways and candidate genes associated with salinity tolerance in a spaceflight-induced wheat mutant	Investigated Organism: Triticum aestivum (Wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Shoot; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Shoot ●Process - Stress resistance ---> Salinity stress
SLID-195	Characterization of a Novel Chlorophyll-Deficient Mutant Mt6172 in Wheat	Investigated Organism: Triticum aestivum (Wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Seedling; Leaf; Root; Food Category: Grain; Growth Stage During Space Flight: Seed;	●Light absorption and electron transfer - Photosynthesis	●n.a.	●Growth - Seed germination ---> Seedling height ●Growth - Seed germination ---> Root length ●Growth - Root ---> Root length ●Process - Photosynthesis ---> Chloroplast morphology ●Process - Photosynthesis ---> Electron transport rate ●Process - Photosynthesis ---> Maximum photosystem II
SLID-196	A spaceflight experiment for the study of gravimorphogenesis and hydrotropism in cucumber seedlings	Investigated Organism: Cucumis sativus; Organism Common Name: Cucumber; Organism Class: Food; Studied Organ/Tissue/Part: Root; Food Category: Vegetable; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Root ---> Hydrotropism ●Growth - Root ---> Gravitropism ●Component - Plant hormone ---> Auxin
SLID-197	Gravitropism interferes with hydrotropism via counteracting auxin dynamics in cucumber roots: clinorotation and spaceflight experiments	Investigated Organism: Cucumis sativus; Organism Common Name: Cucumber; Organism Class: Food; Studied Organ/Tissue/Part: Root; Food Category: Vegetable; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Root ---> Hydrotropism ●Growth - Root ---> Gravitropism ●Component - Plant hormone ---> Auxin ●Component - Plant hormone ---> Auxin transport protein
SLID-198	The gravity-induced re-localization of auxin efflux carrier CsPIN1 in cucumber seedlings: spaceflight experiments for immunohistochemical microscopy	Investigated Organism: Cucumis sativus; Organism Common Name: Cucumber; Organism Class: Food; Studied Organ/Tissue/Part: Hypocotyl; Food Category: Vegetable; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Component - Plant hormone ---> Auxin ●Component - Plant hormone ---> Auxin transport protein
SLID-199	Molecular Cytogenetics of Pisum sativum L. Grown under Spaceflight-Related Stress	Investigated Organism: Pisum sativum; Organism Common Name: Pea; Organism Class: Food; Studied Organ/Tissue/Part: Root tip; Food Category: Vegetable; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Genetics and breeding ---> Chromosome structural changes
SLID-200	Spaceflight induces both transient and heritable alterations in DNA methylation and gene expression in rice (Oryza sativa L.)	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Genetics and breeding ---> Transposable elements ●Omics - Epigenome ---> Leaf
SLID-201	The spaceflight environment can induce transpositional activation of multiple endogenous transposable elements in a genotype-dependent manner in rice	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Genetics and breeding ---> Genetic instability ●Omics - Genetics and breeding ---> Transposable elements ●Omics - Transcriptomics ---> Leaf
SLID-202	Spaceflight-induced genetic and epigenetic changes in the rice (Oryza sativa L.) genome are independent of each other	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Genetics and breeding ---> Transposable elements ●Omics - Genetics and breeding ---> Mutation rate ●Omics - Genetics and breeding ---> Heritable epigenetic changes ●Omics - Epigenome ---> Leaf
SLID-203	Rocket Science: The Effect of Spaceflight on Germination Physiology, Ageing, and Transcriptome of Eruca sativa Seeds	Investigated Organism: Eruca vesicaria subsp. sativa; Organism Common Name: Salad rocket; Organism Class: Food; Studied Organ/Tissue/Part: Seed; Food Category: Vegetable; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ---> Seed conductivity ●Growth - Ageing ●Omics - Transcriptomics ---> Seed
SLID-204	Morphological variation of mutant sunflowers (Helianthus annuus) induced by space flight and their genetic background detection by SSR primers	Investigated Organism: Helianthus annuus; Organism Common Name: Sunflower; Organism Class: Garden plant; Food; Studied Organ/Tissue/Part: Leaf; Flower; Seed; Food Category: Oil crop; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Flower ---> Flower color ●Growth - Flower ---> Ligulate petals shape ●Omics - Genetics and breeding ---> Mutation ●Omics - Genetics and breeding ---> Sterile plants
SLID-205	Analysis of the Spaceflight Effects on Growth and Development of Super Dwarf Wheat Grown on the Space Station Mir	Investigated Organism: Triticum aestivum (Super Dwarf wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Flower; Food Category: Grain; Growth Stage During Space Flight: Seed to mature plant;	●n.a.	●n.a.	●Growth - Whole plant ---> Plant biomass ●Growth - Stem and branch ---> Tillers per spikelet ●Growth - Stem and branch ---> Stem length ●Growth - Flower ---> Florets per spikelet ●Growth - Flower ---> Pollination ●Growth - Fruit and seed ---> Spike mass ●Growth - Fruit and seed ---> Awn length ●Growth - Fruit and seed ---> Spikelets per spike ●Growth - Fruit and seed ---> Seeds per spike ●Quality - Yield ●Component - Plant hormone ---> Auxin
SLID-206	Effects of Exposure in Space on Tomato Seeds: Photosynthesis, Biomass, and Water Relations of Well-Watered and Drought-Stressed Plants	Investigated Organism: Solanum lycopersicum; Organism Common Name: Tomato; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Seed; Food Category: Fruit; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Whole plant ---> Plant biomass ●Growth - Fruit and seed ---> Fruit production ●Process - Stress resistance ---> Drought stress ●Process - Stress resistance ---> Water relations ●Quality - Yield ●Process - Photosynthesis
SLID-207	Effect of spaceflight duration of subcellular morphologies and defense enzyme activities in earth-grown tomato seedlings propagated from space-flown seeds	Investigated Organism: Solanum lycopersicum; Organism Common Name: Tomato; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Food Category: Fruit; Growth Stage During Space Flight: Seed;	●Light absorption and electron transfer - Photosynthesis - Chloroplasts	●n.a.	●Process - Stress resistance ---> Defense enzyme activity ●Process - Photosynthesis ---> Chloroplasts structure ●Process - Energy metabolism ---> Mitochondria structure
SLID-208	Effects of a spaceflight environment on heritable changes in wheat gene expression	Investigated Organism: Triticum aestivum (Wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Leaf ●Omics - Genetics and breeding ---> Heritable gene expression changes
SLID-209	Effects of space flight on Xenopus laevis larval development	Investigated Organism: Xenopus laevis; Organism Common Name: African Clawed Frog; Organism Class: Amphibian; Studied Organ/Tissue/Part: Embryos;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Notochord deformity ●Development and Reproduction - Development ---> Muscle fiber density ●Development and Reproduction - Development ---> Smaller lungs ●Development and Reproduction - Development ---> Caudal deformity
SLID-210	Altered gravitational forces affect the development of the static vestibuloocular reflex in fish (Oreochromis mossambicus)	Investigated Organism: Oreochromis mossambicus; Organism Common Name: Mozambique tilapia; Organism Class: Fish; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Morphological development acceleration ●Nervous and regulatory systems - Neuro-sensory function ---> Static vestibuloocular reflex ●Environment - Hypergravity
SLID-211	Effects of microgravity on the larval development, metamorphosis and reproduction of the urodele amphibian Pleurodeles waltl	Investigated Organism: Pleurodeles waltl; Organism Common Name: Newt; Organism Class: Amphibian; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Metamorphosis ●Development and Reproduction - Development ---> Fertilization ●Development and Reproduction - Development ---> Embryonic development
SLID-212	Fertilization of frog eggs on a sounding rocket in space	Investigated Organism: Xenopus laevis; Organism Common Name: African Clawed Frog; Organism Class: Amphibian; Studied Organ/Tissue/Part: Egg;	●n.a.	●n.a.	●Development and Reproduction - Reproduction ---> Fertilization ●Development and Reproduction - Reproduction ---> Egg surface structures
SLID-213	Embryogenesis and organogenesis of Carausius morosus under spaceflight conditions	Investigated Organism: Carausius morosus; Organism Common Name: Indian stick insect; Organism Class: Arthropod; Studied Organ/Tissue/Part: Egg;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Embryogenesis ●Development and Reproduction - Development ---> Organogenesis ●Development and Reproduction - Development ---> Hatching rates ●Development and Reproduction - Development ---> Growth kinetics ●Development and Reproduction - Development ---> Anomaly frequencies ●Environment - Radiation
SLID-214	Space flight experiment on chinese silkworm on board the russian 10th biosatellite	Investigated Organism: Bombyx mori; Organism Common Name: Chinese silkworm; Organism Class: Arthropod; Studied Organ/Tissue/Part: Pupae; Egg; Cocoons; Larvae; Moths;	●n.a.	●Aging	●Development and Reproduction - Reproduction ---> Oviposition ●Development and Reproduction - Reproduction ---> Hatching ●Omics - DNA damage ---> Mutation
SLID-215	Development and swimming behavior of Medaka fry in a spaceflight aboard the Space Shuttle Columbia (STS-107)	Investigated Organism: Oryzias latipes; Organism Common Name: Medaka fish; Organism Class: Fish; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Nervous and regulatory systems - Behavior ---> Swimming behavior ●Nervous and regulatory systems - Behavior ---> Posture control ●Nervous and regulatory systems - Neuromotor control
SLID-216	Tardigrades survive exposure to space in low Earth orbit	Investigated Organism: Richtersius coronifer; Organism Common Name: Water bear; Organism Class: Tardigrada; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Other profiles - Survive ●Environment - Vacuum ●Environment - Radiation
SLID-217	Biochemical and Molecular Biological Analyses of space-flown nematodes in Japan, the First International Caenorhabditis elegans Experiment (ICE-First)	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Muscle; Germ cell;	●n.a.	●n.a.	●Development and Reproduction - Reproduction ---> Meiotic chromosomal dynamics ●Development and Reproduction - Development ---> Muscle cell development ●Other profiles - Cell physiology ---> Apoptosis ●Other profiles - Cell physiology ---> Protein aggregation
SLID-218	Tardigrade Resistance to Space Effects: first results of experiments on the LIFE-TARSE mission on FOTON-M3 (September 2007)	Investigated Organism: Macrobiotus richtersi; Organism Common Name: Water bear; Organism Class: Tardigrada; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Other profiles - Survive ●Omics - DNA damage ---> DNA integrity ●Development and Reproduction - Reproduction ---> Oviposition
SLID-219	Innate immune responses of Drosophila melanogaster are altered by spaceflight	Investigated Organism: Drosophila melanogaster; Organism Common Name: Fruit fly; Organism Class: Arthropod; Studied Organ/Tissue/Part: Whole animal; Hemocytes;	●n.a.	●n.a.	●Cardiovascular and Immune System - Immune function ---> Plasmatocyte number ●Cardiovascular and Immune System - Immune function ---> Plasmatocyte activity ●Cardiovascular and Immune System - Immune function ---> Bacterial clearance ●Omics - Transcriptome
SLID-220	Effect of spaceflight on the circadian rhythm, lifespan and gene expression of Drosophila melanogaster	Investigated Organism: Drosophila melanogaster; Organism Common Name: Fruit fly; Organism Class: Arthropod; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●Aging	●Cardiovascular and Immune System - Circadian rhythm ---> Circadian clock ●Nervous and regulatory systems - Behavior ---> Locomotor activity ●Nervous and regulatory systems - Behavior ---> Sleep pattern ●Omics - Transcriptome
SLID-221	The Development Of Drosophila Melanogaster under Different Duration Space Flight and Subsequent Adaptation to Earth Gravity	Investigated Organism: Drosophila melanogaster; Organism Common Name: Fruit fly; Organism Class: Arthropod; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Morphogenesis ●Development and Reproduction - Development ---> Cell differentiation ●Other profiles - Cell physiology ---> Cytoskeletal organization
SLID-222	Individual features of play behavior in thick-toed geckos in weightlessness and normal gravity conditions	Investigated Organism: Chondrodactylus turneri; Studied Organism Strains: Chondrodactylus turneri GRAY, 1864; Organism Common Name: Thick-toed gecko; Organism Class: Reptile; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Nervous and regulatory systems - Behavior ---> Play behavior
SLID-223	Targeting myostatin/activin A protects against skeletal muscle and bone loss during spaceflight	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6N; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone; Muscle; Blood;	●n.a.	●Bone loss ●Muscle atrophy	●Musculoskeletal system - Bone properties ---> Bone homeostasis ●Musculoskeletal system - Muscle properties ---> Muscle mass ●Musculoskeletal system - Muscle properties ---> Muscle homeostasis ●Omics - Transcriptome ---> Bone ●Omics - Transcriptome ---> Muscle ●Omics - Proteome ---> Blood
SLID-224	Object play in thick-toed geckos during a space experiment	Investigated Organism: Chondrodactylus turneri; Studied Organism Strains: Chondrodactylus turneri GRAY, 1864; Organism Common Name: Thick-toed gecko; Organism Class: Reptile; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Nervous and regulatory systems - Behavior ---> Play behavior
SLID-225	Fish Inner Ear Otolith Growth Under Real Microgravity (Spaceflight) and Clinorotation	Investigated Organism: Oreochromis mossambicus; Organism Common Name: Mozambique tilapia; Organism Class: Fish; Studied Organ/Tissue/Part: Vestibular organs; Whole animal;	●Inertial forces - Otolith system	●n.a.	●Development and Reproduction - Development ---> Otoliths biomineralization ●Nervous and regulatory systems - Behavior ---> Swimming behavior ●Nervous and regulatory systems - Neuromotor control ●Environment - Simulated microgravity
SLID-226	Spaceflight results in increase of thick filament but not thin filament proteins in the paramyosin mutant of Caenorhabditis elegans	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Muscle;	●n.a.	●n.a.	●Musculoskeletal system - Muscle properties ---> Mutant ●Musculoskeletal system - Muscle properties ---> Muscle proteins ●Musculoskeletal system - Muscle properties ---> Muscle fiber size ●Musculoskeletal system - Muscle properties ---> Function compensate
SLID-227	Development of mouse preimplantation embryos in space	Investigated Organism: Mus musculus; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Embryos;	●n.a.	●Development impairment	●Development and Reproduction - Development ---> Blastocyst quality ●Development and Reproduction - Development ---> Blastocyst formation ●Omics - DNA damage ●Omics - Epigenome ---> Embryos
SLID-228	Extreme stress tolerance in tardigrades: surviving space conditions in low earth orbit	Investigated Organism: Richtersius coronifer; Organism Common Name: Water bear; Organism Class: Tardigrada; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Environment - Radiation ●Environment - Vacuum ●Other profiles - Survive ---> Anhydrobiosis
SLID-229	Spider Web-Building in Outer Space: Evaluation of Records from the Skylab Spider Experiment	Investigated Organism: Araneus diadematus; Organism Common Name: European garden spider; Organism Class: Arthropod; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Nervous and regulatory systems - Behavior ---> Web-building
SLID-230	Nematode Muscles Project in Spaceflight Experiment	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Muscle;	●n.a.	●n.a.	●Musculoskeletal system - Muscle properties ---> Muscle protein ●Musculoskeletal system - Muscle properties ---> Mitochondrial network
SLID-231	Influence of long-term altered gravity on the swimming performance of developing cichlid fish: Including results from the 2nd German Spacelab Mission D-2	Investigated Organism: Oreochromis mossambicus; Organism Common Name: Mozambique tilapia; Organism Class: Fish; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Development and Reproduction - Development ●Nervous and regulatory systems - Behavior ---> Somersaulting ●Nervous and regulatory systems - Behavior ---> Looping ●Nervous and regulatory systems - Behavior ---> Disorientated movements ●Nervous and regulatory systems - Behavior ---> Escape reaction ●Nervous and regulatory systems - Neuro-sensory function ---> Vestibular adaptation
SLID-232	Effect of 12-Day Spaceflight on Brain of Thick-Toed Geckos	Investigated Organism: Chondrodactylus turneri; Organism Common Name: Thick-toed gecko; Organism Class: Reptile; Studied Organ/Tissue/Part: Brain;	●n.a.	●n.a.	●Other profiles - Cell physiology ---> Cellular protein expression
SLID-233	Effect of potassium citrate therapy on the risk of renal stone formation during spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Urine;	●n.a.	●Renal stone	●Digestive and Excretory System - Excretory function ---> Renal stone formation ●Digestive and Excretory System - Excretory function ---> Uric acid supersaturation ●Other profiles - Medication use ---> Potassium citrate therapy
SLID-234	The State of the Digestive Organs during Long Spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Multiple organs;	●n.a.	●n.a.	●Other profiles - Organ morphology ---> Parenchymatous organ size ●Other profiles - Organ morphology ---> Parenchymatous organ echogenicity ●Other profiles - Organ morphology ---> Hollow organ wall
SLID-235	Stability of chromosome aberrations in the blood lymphocytes of astronauts measured after space flight by FISH chromosome painting	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Radiation damage	●Omics - DNA damage ---> Chromosome aberrations
SLID-236	Biochemical Markers of Bone Tissue Metabolism in Cosmonauts after a Prolonged Spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Bone loss	●Cardiovascular and Immune System - Blood components ---> Ionized calcium ●Cardiovascular and Immune System - Blood components ---> Parathyroid hormone ●Cardiovascular and Immune System - Blood components ---> Calcitonin ●Cardiovascular and Immune System - Blood components ---> Calcium homeostasis ●Nervous and regulatory systems - Endocrine function ---> Hormonal regulation
SLID-237	Prevalence of sleep deficiency and use of hypnotic drugs in astronauts before, during, and after spaceflight: an observational study	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Sleeplessness	●Nervous and regulatory systems - Sleep ---> Nervous and regulatory systems - Sleep deficiency ●Other profiles - Medication use ---> Hypnotic drug
SLID-238	Brain structural plasticity with spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Brain;	●Fluid dynamics - Hemodynamics	●Brain damage	●Nervous and regulatory systems - Brain structure ---> Gray matter volume ●Nervous and regulatory systems - Brain structure ---> White matter volume
SLID-239	Gene-metabolite profile integration to understand the cause of spaceflight induced immunodeficiency	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Endothelial cells;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Immunodeficiency
SLID-240	High intensity training during spaceflight: results from the NASA Sprint Study	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior; Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone mineral density ●Other profiles - Medication use ---> Exercise
SLID-241	Quantitative magnetic resonance image assessment of the optic nerve and surrounding sheath after spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●Fluid dynamics - Hemodynamics	●Neuro-ocular syndrome	●Nervous and regulatory systems - Neuro-sensory function ---> Optic nerve deviation ●Nervous and regulatory systems - Neuro-sensory function ---> Optic nerve sheath cross-sectional areas
SLID-242	Vestibulo-oculomotor testing during the course of a spaceflight mission	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vestibular system; Behavior;	●Inertial forces - Otolith system	●Neurovestibular decline	●Nervous and regulatory systems - Neuro-sensory function ---> Vestibulo-oculomotor response
SLID-243	Vestibular plasticity following orbital spaceflight: recovery from postflight postural instability	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior; Vestibular system;	●n.a.	●Sensorimotor decline	●Nervous and regulatory systems - Neuro-sensory function ---> Vestibular plasticity ●Nervous and regulatory systems - Neuro-sensory function ---> Sensory organization ●Nervous and regulatory systems - Neuromotor control ---> Sensori-motor postural control
SLID-244	Impairments of manual tracking performance during spaceflight are associated with specific effects of microgravity on visuomotor transformations	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Sensorimotor decline	●Nervous and regulatory systems - Neuromotor control ---> Manual tracking performance ●Nervous and regulatory systems - Neuromotor control ---> Visuomotor transformations
SLID-245	Hematopoietic stem cells and lineage cells undergo dynamic alterations under microgravity and recovery conditions	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Blood lineage cells population ●Cardiovascular and Immune System - Immune function ---> Hematopoietic stem cell differentiation
SLID-246	Persistent Globe Flattening in Astronauts following Long-Duration Spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Eye;	●Fluid dynamics - Hemodynamics	●Visual impairment	●Nervous and regulatory systems - Eye properties ---> Scleral remodelling ●Nervous and regulatory systems - Eye properties ---> Globe flattening
SLID-247	Resilient microorganisms in dust samples of the International Space Station-survival of the adaptation specialists	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Microbiota; Microbe Form: Spacecraft sample;	●n.a.	●Antibiotic resistance	●Omics - Microbiome ---> International space station dust sample ●Stress resistance - Heat shock resistance ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-248	Effect of space flight factors on alfalfa seeds	Investigated Organism: Medicago sativa; Organism Common Name: Alfalfa; Organism Class: Garden plant; Studied Organ/Tissue/Part: Seed; Root; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ---> Germination potential ●Growth - Seed germination ---> Germination index ●Growth - Seed germination ---> Hard seeds percentage ●Growth - Seed germination ---> Mitosis index ●Growth - Seed germination ---> Abnormal cotyledon percentage) Growth - Stem and branch ●Growth - Root ---> Root length ●Omics - Genetics and breeding ---> Chromosome aberration rate ●Quality - Yield
SLID-249	Gravitropism of hypocotyls of wild-type and starch-deficient Arabidopsis seedlings in spaceflight studies	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seed; Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Seed germination ---> Germination rate ●Growth - Seed germination ---> Seedling length ●Growth - Seed germination ---> Hypocotyl hook morphology ●Growth - Root ---> Gravitropis ●Component - Plant hormone ---> Ethylene ●Environment - Simulated microgravity
SLID-250	An endogenous growth pattern of roots is revealed in seedlings grown in microgravity	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Seed germination ---> Germination rate ●Growth - Seed germination ---> Seedling length ●Growth - Root ---> Root angle ●Growth - Root ---> Adventitious roots ●Growth - Root ---> Gravitropism
SLID-251	Phototropism of Arabidopsis thaliana in microgravity and fractional gravity on the International Space Station	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Hypocotyl; Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Root ---> Roots curvature ●Growth - Root ---> Gravitropism ●Process - Phototropism ---> Phytochrome mutants ●Process - Phototropism ---> Red light ●Process - Phototropism ---> Blue light
SLID-252	Plant growth strategies are remodeled by spaceflight	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Seed germination ---> Hypocotyl length ●Growth - Root ---> Root length ●Growth - Root ---> Root deviation ●Growth - Root ---> Gravitropism
SLID-253	Transcriptome analyses of Arabidopsis thaliana seedlings grown in space: implications for gravity-responsive genes	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Omics - Transcriptomics ---> Seedling ●Growth - Root ---> Gravitropism ●Environment - Artificial gravity
SLID-254	Transcriptional response of Arabidopsis seedlings during spaceflight reveals peroxidase and cell wall remodeling genes associated with root hair development	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Process - Stress resistance ---> Oxidative stress ●Growth - Root ---> Root hair length ●Component - Cell wall ---> Cell wall remodeling
SLID-255	Morphometric analyses of petioles of seedlings grown in a spaceflight experiment	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Growth - Seed germination ---> Germination rate ●Growth - Seed germination ---> Seedling length ●Growth - Seed germination ---> Cell plastids
SLID-256	Comparative transcriptomics indicate changes in cell wall organization and stress response in seedlings during spaceflight	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Shoot; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Process - Stress resistance ---> Hypoxia responses ●Process - Stress resistance ---> Heat shock response ●Process - Stress resistance ---> DNA repair ●Component - Cell wall ---> Cell wall structure ●Component - Cell wall ---> Cell wall components ●Component - Cell wall ---> Glycome profiling ●Omics - Transcriptomics ---> Shoot
SLID-257	The combined effects of real or simulated microgravity and red-light photoactivation on plant root meristematic cells	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Process - Photoactivation ---> Cell growth and proliferation ●Process - Photoactivation ---> Red light ●Environment - Simulated microgravity
SLID-258	Single-base resolution methylome analysis shows epigenetic changes in Arabidopsis seedlings exposed to microgravity spaceflight conditions on board the SJ-10 recoverable satellite	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Growth - Leaf ---> Leaf sizes ●Omics - Epigenome ---> Leaf
SLID-259	Comparing RNA-Seq and microarray gene expression data in two zones of the Arabidopsis root apex relevant to spaceflight	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Root tip; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Root
SLID-260	Variation in the transcriptome of different ecotypes of Arabidopsis thaliana reveals signatures of oxidative stress in plant responses to spaceflight	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Process - Stress resistance ---> Oxidative stress ●Process - Stress resistance ---> Hypoxia responses ●Process - Stress resistance ---> H2O2 and hypoxic treatment ●Omics - Transcriptomics ---> RNA seq
SLID-261	Epigenomics in an extraterrestrial environment: organ-specific alteration of DNA methylation and gene expression elicited by spaceflight in Arabidopsis thaliana	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Transcriptomics of stress resistance ---> Spaceflight adaptation ●Omics - Epigenome ---> Seedling ●Omics - Transcriptomics ---> Seedling
SLID-262	Spaceflight-induced alternative splicing during seedling development in Arabidopsis thaliana	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Seedling ●Omics - Transcriptomics ---> Alternative splicing
SLID-263	Root Skewing-Associated Genes Impact the Spaceflight Response of Arabidopsis thaliana	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Transcriptomics of stress resistance ---> Spaceflight adaptation ●Growth - Root ---> Root length ●Growth - Root ---> Root angle ●Growth - Root ---> Root skewing
SLID-264	Spaceflight induces novel regulatory responses in Arabidopsis seedling as revealed by combined proteomic and transcriptomic analyses	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Proteome ---> Seedling ●Omics - Proteome ---> Protein phosphorylation ●Omics - Transcriptomics ---> Seedling ●Omics - Transcriptomics ---> Alternative splicing
SLID-265	Arabidopsis gene expression patterns are altered during spaceflight	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Transcriptomics of stress resistance ---> Heat shock response ●Omics - Transcriptomics ---> Seedling
SLID-266	Operations of a spaceflight experiment to investigate plant tropisms	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Seed germination ---> Hypocotyls angle ●Growth - Seed germination ---> Gravitropism ●Growth - Seed germination ---> Phototropism
SLID-267	Assessment of genetic diversity and variation of Robinia pseudoacacia seeds induced by short-term spaceflight based on two molecular marker systems and morphological traits	Investigated Organism: Robinia pseudoacacia; Organism Common Name: Black locust; Organism Class: Garden plant; Studied Organ/Tissue/Part: Whole plant; Leaf; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Stem and branch ---> Basal diameter ●Growth - Stem and branch ---> Branch number ●Growth - Stem and branch ---> Branch stipular thorn length ●Growth - Stem and branch ---> Branch stipular thorn middle width ●Growth - Leaf ---> Leaflet vertex angle ●Growth - Leaf ---> Tippy leaf vertex angle ●Omics - Genetics and breeding ---> Genetic diversity ●Omics - Genetics and breeding ---> Polymorphic sites
SLID-268	Gravity independence of seed-to-seed cycling in Brassica rapa	Investigated Organism: Brassica rapa (Brassica); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Cotyledon; Food Category: Vegetable; Oil crop; Growth Stage During Space Flight: Seed to seed;	●n.a.	●n.a.	●Growth - Whole plant ---> Plant hight ●Growth - Fruit and seed ---> Buds per plant ●Growth - Fruit and seed ---> Silique length ●Growth - Fruit and seed ---> Seed weight ●Growth - Fruit and seed ---> Embryo morphology ●Component - Glucosinolate ●Quality - Yield
SLID-269	Influence of microgravity on ultrastructure and storage reserves in seeds of Brassica rapa L	Investigated Organism: Brassica rapa (Brassica); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Seed; Cotyledon; Food Category: Vegetable; Oil crop; Growth Stage During Space Flight: Seed to seed;	●n.a.	●n.a.	●Growth - Fruit and seed ---> Seed weight ●Growth - Fruit and seed ---> Embryo morphology ●Growth - Fruit and seed ---> Seed size ●Component - Storage reserves ---> Protein bodies ●Component - Storage reserves ---> Starch
SLID-270	Analysis of influences of spaceflight on chemical constituents in licorice by HPLC–ESI-MS/MS	Investigated Organism: Glycyrrhiza uralensis; Organism Common Name: Licorice; Organism Class: Food; Herb; Studied Organ/Tissue/Part: Seed; Root; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ---> Hard seeds percentage ●Growth - Seed germination ---> Germinate power ●Component - Active ingredients ---> Liquiritin contents ●Component - Active ingredients ---> Glycyrrhizic acid contents ●Growth - Root ---> Root mass ●Growth - Root ---> Root length ●Quality - Yield
SLID-271	Spaceflight environment-induced variation in root yield and active constituents of Salvia miltiorrhiza	Investigated Organism: Salvia miltiorrhiza; Organism Common Name: Red sage; Organism Class: Herb; Studied Organ/Tissue/Part: Root; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Root ---> Root mass ●Component - Active ingredients ---> Tanshinone contents ●Component - Active ingredients ---> Phenolic acid contents ●Quality - Yield
SLID-272	Seed Storage Reserves and Glucosinolates in Brassica rapa L. Grown on the International Space Station	Investigated Organism: Brassica rapa (Brassica); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Silique; Leaf; Food Category: Vegetable; Oil crop; Growth Stage During Space Flight: Seed to seed;	●n.a.	●n.a.	●Growth - Fruit and seed ---> Silique length ●Growth - Fruit and seed ---> Seeds per silique ●Component - Storage reserves ---> Starch ●Component - Storage reserves ---> Soluble carbohydrate ●Component - Storage reserves ---> Glucose equivalents ●Process - Phototropism ---> Chlorophyll content ●Component - Glucosinolate ●Quality - Yield
SLID-273	Transcriptome Analysis of Oryza sativa Calli Under Microgravity	Investigated Organism: Oryza sativa; Organism Common Name: Rice; Organism Class: Food; Model organism; Studied Organ/Tissue/Part: Calli; Food Category: Grain; Growth Stage During Space Flight: Tissue culture;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Calli ●Environment - Simulated microgravity
SLID-274	Plant reproduction during spaceflight: importance of the gaseous environment	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seed; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ---> Germination rate ●Process - Phototropism ---> Chloroplast morphology ●Process - Phototropism ---> Chloroplast DNA ●Process - Stress resistance ---> UV radiation ●Process - Stress resistance ---> DNA damage) ●Process - Stress resistance ---> Environment - Radiation
SLID-275	Seed-to-seed-to-seed growth and development of Arabidopsis in microgravity	Investigated Organism: Arabidopsis thaliana; Organism Common Name: thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Whole plant; Seed; Food Category: ; Growth Stage During Space Flight: Seed to seed to seed;	●n.a.	●n.a.	●Growth - Stem and branch ---> Branch angles ●Growth - Fruit and seed ---> Silique angles ●Component - Storage reserves ---> Seed protein bodies ●Component - Storage reserves ---> Seed protein contents
SLID-276	Survival and DNA Damage in Plant Seeds Exposed for 558 and 682 Days outside the International Space Station	Investigated Organism: Nicotiana tabacum; Arabidopsis thaliana; Organism Common Name: Tobacco; Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Leaf; Flower; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ---> Germination rate ●Process - Phototropism ---> Chloroplast morphology ●Process - Phototropism ---> Chloroplast DNA ●Process - Stress resistance ---> UV radiation ●Process - Stress resistance ---> DNA damage) ●Process - Stress resistance ---> Environment - Radiation
SLID-277	A crinkly leaf and delay flowering mutant of tobacco obtained from recoverable satellite-flown seeds	Investigated Organism: Nicotiana tabacum; Organism Common Name: Tobacco; Organism Class: Model organism; Studied Organ/Tissue/Part: Root; Root tip; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Growth - Flower ---> Flowering ●Growth - Leaf ---> Crinkly leaf ●Omics - Genetics and breeding ---> Polymorphic sites ●Omics - Genetics and breeding ---> Mutation
SLID-278	Early Root Cap Development and Graviresponse in White Clover (Trifolium repens) Grown in Space and on a Two-Axis Clinostat	Investigated Organism: Trifolium repens; Organism Common Name: White clover; Organism Class: Garden plant; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Growth - Seed germination ---> Germination rate ●Growth - Root ---> Root length ●Growth - Root ---> Root angle ●Growth - Root ---> Cap cell stories ●Growth - Root ---> Columella cell height ●Growth - Root ---> Columella cell width ●Growth - Root ---> Gravitropism ●Component - Storage reserves ---> Protein bodies ●Component - Storage reserves ---> Starch ●Component - Storage reserves ---> Amyloplast frequency ●Component - Storage reserves ---> Amyloplast distal asymmetry ●Environment - Simulated microgravity
SLID-279	Microgravity induces changes in microsome-associated proteins of Arabidopsis seedlings grown on board the international space station	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Proteome ---> Microsome-associated protein ●Environment - Artificial gravity
SLID-280	Spaceflight induces specific alterations in the proteomes of Arabidopsis	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Root; Leaf; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Omics - Proteome ---> Leaf ●Omics - Proteome ---> Root
SLID-281	Microsome-associated proteome modifications of Arabidopsis seedlings grown on board the International Space Station reveal the possible effect on plants of space stresses other than microgravity	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Omics - Proteome ---> Microsome-associated protein ●Environment - Artificial gravity
SLID-282	A novel blue-light phototropic response is revealed in roots of Arabidopsis thaliana in microgravity	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Root tip; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Process - Phototropism ---> Blue light ●Process - Phototropism ---> Red light ●Growth - Root ---> Gravitropism
SLID-283	Genetic dissection of the Arabidopsis spaceflight transcriptome: Are some responses dispensable for the physiological adaptation of plants to spaceflight?	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Root; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●Gravitational pull - Gravitropism	●n.a.	●Omics - Transcriptomics ---> Root ●Omics - Transcriptomics of stress resistance ---> Spaceflight adaptation ●Omics - Genetics and breeding ---> Mutant ●Omics - Genetics and breeding ---> Genetic manipulation
SLID-284	The effect of spaceflight on the gravity-sensing auxin gradient of roots: GFP reporter gene microscopy on orbit	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Food Category: n.a.; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Growth - Root ---> Gravitropism ●Component - Plant hormone ---> Auxin ●Component - Plant hormone ---> Cytokinin
SLID-285	RNAseq Analysis of the Response of Arabidopsis thaliana to Fractional Gravity Under Blue-Light Stimulation During Spaceflight	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Leaf; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Seedling ●Environment - Fractional gravity
SLID-286	Physiological, transcriptional, and metabolic alterations in spaceflight-subjected Senna obtusifolia	Investigated Organism: Senna obtusifolia; Organism Common Name: Sicklepod; Organism Class: Herb; Studied Organ/Tissue/Part: Seed; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Component - Secondary metabolites ●Quality - Yield ---> Seed yield ●Omics - Transcriptomics of stress resistance ---> Antioxidant gene expression
SLID-287	Survival of plant seeds, their UV screens, and nptII DNA for 18 months outside the International Space Station	Investigated Organism: Nicotiana tabacum; Arabidopsis thaliana; Organism Common Name: Tobacco; Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seed; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ●Process - DNA damage ---> DNA integrity
SLID-288	Caenorhabditis elegans survives atmospheric breakup of STS-107, space shuttle Columbia	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Other profiles - Survive
SLID-289	Genomic response of the nematode Caenorhabditis elegans to spaceflight	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Omics - Transcriptome ---> Whole animal
SLID-290	Genes down-regulated in spaceflight are involved in the control of longevity in Caenorhabditis elegans	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●Aging	●Other profiles - Cell physiology ---> Polyglutamine aggregates
SLID-291	Reproductive and locomotory capacities of Caenorhabditis elegans were not affected by simulated variable gravities and spaceflight during the Shenzhou-8 mission	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Development and Reproduction - Reproduction ---> Brood size ●Nervous and regulatory systems - Behavior ---> Locomotory behavior ●Environment - Hypergravity ●Environment - Simulated microgravity
SLID-292	The DNA damage response of C. elegans affected by gravity sensing and radiosensitivity during the Shenzhou-8 spaceflight	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●n.a.	●Omics - DNA damage ---> Gravity sensing ●Omics - DNA damage ---> Radiosensitivity ●Omics - Transcriptome
SLID-293	Microgravity elicits reproducible alterations in cytoskeletal and metabolic gene and protein expression in space-flown Caenorhabditis elegans	Investigated Organism: Caenorhabditis elegans; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●Muscle atrophy	●Omics - Transcriptome ---> Whole animal ●Omics - Metabolome ---> Whole animal ●Nervous and regulatory systems - Behavior ---> Altered movement
SLID-294	Comparative Studies of the Thick-Toed Geckos after the 16 and 12 Days Spaceflight in Foton-M Experiments	Investigated Organism: Chondrodactylus turneri; Organism Common Name: Thick-toed gecko; Organism Class: Reptile; Studied Organ/Tissue/Part: Whole animal; Brain; Heart; Liver; Pancreas; Spleen; Small intestine;	●n.a.	●n.a.	●Other profiles - Organ morphology ---> Brain ●Other profiles - Organ morphology ---> Heart ●Other profiles - Organ morphology ---> Liver ●Other profiles - Organ morphology ---> Pancreas ●Other profiles - Organ morphology ---> Spleen ●Other profiles - Organ morphology ---> Small intestine ●Nervous and regulatory systems - Behavior ---> Video record
SLID-295	Recovery from 6-month spaceflight at the International Space Station: muscle-related stress into a proinflammatory setting	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Muscle; Blood;	●n.a.	●Stress ●Immune system dysregulation	●Nervous and regulatory systems - Stress analysis ---> Stress response ●Cardiovascular and Immune System - Immune function ---> Inflammatory ●Musculoskeletal system - Muscle properties ---> Muscle protein
SLID-296	Effects of spaceflight on the composition and function of the human gut microbiota	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Microbiota;	●n.a.	●Pathogen virulence ●Gastrointestinal homeostasis ●Pathogen antibiotic resistance	●Omics - Microbiome ---> Gut
SLID-297	The influence of spaceflight on the astronaut salivary microbiome and the search for a microbiome biomarker for viral reactivation	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Saliva; Microbiota;	●n.a.	●Latent viral reactivation	●Omics - Microbiome ●Cardiovascular and Immune System - Immune function ---> Latent viral reactivation
SLID-298	The effects of spaceflight on open-loop and closed-loop postural control mechanisms: human neurovestibular studies on SLS-2	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Neurovestibular decline ●Sensorimotor decline	●Nervous and regulatory systems - Neuromotor control ---> Postural control ●Nervous and regulatory systems - Neuro-sensory function ---> Proprioception
SLID-299	Filamentous fungi exposed to spaceflight stresses including known levels of ultraviolet irradiations	Investigated Organism: Trichophyton terrestre; Chaetomium globosum; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Environmental microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Morphology - Mycelium ---> Hyphal growth dynamics ●Environment - Radiation
SLID-300	The effects of space flight on the production of monorden by Humicola fuscoatra WC5157 in solid-state fermentation	Investigated Organism: Humicola fuscoatra; Studied Organism Strains: WC5157; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Industrial microorganism; Plant pathogen; Microbe Form: Active organism;	●n.a.	●Antifungal resistance	●Metabolite production - Potential drug ---> Monorden ●Metabolite production - pharmaceutical metabolite ---> Antibiotic drug production
SLID-301	Chromosome mechanics of fungi under spaceflight conditions--tetrad analysis of two-factor crosses between spore color mutants of Sordaria macrospora	Investigated Organism: Sordaria macrospora; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Model organism; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ---> Chromosome mechanics ●Omics - Genome ---> Gene recombination ●Omics - Genome ---> DNA strand break ●Morphology - Spore color
SLID-302	Analysis of deletion mutations of the rpsL gene in the yeast Saccharomyces cerevisiae detected after long-term flight on the Russian space station Mir	Investigated Organism: Saccharomyces cerevisiae; Organism Common Name: Baker's yeast; Organism Class: Organism Category: Fungus; Microbe Type: Model organism; Industrial microorganism; Microbe Form: Spores;	●n.a.	●n.a.	●Omics - Genome ---> Mutation spectrum
SLID-303	The effect of space flight on the production of actinomycin D by Streptomyces plicatus	Investigated Organism: Streptomyces plicatus; Studied Organism Strains: WC56452; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Industrial microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Colony-forming ●Cell behavior - Survival and growth ---> Sporulation ●Metabolite production - pharmaceutical metabolite ---> Antibiotic drug production ●Metabolite production - Drug ---> Actinomycin D
SLID-304	Effects of space flight, clinorotation, and centrifugation on the substrate utilization efficiency of E. coli	Investigated Organism: Escherichia coli; Studied Organism Strains: ATCC 4157; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Normal flora of Human; Model organism; Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Growth rate ●Cell behavior - Survival and growth ---> Substrate utilization efficiency ●Environment - Simulated microgravity ●Environment - Hypergravity
SLID-305	Microbial antibiotic production aboard the International Space Station	Investigated Organism: Streptomyces plicatus; Studied Organism Strains: WC56452; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Industrial microorganism; Microbe Form: Spores; Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Cell viability ●Morphology - Cell volume ●Metabolite production - pharmaceutical metabolite ---> Antibiotic drug production ●Metabolite production - Drug ---> Actinomycin D
SLID-306	Preliminary report on the biological effects of space flight on the producing strain of a new immunosuppressant, Kanglemycin C	Investigated Organism: Nocardia mediterranei var. kanglensis 1747-64; Studied Organism Strains: kanglensis 1747-64; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Environmental microorganism; Microbe Form: Spores;	●n.a.	●n.a.	●Morphology - Mycelium ---> Mycelium shape ●Morphology - Broth color ●Metabolite production - Drug ---> Kanglemycin C ●Metabolite production - pharmaceutical metabolite ---> Immunosuppressant drug production
SLID-307	Space flight alters bacterial gene expression and virulence and reveals a role for global regulator Hfq	Investigated Organism: Salmonella typhimurium; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation ●Polymer network-Biofilm ---> Proteomic	●Virulence	●Omics - Transcriptome ●Omics - Proteome ●Morphology - Biofilm
SLID-308	Mold species in dust from the International Space Station identified and quantified by mold-specific quantitative PCR	Investigated Organism: Molds; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Environmental microorganism; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-309	Effects of spaceflight on polysaccharides of Saccharomyces cerevisiae cell wall	Investigated Organism: Saccharomyces cerevisiae; Studied Organism Strains: FL01,FL03,2.0016,2.1424; Organism Common Name: Baker's yeast; Organism Class: Organism Category: Fungus; Microbe Type: Industrial microorganism; Model organism; Microbe Form: Freeze-dried organism;	●n.a.	●n.a.	●Morphology - Cell wall ---> Cell wall thickness ●Morphology - Cell wall ---> Cell wall component
SLID-310	Media ion composition controls regulatory and virulence response of Salmonella in spaceflight	Investigated Organism: Salmonella typhimurium; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●n.a.	●Virulence	●Environment - Medium nutritional condition ---> Ion composition ●Omics - Transcriptome ●Omics - Proteome ●Other profiles - Molecular pathway
SLID-311	Isolation of rpoB mutations causing rifampicin resistance in Bacillus subtilis spores exposed to simulated Martian surface conditions	Investigated Organism: Bacillus subtilis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Plant probiotic; Microbe Form: Spores;	●n.a.	●Antibiotic resistance	●Environment - Simulated martian conditions ●Omics - Genome ---> Mutation ●Cell behavior - Survival and growth
SLID-312	Response of Pseudomonas aeruginosa PAO1 to low shear modelled microgravity involves AlgU regulation	Investigated Organism: Pseudomonas aeruginosa; Studied Organism Strains: PAO1; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Environment - Simulated microgravity ●Omics - Transcriptome ●Stress resistance - Oxidative stress resistance ●Stress resistance - Heat shock resistance ●Metabolite production - Biomaterial ---> Alginate
SLID-313	Transcriptional and proteomic responses of Pseudomonas aeruginosa PAO1 to spaceflight conditions involve Hfq regulation and reveal a role for oxygen	Investigated Organism: Pseudomonas aeruginosa; Studied Organism Strains: PAO1; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●Virulence	●Omics - Transcriptome ●Omics - Proteome
SLID-314	Enhanced S-adenosyl-l-methionine production in Saccharomyces cerevisiae by spaceflight culture, overexpressing methionine adenosyltransferase and optimizing cultivation	Investigated Organism: Saccharomyces cerevisiae; Studied Organism Strains: H5M147,H5MR83; Organism Common Name: Baker's yeast; Organism Class: Organism Category: Fungus; Microbe Type: Model organism; Industrial microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Growth rate ●Metabolite production - Drug ---> S-adenosyl-l-methionine
SLID-315	Mutagenesis in bacterial spores exposed to space and simulated martian conditions: data from the EXPOSE-E spaceflight experiment PROTECT	Investigated Organism: Bacillus subtilis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Plant probiotic; Model organism; Microbe Form: Spores;	●n.a.	●n.a.	●Environment - Simulated martian conditions ●Omics - Genome ---> Mutation spectrum
SLID-316	Transcriptomic responses of germinating Bacillus subtilis spores exposed to 1.5 years of space and simulated martian conditions on the EXPOSE-E experiment PROTECT	Investigated Organism: Bacillus subtilis; Studied Organism Strains: 168 (trpC2); Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Plant probiotic; Microbe Form: Spores; Active organism;	●n.a.	●n.a.	●Environment - Simulated martian conditions ●Omics - Transcriptome
SLID-317	Spaceflight-induced enhancement of 2-keto-L-gulonic acid production by a mixed culture of Ketogulonigenium vulgare and Bacillus thuringiensis	Investigated Organism: Bacillus thuringiensis; Ketogulonigenium vulgare; Studied Organism Strains: KB2194‐320; B1514; K2 and B1514; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Industrial microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Metabolite production - Drug precursor ---> 2‐keto‐L‐gulonic acid ●Metabolite production - pharmaceutical metabolite ---> Vitamin precurtor production
SLID-318	Spaceflight promotes biofilm formation by Pseudomonas aeruginosa	Investigated Organism: Pseudomonas aeruginosa; Studied Organism Strains: PA14; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation	●n.a.	●Cell behavior - Survival and growth ---> Viable cell number ●Morphology - Biofilm ●Cell behavior - Motility
SLID-319	Effect of spaceflight on Pseudomonas aeruginosa final cell density is modulated by nutrient and oxygen availability	Investigated Organism: Pseudomonas aeruginosa; Studied Organism Strains: PA14; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Environment - Medium nutritional condition ---> Phosphate concentration ●Environment - Medium nutritional condition ---> Carbon source ●Environment - Medium nutritional condition ---> Oxygen availability ●Cell behavior - Survival and growth ---> Cell density ●Cell behavior - Motility
SLID-320	Effects of microgravity on the virulence of Listeria monocytogenes, Enterococcus faecalis, Candida albicans, and methicillin-resistant Staphylococcus aureus	Investigated Organism: Staphylococcus aureus; Listeria monocytogenes; Enterococcus faecalis; Candida albicans; Studied Organism Strains: ATCC 7644; FPR3757, ATCC BAA-1556; OG1RF, ATCC 47077; SC5314; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Normal flora of Human; Human pathogen; Microbe Form: Active organism;	●n.a.	●Virulence	●n.a.
SLID-321	A multi-omic analysis of an Enterococcus faecium mutant reveals specific genetic mutations and dramatic changes in mRNA and protein expression	Investigated Organism: Enterococcus faecium; Studied Organism Strains: CGMCC 1.2136; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Normal flora of Human; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ●Omics - Transcriptome ●Omics - Proteome
SLID-322	Protein patterns of black fungi under simulated Mars-like conditions	Investigated Organism: Exophiala jeanselmei; Knufia perforans; Cryomyces antarcticus; Studied Organism Strains: MA 2853; MA 5682; MA 1299; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Human opportunistic pathogen; Extremophile; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ●Omics - Proteome ●Environment - Simulated martian conditions
SLID-323	Comparative genomic analysis of Klebsiella pneumonia (LCT-KP214) and a mutant strain (LCT-KP289) obtained after spaceflight	Investigated Organism: Klebsiella pneumonia; Studied Organism Strains: LCT-KP289,LCT-KP214; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm architecture	●Antibiotic resistance	●Omics - Genome ---> Genomic structural variations
SLID-324	Genomic and transcriptomic analysis of NDM-1 Klebsiella pneumoniae in spaceflight reveal mechanisms underlying environmental adaptability	Investigated Organism: Klebsiella pneumoniae; Studied Organism Strains: ATCC BAA-2146; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation	●Antibiotic resistance	●Omics - Genome ●Stress resistance - Oxidative stress resistance ●Morphology - Biofilm
SLID-325	Use of genome sequencing to assess nucleotide structure variation of Staphylococcus aureus strains cultured in spaceflight on Shenzhou-X, under simulated microgravity and on the ground	Investigated Organism: Staphylococcus aureus; Studied Organism Strains: LCT-SAS, LCT-SAM, LCT-SAG; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Human opportunistic pathogen; Normal flora of Human; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ---> Omics - Genome structure variation ●Environment - Simulated microgravity
SLID-326	Effects of simulated microgravity and spaceflight on morphological differentiation and secondary metabolism of Streptomyces coelicolor A3(2)	Investigated Organism: Treptomyces coelicolor; Studied Organism Strains: A3(2),M145; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Industrial microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Life cycle shorten ●Cell behavior - Survival and growth ---> Sporulation ●Omics - Transcriptome
SLID-327	Genomic and Proteomic Analysis of Escherichia coli After Spaceflight Reveals Changes Involving Metabolic Pathways	Investigated Organism: Escherichia coli; Studied Organism Strains: LCT-EC67; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Normal flora of Human; Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Proteome
SLID-328	Effects of Space Environment on Genome, Transcriptome, and Proteome of Klebsiella pneumoniae	Investigated Organism: Klebsiella pneumoniae; Studied Organism Strains: LCT-KP289,LCT-KP214; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ---> SNP ●Omics - Genome ---> Plasmid copy number variation ●Omics - Transcriptome ●Omics - Proteome
SLID-329	Survival of Antarctic Cryptoendolithic Fungi in Simulated Martian Conditions On Board the International Space Station	Investigated Organism: Cryomyces minteri; Cryomyces antarcticus; Studied Organism Strains: CCFEE 5187; CCFEE 515; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Extremophile; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Colony-forming ability ●Cell behavior - Survival and growth ---> Cell viability ●Environment - Simulated martian conditions
SLID-330	Characterization of fungi isolated from the equipment used in the International Space Station or Space Shuttle	Investigated Organism: Fungi; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Environmental microorganism; Microbe Form: Spacecraft sample;	●n.a.	●Antibiotic resistance	●Omics - Microbiome ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-331	Fungal Spores Viability on the International Space Station	Investigated Organism: Aspergillus niger; Cladosporium herbarum; Basipetospora halophila; Ulocladium chartarum; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Human opportunistic pathogen; Industrial microorganism; Environmental microorganism; Human pathogen; Microbe Form: Spores; Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Spore spreading ●Cell behavior - Survival and growth ---> Spore viability
SLID-332	Cultivation of Staphylococcus epidermidis in the Human Spaceflight Environment Leads to Alterations in the Frequency and Spectrum of Spontaneous Rifampicin-Resistance Mutations in the rpoB Gene	Investigated Organism: Staphylococcus epidermidis; Studied Organism Strains: ATCC 12228; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Normal flora of Human; Human opportunistic pathogen; Microbe Form: Active organism;	●Polymer network - Biofilm ---> Biofilm formation	●Antibiotic resistance	●Morphology - Biofilm ●Omics - Genome ---> Mutation spectrum
SLID-333	A Systems Biology Analysis Unfolds the Molecular Pathways and Networks of Two Proteobacteria in Spaceflight and Simulated Microgravity Conditions	Investigated Organism: Pseudomonas aeruginosa; Salmonella typhimurium; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Environment - Simulated microgravity ●Other profiles - Molecular pathway ●Omics - Transcriptome
SLID-334	A Molecular Genetic Basis Explaining Altered Bacterial Behavior in Space	Investigated Organism: Escherichia coli; Studied Organism Strains: ATCC 4157; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Normal flora of Human; Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Transcriptome
SLID-335	Characterization of Aspergillus fumigatus Isolates from Air and Surfaces of the International Space Station	Investigated Organism: Aspergillus fumigatus; Studied Organism Strains: ISSFT-021,IF1SW-F5; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Omics - Genome ●Cell behavior - Survival and growth ---> Growth rate ●Metabolite production - Potential drug ---> Fumigaclavine A ●Metabolite production - Potential drug ---> Fumigaclavine C ●Metabolite production - Potential drug ---> FumiquinazolineC/D ●Metabolite production - Potential drug ---> Pyripyropene A ●Metabolite production - Potential drug ---> Fumagillin ●Metabolite production - Potential drug ---> Helvolic acid ●Other profiles - Microbial colonization on space crafts
SLID-336	The Impact of Space Flight on Survival and Interaction of Cupriavidus metallidurans CH34 with Basalt, a Volcanic Moon Analog Rock	Investigated Organism: Cupriavidus metallidurans; Studied Organism Strains: CH34; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Plant probiotic; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation	●n.a.	●Morphology - Biofilm
SLID-337	Non-Toxin-Producing Bacillus cereus Strains Belonging to the B. anthracis Clade Isolated from the International Space Station	Investigated Organism: Bacillus anthracis-B. cereus-B. thuringiensis group; Studied Organism Strains: 11 strains; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ●Other profiles - Species identification ●Other profiles - Microbial colonization on space crafts
SLID-338	Whole metagenome profiles of particulates collected from the International Space Station	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Microbiota; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ---> Metagenome ●Omics - Microbiome ---> Microbial diversity ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-339	Exposure of Mycobacterium marinum to low-shear modeled microgravity: effect on growth, the transcriptome and survival under stress	Investigated Organism: Mycobacterium marinum; Studied Organism Strains: 1218R; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Growth rate ●Morphology - Bacterium size ●Omics - Transcriptome
SLID-340	Draft Genome Sequences from a Novel Clade of Bacillus cereus Sensu Lato Strains, Isolated from the International Space Station	Investigated Organism: Bacillus cereus (Sensu Lato); Studied Organism Strains: ISSFR-3F, ISSFR-9F, ISSFT-23F,JEM-2,S1-R4H1-FB,S2-R3J1-FB-BA1; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Human probiotic; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ●Other profiles - Microbial colonization on space crafts
SLID-341	Cultivation in Space Flight Produces Minimal Alterations in the Susceptibility of Bacillus subtilis Cells to 72 Different Antibiotics and Growth-Inhibiting Compounds	Investigated Organism: Bacillus subtilis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Plant probiotic; Model organism; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Cell behavior - Survival and growth
SLID-342	Phenotypic Changes Exhibited by E. coli Cultured in Space	Investigated Organism: Escherichia coli; Studied Organism Strains: ATCC 4157; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Human opportunistic pathogen; Normal flora of Human; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Morphology - Cell ---> Cell size ●Morphology - Cell ---> Cell envelope thickness ●Morphology - Cell ---> Cell ultrastructure ●Cell behavior - Cluster
SLID-343	Payload hardware and experimental protocol development to enable future testing of the effect of space microgravity on the resistance to gentamicin of uropathogenic Escherichia coli and its σs-deficient mutant	Investigated Organism: Escherichia coli; Studied Organism Strains: AMG1; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Model organism; Normal flora of Human; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Environment - Simulated microgravity ●Cell behavior - Survival and growth ---> Growth rate
SLID-344	Detection of antimicrobial resistance genes associated with the International Space Station environmental surfaces	Investigated Organism: Acinetobacter pittii; Klebsiella quasipneumoniae subsp. similipneumoniae; Pantoea conspicua; Staphylococcus aureus subsp. anaerobius; Pantoea dispersa; Staphylococcus hominis; Staphylococcus haemolyticus; Enterobacter bugandensis; Studied Organism Strains: IIF3SW-P1,IIF3SW-P2; IIF1SW-B2,IIF1SW-P1,IIF1SW-P2,IIF1SW-P3,IIF1SW-P4,IIF1SW-P5; IIIF1SW-B1,IIIF1SW-B3,IIIF1SW-B4,IIIF1SW-B5,IIIF4SW-B1; IF1SW-B2,IF2SW-B2,IF2SW-B3,IF1SW-P3,IF1SW-P4,IF2SW-P1,IF3SW-P1; IF4SW-P1,IF4SW-P3,IF4SW-P5,IF6SW-P1A,IF6SW-P2,IF6SW-P3A,IF7SW-P3,IIF6SW-P1,IIF6SW-P2,IIF6SW-P3,IIF8SW-P1,IIF8SW-P2; IF5SW-B1,IF5SW-B2,IF5SW-P1,IF5SW-P2,IIF5SW-B1,IIF5SW-B2,IIF5SW-B5,IIF5SW-P1,IIF5SW-P2,IIF5SW-P3,IIF5SW-P4,IIF5SW-P5; IIF2SW-P3,IIF2SW-P4,IIF2SW-P5; IF2SW-B1,IF2SW-B4,IF2SW-B5,IF2SW-P2,IF2SW-P3,IF3SW-P2; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Normal flora of Human; Human pathogen; Model organism; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Omics - Genome ●Other profiles - Microbial colonization on space crafts
SLID-345	Alterations in the Spectrum of Spontaneous Rifampicin-Resistance Mutations in the Bacillus subtilis rpoB Gene after Cultivation in the Human Spaceflight Environment	Investigated Organism: Bacillus subtilis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Model organism; Plant probiotic; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Omics - Genome ---> Mutation spectrum ●Omics - Genome ---> Mutagenic potential
SLID-346	Probiotics into outer space: feasibility assessments of encapsulated freeze-dried probiotics during 1 month's storage on the International Space Station	Investigated Organism: Lactobacillus casei; Studied Organism Strains: Shirota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human probiotic; Microbe Form: Freeze-dried organism;	●n.a.	●Probiotic properties	●Cell behavior - Survival and growth ●Omics - Genome ---> Polymorphic DNA profile ●Omics - Genome ---> Variant frequency
SLID-347	Characterization of Aspergillus niger Isolated from the International Space Station	Investigated Organism: Aspergillus niger; Studied Organism Strains: JSC-093350089,ATCC 1015; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Industrial microorganism; Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Growth rate ●Morphology - Colony ---> Pigment distribution ●Omics - Proteome ●Other profiles - Microbial colonization on space crafts
SLID-348	Meta-analysis of data from spaceflight transcriptome experiments does not support the idea of a common bacterial "spaceflight response"	Investigated Organism: Pseudomonas aeruginosa; Salmonella enterica; Staphylococcus aureus; Bacillus subtilis; Rhodospira rubrum; Studied Organism Strains: S1H; UAMS-1; PAO1; 168; χ3339; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Normal flora of Human; Human opportunistic pathogen; Model organism; Environmental microorganism; Plant probiotic; Human pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Transcriptome
SLID-349	Decreased biofilm formation ability of Acinetobacter baumannii after spaceflight on China's Shenzhou 11 spacecraft	Investigated Organism: Acinetobacter baumannii; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation ●Polymer network-Biofilm ---> Proteomic	●Antibiotic resistance	●Morphology - Biofilm ●Cell behavior - Survival and growth ---> Growth rate ●Omics - Genome ---> Mutation ●Omics - Transcriptome
SLID-350	International Space Station conditions alter genomics, proteomics, and metabolomics in Aspergillus nidulans	Investigated Organism: Aspergillus nidulans; Studied Organism Strains: LO1362,CW12001; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Model organism; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ●Omics - Proteome ●Metabolite production - Metabolomics
SLID-351	Proteomic characterization of Aspergillus fumigatus isolated from air and surfaces of the International Space Station	Investigated Organism: Aspergillus fumigatus; Studied Organism Strains: ISSFT-021,IF1SW-F4; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Proteome ●Other profiles - Microbial colonization on space crafts
SLID-352	LCT-EF258 with S17I Mutation in DprA Exhibits Horizontal Gene Transfer Deficiency After Spaceflight	Investigated Organism: Enterococcus faecium; Studied Organism Strains: LCT-EF258,LCT-EF90; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Normal flora of Human; Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ---> Horizontal gene transfer
SLID-353	Microbial community composition of water samples stored inside the International Space Station	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Environmental microorganism; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Cell behavior - Survival and growth ---> Viable bacterial load ●Cell behavior - Survival and growth ---> Total bacterial load ●Other profiles - Microbial colonization on space crafts ●Omics - Spacecraft microbiome monitoring
SLID-354	Reactivation of Microbial Strains and Synthetic Communities After a Spaceflight to the International Space Station: Corroborating the Feasibility of Essential Conversions in the MELiSSA Loop	Investigated Organism: Nitrosomonas ureae; Nitrobacter winogradskyi; Rhodospirillum rubrum; Arthrospira sp.; Cupriavidus pinatubonensis; Nitrosomonas europaea; Studied Organism Strains: Nb255; S1H; ATCC19718; PCC 8005; 1245; Nm10; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Potential food; Environmental microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Cell viability ●Environment - Radiation
SLID-355	Physical Forces Modulate Oxidative Status and Stress Defense Meditated Metabolic Adaptation of Yeast Colonies: Spaceflight and Microgravity Simulations	Investigated Organism: Saccharomyces cerevisiae; Studied Organism Strains: BY4743; Organism Common Name: Baker's yeast; Organism Class: Organism Category: Fungus; Microbe Type: Industrial microorganism; Model organism; Microbe Form: Active organism;	●Shear forces - Shear stress - Cell adhesion under shear stress	●n.a.	●Stress resistance - Oxidative stress resistance ●Cell behavior - Survival and growth ---> Apoptosis ●Environment - Shear stress ●Environment - Simulated microgravity
SLID-356	Decreased metabolism and increased tolerance to extreme environments in Staphylococcus warneri during long-term spaceflight	Investigated Organism: Staphylococcus warneri; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Normal flora of Human; Microbe Form: Active organism;	●Polymer network-Biofilm ---> Biofilm formation ●Polymer network-Biofilm ---> Transcriptomic	●Antibiotic resistance	●Omics - Genome ●Omics - Transcriptome ●Omics - Proteome ●Morphology - Biofilm
SLID-357	EcAMSat spaceflight measurements of the role of σs in antibiotic resistance of stationary phase Escherichia coli in microgravity	Investigated Organism: Escherichia coli; Organism Common Name: E. coli; Organism Class: Organism Category: Bacteria; Microbe Type: Normal flora of Human; Human opportunistic pathogen; Model organism; Microbe Form: Active organism;	●n.a.	●Antibiotic resistance	●Cell behavior - Survival and growth ---> Growth rate
SLID-358	Spaceflight and simulated microgravity conditions increase virulence of Serratia marcescens in the Drosophila melanogaster infection model	Investigated Organism: Serratia marcescens; Studied Organism Strains: Db11; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●Virulence	●Environment - Simulated microgravity ●Omics - Transcriptome ---> Host
SLID-359	Metabolomic Analysis of Aspergillus niger Isolated From the International Space Station Reveals Enhanced Production Levels of the Antioxidant Pyranonigrin A	Investigated Organism: Aspergillus niger; Studied Organism Strains: JSC-093350089,ATCC 1015; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Human opportunistic pathogen; Industrial microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Metabolite production - pharmaceutical metabolite ---> Antioxidant molecule production ●Metabolite production - Antioxidant ---> Pyranonigrin A
SLID-360	Comparisons of Transcriptome Profiles from Bacillus subtilis Cells Grown in Space versus High Aspect Ratio Vessel (HARV) Clinostats Reveal a Low Degree of Concordance	Investigated Organism: Bacillus subtilis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Plant probiotic; Model organism; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Transcriptome ●Environment - Simulated microgravity
SLID-361	The postmitotic Saccharomyces cerevisiae after spaceflight showed higher viability	Investigated Organism: Saccharomyces cerevisiae; Studied Organism Strains: ATCC 18824; Organism Common Name: Baker's yeast; Organism Class: Organism Category: Fungus; Microbe Type: Industrial microorganism; Model organism; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ---> Viability ●Cell behavior - Survival and growth ---> Cell cycle
SLID-362	Transcriptomic and proteomic responses of Serratia marcescens to spaceflight conditions involve large-scale changes in metabolic pathways	Investigated Organism: Serratia marcescens; Studied Organism Strains: LCT-SM213, LCTSM262, LCT-SM166; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Transcriptome ●Omics - Proteome
SLID-363	The risk of Staphylococcus skin infection during space travel and mitigation strategies	Investigated Organism: Staphylococcus aureus; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Normal flora of Human; Human opportunistic pathogen; Model organism; Microbe Form: Active organism;	●n.a.	●Microbial infection risk assessment	●Other profiles - Microbial colonization on space crafts
SLID-364	Space-flight Mutation of Streptomyces gilvosporeus for Enhancing Natamycin Production	Investigated Organism: Streptomyces gilvosporeus; Studied Organism Strains: LK-22; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Industrial microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Cell behavior - Survival and growth ●Omics - Genome ---> Mutation ●Metabolite production - Drug ---> Natamycin ●Metabolite production - pharmaceutical metabolite ---> Antibiotic drug production
SLID-365	Effects of Microgravity on the Virulence of Salmonella Toward Caenorhabditis elegans	Investigated Organism: Salmonella; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human pathogen; Microbe Form: Active organism;	●n.a.	●Virulence	●Environment - Simulated microgravity ●Omics - Genome ---> Mutagenesis
SLID-366	Analysis of genetic variation in Ganoderma Lucidum after space flight	Investigated Organism: Ganoderma lucidum; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Medicinal microorganism; Microbe Form: Active organism;	●n.a.	●n.a.	●Omics - Genome ---> Amplified fragment length polymorphism
SLID-367	Modification of reproductive development in Arabidopsis thaliana under spaceflight conditions	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Flower; Silique; Food Category: n.a.; Growth Stage During Space Flight: Seed to mature plant;	●n.a.	●n.a.	●Growth - Flower ---> Flower number ●Growth - Flower ---> Pollen viability ●Growth - Fruit and seed ---> Silique fertility
SLID-368	Changes in plant medium composition after a spaceflight experiment: Potassium levels are of special interest	Investigated Organism: Xanthisma gracile; Hemerocallis cv Autumn Blaze; Organism Common Name: n.a.; Day lily; Organism Class: Garden plant; Food; Studied Organ/Tissue/Part: Medium composition; Food Category: n.a.; Vegetable; Growth Stage During Space Flight: Mature plant;	●n.a.	●n.a.	●Environment - Medium composition change
SLID-369	Effect on a Flour Beetle of Irradiation during Space Flight	Investigated Organism: Tribolium confusum; Organism Common Name: Flour Beetle; Organism Class: Arthropod; Studied Organ/Tissue/Part: Pupae; Larvae;	●n.a.	●n.a.	●Development and Reproduction - Development ---> Molting failure ●Development and Reproduction - Development ---> Pupal death ●Development and Reproduction - Development ---> Pupal period prolongation ●Environment - Radiation
SLID-370	Pharmacokinetics of acetaminophen administered in tablets and capsules under long-term space flight conditions	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-371	Evaluation of physical and chemical changes in pharmaceuticals flown on space missions	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-372	Stability of vitamin B complex in multivitamin and multimineral supplement tablets after space flight	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-373	Medication use by U.S. crewmembers on the International Space Station	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-374	Chemical Potency and Degradation Products of Medications Stored Over 550 Earth Days at the International Space Station	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-375	Principles of Clinical Medicine for Space Flight	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-376	Prevalence of sleep deficiency and use of hypnotic drugs in astronauts before, during, and after spaceflight: an observational study	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-377	Spaceflight medical countermeasures: a strategic approach for mitigating effects from solar particle events	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-378	Physiological, pharmacokinetic, and pharmacodynamic changes in space	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-379	Bioavailability of Promethazine during Spaceflight	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-380	Spaceflight Medical Systems	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-381	Aquatic invertebrate protein sources for long-duration space travel	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-382	Assessment of nutrient stability in foods from the space food system after long-duration spaceflight on the ISS	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-383	Development of Spaceflight Foods with High Microbial Concentrations	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-384	Factors affecting flavor perception in space: Does the spacecraft environment influence food intake by astronauts?	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-385	Initial assessment of the nutritional quality of the space food system over three years of ambient storage	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-386	Kinetic parameters of thiamine degradation in NASA spaceflight foods determined by the endpoints method for long-term storage	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-387	Mission to Mars: food production and processing for the final frontier	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-388	Space food and bacterial infections: Realities of the risk and role of science	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-389	Spaceflight Metabolism and Nutritional Support	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-390	The Spaceflight Food System: A Case Study in Long Duration Preservation	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-391	Spaceflight Metabolism and Nutritional Support	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-392	Inflight Salivary Pharmacokinetics of Scopolamine and Dextroamphetamine	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-393	In-flight Pharmacokinetics of Acetaminophen in Saliva	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-394	A Psychiatric Formulary for Deep Space	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-395	Apollo food technology apollo food technology	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-396	Risk of Performance Decrement and Crew Illness Due to an Inadequate Food System	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-397	Effect of spaceflight on cardiovascular responses to upright posture in a 77-year-old astronaut	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Vessel; Heart;	●Fluid dynamics - Hemodynamics	●n.a.	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate ●Cardiovascular and Immune System - Heart rhythm ---> Stroke volume ●Cardiovascular and Immune System - Heart rhythm ---> Cardiac output ●Cardiovascular and Immune System - Vessel properties ---> Systolic pressure ●Cardiovascular and Immune System - Vessel properties ---> Diastolic pressure ●Cardiovascular and Immune System - Vessel properties ---> Total peripheral resistance ●Nervous and regulatory systems - Endocrine function ---> Norepinephrine ●Nervous and regulatory systems - Endocrine function ---> Epinephrine
SLID-398	Space Food and Nutrition	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-399	Assessment of the Long-Term Stability of Retort Pouch Foods to Support Extended Duration Spaceflight	Investigated Organism: Organism Common Name: Organism Class:		●n.a.
SLID-400	Detection of DNA damage by space radiation in human fibroblasts flown on the International Space Station	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Fibroblast cell;	●n.a.	●Radiation damage	●Omics - DNA damage ---> DNA double-strand break
SLID-401	A harness for enhanced comfort and loading during treadmill exercise in space	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Pain	●Other profiles - Medication use ---> Exercise
SLID-402	Binocular misalignments elicited by altered gravity provide evidence for nonlinear central compensation	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Behavior;	●n.a.	●Visuo-motor disorder	●Nervous and regulatory systems - Neuro-sensory function ---> Binocular misalignments
SLID-403	CCISS, Vascular and BP Reg Canadian space life science research on ISS	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart; Vessel;	●Statistical physics of fluctuation system - Heartbeat fluctuation ●Fluid dynamics - Hemodynamics --->	●Arterial stiffness ●Cardiac rhythm disturbances	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate ●Cardiovascular and Immune System - Heart rhythm ---> Heart rate variability ●Cardiovascular and Immune System - Vessel properties ---> Arterial baroreflex ●Cardiovascular and Immune System - Vessel properties ---> Arterial stiffness
SLID-404	Fluid shifts, vasodilatation and ambulatory blood pressure eduction during long duration spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Heart; Vessel;	●n.a.	●Unstable blood pressure ●Cardiac rhythm disturbances	●Cardiovascular and Immune System - Heart rhythm ---> Heart rate ●Cardiovascular and Immune System - Vessel properties ---> Blood pressure ●Cardiovascular and Immune System - Heart rhythm ---> Cardiac output ●Digestive and Excretory System - Urine components ---> Urine sodium ●Digestive and Excretory System - Urine components ---> Urine potassium ●Digestive and Excretory System - Urine components ---> Urine osmolality
SLID-405	Hemolysis contributes to anemia during long-duration space flight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood; Urine;	●n.a.	●Hemolysis ●Anemia	●Cardiovascular and Immune System - Blood components ---> Serum iron ●Cardiovascular and Immune System - Blood components ---> Ferritin ●Cardiovascular and Immune System - Blood components ---> Erythropoietin ●Cardiovascular and Immune System - Blood components ---> Carbon monoxide
SLID-406	Impact of communication delays to and from the International Space Station on self-reported individual and team behavior and performance: A mixed-methods study	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class:	●n.a.	●Mood impairment	●Nervous and regulatory systems - Psychology ---> Mood ●Nervous and regulatory systems - Psychology ---> Communication
SLID-407	Physiological and Functional Alterations after Spaceflight and Bed Rest	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Muscle;	●Statistical physics of fluctuation system - Heartbeat fluctuation	●Sensorimotor decline	●Nervous and regulatory systems - Neuromotor control ---> Kinetism ●Nervous and regulatory systems - Neuromotor control ---> Postural control ●Nervous and regulatory systems - Neuromotor control ---> Mobility ●Nervous and regulatory systems - Neuromotor control ---> Neuromuscular drive ●Musculoskeletal system - Muscle properties ---> Muscle strength ●Other profiles - Medication use ---> Exercise ●Cardiovascular and Immune System - Heart rhythm ---> Heart rate ●Cardiovascular and Immune System - Vessel properties ---> Blood pressure ●Cardiovascular and Immune System - Vessel properties ---> Plasma volume
SLID-408	Dietary acid load and bone turnover during long-duration spaceflight and bed rest	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Blood; Urine; Bone;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Bone mineral content ●Musculoskeletal system - Bone properties ---> Bone mineral density ●Digestive and Excretory System - Urine components ---> Urine Ca ●Digestive and Excretory System - Urine components ---> Urine N-telopeptide ●Cardiovascular and Immune System - Blood components ---> Bone-specific alkaline phosphatase
SLID-409	Effects of a Closed Space Environment on Gene Expression in Hair Follicles of Astronauts in the International Space Station	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Hair follicles;	●n.a.	●n.a.	●Omics - Transcriptome ---> Hair follicles
SLID-419	Biological and metabolic response in STS-135 space-flown mouse skin	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Skin;		●Oxidative damage
SLID-420	Decreased expression of myogenic transcription factors and myosin heavy chains in Caenorhabditis elegans muscles developed during spaceflight	Investigated Organism: Caenorhabditis elegans; Studied Organism Strains: Bristol N2; Organism Common Name: Nematode; Organism Class: Worm; Studied Organ/Tissue/Part: Muscle; Whole animal;		●Muscle atrophy
SLID-422	Effects of Space Flight on Mouse Liver versus Kidney: Gene Pathway Analyses	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Liver; Kidney;		●n.a.
SLID-423	Effects of spaceflight on the muscles of the murine shoulder	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle structure ●Musculoskeletal system - Muscle properties ---> Muscle proteins ●Omics - Proteome ---> Muscle
SLID-424	Evaluation of in vitro macrophage differentiation during space flight	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone marrow;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Blood cell population ●Omics - Transcriptome ---> Bone marrow
SLID-425	Exposure to microgravity for 30 days onboard Bion M1 caused muscle atrophy and impaired regeneration in murine femoral Quadriceps	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle repair ●Musculoskeletal system - Muscle properties ---> Muscle proteins ●Musculoskeletal system - Muscle properties ---> Muscle structure
SLID-426	Fifteen days of microgravity causes growth in calvaria of mice	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Bone;	●n.a.	●Skeletal deformity	●Musculoskeletal system - Bone properties ---> Bone structure ●Musculoskeletal system - Bone properties ---> Mineral density ●Musculoskeletal system - Bone properties ---> Bone volume
SLID-427	Functional changes in the snail statocyst system elicited by microgravity	Investigated Organism: Helix lucorum; Organism Common Name: Snail; Organism Class: Gastropoda; Studied Organ/Tissue/Part: Vestibular organs; Nerve; Whole animal;	●n.a.	●n.a.	●Nervous and regulatory systems - Neuro-sensory function ---> Statocyst activity and response ●Nervous and regulatory systems - Behavior ---> Negative gravitaxis ●Nervous and regulatory systems - Neuro-sensory function ---> Nerve gene expression
SLID-428	Genetic models in applied physiology: selected contribution: effects of spaceflight on immunity in the C57BL/6 mouse. II. Activation, cytokines, erythrocytes, and platelets	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Blood; Whole animal; Spleen; Thymus;	●n.a.	●Immune system dysregulation	●Cardiovascular and Immune System - Immune function ---> Cytokine content ●Cardiovascular and Immune System - Blood contents ---> Erythrocytes ●Cardiovascular and Immune System - Blood contents ---> Platelets ●Cardiovascular and Immune System - Immune function ---> Blood cell differentials ●Other profiles - Organ morphology ---> Thymus mass ●Other profiles - Organ morphology ---> Spleen mass ●Nervous and regulatory systems - Behavior ---> Food consumption ●Nervous and regulatory systems - Behavior ---> Water consumption
SLID-429	Is spaceflight-induced immune dysfunction linked to systemic changes in metabolism?	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Spleen; Liver; Spleen; Adrenal gland;	●n.a.	●Immune system dysregulation ●Oxidative damage	●Cardiovascular and Immune System - Immune function ---> Blood cell population ●Cardiovascular and Immune System - Immune function ---> Splenocyte viability ●Omics - Metabolome ---> Liver ●Omics - Transcriptome ---> Liver ●Nervous and regulatory systems - Endocrine function ---> Adrenal hormones
SLID-430	Masticatory muscles of mouse do not undergo atrophy in space	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Muscle;	●n.a.	●Muscle atrophy	●Musculoskeletal system - Muscle properties ---> Muscle mass ●Musculoskeletal system - Muscle properties ---> Muscle gene expression and signaling ●Musculoskeletal system - Muscle properties ---> Muscle mechanics
SLID-431	Microarray analysis of spaceflown murine thymus tissue reveals changes in gene expression regulating stress and glucocorticoid receptors	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Thymus;	●n.a.	●Immune system dysregulation	●Omics - Transcriptome ---> Thymus ●Cardiovascular and Immune System - Immune function ---> Thymus gene expression and regulation
SLID-432	Preservation of Multiple Mammalian Tissues to Maximize Science Return from Ground Based and Spaceflight Experiments	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Multiple organs; Liver;	●n.a.	●n.a.	●Other profiles - Methodology ---> Tissue preservation
SLID-433	Prolonged Exposure to Microgravity Reduces Cardiac Contractility and Initiates Remodeling in Drosophila	Investigated Organism: Drosophila melanogaster; Organism Common Name: Fruit fly; Organism Class: Arthropod; Studied Organ/Tissue/Part: Heart;	●Statistical physics of fluctuation system - Heartbeat fluctuation	●Cardiomyopathies	●Cardiovascular and Immune System - Cardiovascular properties ---> Circadian rhythm ●Cardiovascular and Immune System - Cardiovascular properties ---> Heart remodeling ●Cardiovascular and Immune System - Cardiovascular properties ---> Heart structure ●Cardiovascular and Immune System - Cardiovascular properties ---> Heart morphology ●Omics - Transcriptome ---> Heart
SLID-434	Reduction of anabolic signals and alteration of osteoblast nuclear morphology in microgravity	Investigated Organism: Mus musculus; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Osteoblast ;	●n.a.	●Bone loss	●Musculoskeletal system - Bone properties ---> Osteoblast gene expression ●Musculoskeletal system - Bone properties ---> Osteoblast morphology
SLID-435	Response of the mouse sublingual gland to spaceflight	Investigated Organism: Studied Organism Strains: C57BL/6; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Sublingual salivary gland;	●n.a.	●n.a.	●Nervous and regulatory systems - Endocrine function ---> Sublingual salivary glands morphology ●Nervous and regulatory systems - Endocrine function ---> Sublingual salivary glands protein expression
SLID-436	Retinal non-visual photoreception in space	Investigated Organism: Mus musculus; Studied Organism Strains: BALB/cJ,C57BL; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Eye;	●n.a.	●n.a.	●Nervous and regulatory systems - Eye properties ---> Retina cell survival ●Nervous and regulatory systems - Eye properties ---> Retina gene expression
SLID-437	Signs of Müller cell gliotic response found in the retina of newts exposed to real and simulated microgravity	Investigated Organism: Pleurodeles waltl; Organism Common Name: Newt; Organism Class: Amphibian; Studied Organ/Tissue/Part: Eye;	●n.a.	●Retinal gliosis	●Nervous and regulatory systems - Eye properties ---> Eye morphology ●Nervous and regulatory systems - Eye properties ---> Retina cell composition
SLID-438	Spaceflight and simulated microgravity cause a significant reduction of key gene expression in early T-cell activation	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: T-cell; Spleen;	●n.a.	●n.a.	●Cardiovascular and Immune System - Immune function ---> T-cell activation ●Cardiovascular and Immune System - Immune function ---> Cytokine production
SLID-439	Spaceflight reduces vasoconstrictor responsiveness of skeletal muscle resistance arteries in mice	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Vessel;	●n.a.	●n.a.	●Cardiovascular and Immune System - Cardiovascular properties ---> Vasoconstrictor responsiveness ●Cardiovascular and Immune System - Cardiovascular properties ---> Blood pressure ●Cardiovascular and Immune System - Cardiovascular properties ---> Vessel gene expression
SLID-440	Spaceflight-induced synaptic modifications within hair cells of the mammalian utricle	Investigated Organism: Mus musculus; Studied Organism Strains: C57BL/6J; Organism Common Name: Mice; Organism Class: Mammalia; Studied Organ/Tissue/Part: Hair cell;	●n.a.	●n.a.	●Nervous and regulatory systems - Neural properties ---> Synaptic modification ●Nervous and regulatory systems - Neuro-sensory function ---> Vestibular modification
SLID-441	Toll mediated infection response is altered by gravity and spaceflight in Drosophila	Investigated Organism: Drosophila melanogaster; Studied Organism Strains: Oregon-R wild-type; Organism Common Name: Fruit fly; Organism Class: Arthropod; Studied Organ/Tissue/Part: Whole animal;	●n.a.	●Cardiovascular deconditioning	●Cardiovascular and Immune System - Immune function ---> Antibacterial response ●Omics - Transcriptome ---> Whole animal
SLID-414	Improvements in the re-flight of spaceflight experiments on plant tropisms	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seed; Seedling;	●n.a.	●n.a.	●Growth - Seed germination ---> Germination rate ●Process - Phototropism ---> Red light ●Growth - Seed germination ---> Seedling length ●Growth - Seedling ---> Curvature
SLID-415	Microgravity does not alter plant stand gas exchange of wheat at moderate light levels and saturating CO2 concentration	Investigated Organism: Triticum aestivum (Dwarf wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Food Category: Grain; Growth Stage During Space Flight: Seed to mature plant;	●n.a.	●n.a.	●Process - Photosynthesis ●Growth - Leaf ---> Leaf area
SLID-416	Organ-specific remodeling of the Arabidopsis transcriptome in response to spaceflight	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Leaf; Root; Hypocotyl;	●n.a.	●n.a.	●Omics - Transcriptomics ---> Leaf ●Omics - Transcriptomics ---> Root ●Omics - Transcriptomics ---> Hypocotyl ●Growth - Seedling ---> Curvature ●Omics - Transcriptomics of stress resistance ---> Spaceflight adaptation
SLID-417	RNA-seq analyses of Arabidopsis thaliana seedlings after exposure to blue-light phototropic stimuli in microgravity	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling;	●n.a.	●n.a.	●Environment - Artificial gravity ●Growth - Whole plant ●Process - Phototropism ---> Blue Light ●Omics - Transcriptomics ---> Seedling ●Process - Molecular pathway
SLID-418	Spaceflight transcriptomes: unique responses to a novel environment	Investigated Organism: Arabidopsis thaliana; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Seedling; Tissue culture;	●n.a.	●n.a.	●Omics - Transcriptomics of stress resistance ---> Spaceflight adaptation ●Omics - Transcriptomics ---> Seedling ●Omics - Transcriptomics ---> Tissue culture
SLID-410	Fusarium oxysporum as an Opportunistic Fungal Pathogen on Zinnia hybrida Plants Grown on board the International Space Station	Investigated Organism: Fusarium oxysporum; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Plant opportunistic pathogen; Microbe Form: Spacecraft sample;	●n.a.	●Virulence	●Other profiles - Microbial colonization on space crafts ●Omics - Genome ●Other profiles - Species identification ●Morphology - Mycelium
SLID-411	Metagenome to phenome approach enables isolation and genomics characterization of Kalamiella piersonii gen. nov., sp. nov. from the International Space Station	Investigated Organism: Microbiota; Kalamiella piersonii; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Human opportunistic pathogen; Microbe Form: Spacecraft sample;	●n.a.	●Antibiotic resistance	●Omics - Microbiome ---> Metagenome-resolved genomes ●Omics - Genome ●Other profiles - Species identification ●Cell behavior - Survival and growth ---> Growth rate
SLID-412	Nanosatellites for Biology in Space: In Situ Measurement of Bacillus subtilis Spore Germination and Growth after 6 Months in Low Earth Orbit on the O/OREOS Mission	Investigated Organism: Bacillus subtilis; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Environmental microorganism; Microbe Form: Spores;	●n.a.	●n.a.	●Environment - Hypergravity ●Environment - Radiation ●Cell behavior - Survival and growth
SLID-413	Spaceflight enhances cell aggregation and random budding in Candida albicans	Investigated Organism: Candida albicans; Organism Common Name: n.a.; Organism Class: Organism Category: Fungus; Microbe Type: Human opportunistic pathogen; Microbe Form: Active organism;	●n.a.	●Microbial infection risk assessment	●Cell behavior - Survival and growth ●Omics - Transcriptome ●Cell behavior - Cluster ●Morphology - Cell
SLID-442	Effects of Space Flight on the Chemical Constituents and Anti-Inflammatory Activity of Licorice (Glycyrrhiza uralensis Fisch)	Investigated Organism: Glycyrrhiza uralensis; Organism Common Name: Licorice; Organism Class: Herb; Studied Organ/Tissue/Part: Seed; Root; Food Category: n.a.; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Component - Active ingredients ---> Liquiritin contents ●Component - Active ingredients ---> Glycyrrhizic acid contents ●Component - Active ingredients ---> Anti-inflammatory effect
SLID-443	Effect of Spaceflight on Tomato Seed Quality and Biochemical Characteristics of Mature Plants	Investigated Organism: Solanum lycopersicum; Studied Organism Strains: Podmoskovny ranny of dwarf type; Organism Common Name: Tomato; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant ; Fruit ; Food Category: Fruit ; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Seed germination ●Growth - Whole plant ---> Plant hight ●Growth - Whole plant ---> Crop cycle ●Growth - Flower ---> Flowering ●Growth - Fruit and seed ---> Fruit production ●Growth - Fruit and seed ---> Dry matter percentage ●Component - Active ingredients ---> Carotenoid content ●Component - Active ingredients ---> Antioxidant compounds and activity ●Component - Active ingredients ---> Organic acids ●Component - Carbohydrate ---> Monosaccharide ●Component - Mineral elements ●Quality - Taste index ●Quality - Yield
SLID-444	Research on lettuce growth technology onboard Chinese Tiangong II Spacelab	Investigated Organism: Lactuca sativa; Studied Organism Strains: Dasusheng; Organism Common Name: Lettuce; Organism Class: Food; Studied Organ/Tissue/Part: Leaf; Food Category: Vegetable; Growth Stage During Space Flight: Seed to mature plant;	●n.a.	●n.a.	●Growth - Whole plant ---> Morphology ●Growth - Leaf ---> Leaf color ●Growth - Whole plant ---> Biomass ●Component - Mineral elements ●Quality - Yield ●Omics - Microbiota ---> Species composition
SLID-445	International Space Station environmental microbiome-microbial inventories of ISS filter debris	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Environmental microorganism; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Omics - Spacecraft microbiome monitoring ●Other profiles - Microbial colonization on space crafts
SLID-446	Four-year bacterial monitoring in the International Space Station-Japanese Experiment Module "Kibo" with culture-independent approach	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Environmental microorganism; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Omics - Spacecraft microbiome monitoring ●Other profiles - Microbial colonization on space crafts
SLID-447	Survey of environmental biocontamination on board the International Space Station	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria/Fungus; Microbe Type: Environmental microorganism; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Omics - Spacecraft microbiome monitoring ●Other profiles - Microbial colonization on space crafts
SLID-448	Bacterial monitoring with adhesive sheet in the international space station-"Kibo", the Japanese experiment module	Investigated Organism: Microbiota; Organism Common Name: n.a.; Organism Class: Organism Category: Bacteria; Microbe Type: Environmental microorganism; Microbe Form: Spacecraft sample;	●n.a.	●n.a.	●Omics - Microbiome ●Omics - Spacecraft microbiome monitoring ●Other profiles - Microbial colonization on space crafts
SLID-449	Effect of spaceflight on isoflavonoid accumulation in etiolated soybean seedlings	Investigated Organism: Glycine max; Organism Common Name: Soybean; Organism Class: Food; Studied Organ/Tissue/Part: Hypocotyl; Root; Seedling; Food Category: Grain; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Growth - Root ●Growth - Seed germination ●Component - Secondary metabolites ---> Isoflavonoid ●Environment - Fractional gravity
SLID-450	Composition and physical properties of starch in microgravity-grown plants	Investigated Organism: Glycine max; Solanum tuberosum L; Organism Common Name: Soybean; Potato; Organism Class: Food; Studied Organ/Tissue/Part: Cotyledon; Hypocotyl; Stem; Food Category: Grain; Growth Stage During Space Flight: Seedling;	●n.a.	●n.a.	●Growth - Seed germination ●Growth - Leaf ●Component - Storage reserves ---> Starch ●Environment - Fractional gravity
SLID-451	Influence of Microgravity Environment on Root Growth, Soluble Sugars, and Starch Concentration of Sweetpotato Stem Cuttings	Investigated Organism: Ipomoea batatas (L.) Lam.; Studied Organism Strains: TU-82-155; Organism Common Name: Sweetpotato; Organism Class: Food; Studied Organ/Tissue/Part: Root; Food Category: Grain; Growth Stage During Space Flight: Stem;	●n.a.	●n.a.	●Growth - Root ●Component - Storage reserves ---> Soluble Sugars ●Component - Storage reserves ---> Starch ●Environment - Fractional gravity
SLID-452	From seed-to-seed experiment with wheat plants under space-flight conditions	Investigated Organism: Triticum aestivum (Super Dwarf wheat); Organism Common Name: n.a.; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Food Category: Grain; Growth Stage During Space Flight: Seed to mature plant;	●n.a.	●n.a.	●Component - Mineral elements ●Growth - Photosynthesis ●Growth - Whole plant
SLID-453	Metabolomics Analysis in Different Development Stages on SP0 Generation of Rice Seeds After Spaceflight	Investigated Organism: Oryza sativa; Studied Organism Strains: Dongnong423,Dongnong416; Organism Common Name: Rice; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Whole plant ●Component - Storage reserves ---> Soluble Sugar ●Omics - Metabolomics
SLID-454	The Memory of Rice Response to Spaceflight Stress: From the Perspective of Metabolomics and Proteomics	Investigated Organism: Oryza sativa; Studied Organism Strains: Dongnong416; Organism Common Name: Rice; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Whole plant ●Growth - Seed germination ●Omics - Metabolomics ●Component - Storage reserves
SLID-455	Combining Proteomics and Metabolomics to Analyze the Effects of Spaceflight on Rice Progeny	Investigated Organism: Oryza sativa; Studied Organism Strains: Dongnong423; Organism Common Name: Rice; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Whole plant ●Growth - Seed germination ●Omics - Metabolomics ●Component - Storage reserves
SLID-456	Molecular Variation and Application from Aerospace Mutagenesis in Upland Rice Huhan 3 and Huhan 7	Investigated Organism: Oryza sativa; Studied Organism Strains: Huhan 3,Huhan 3; Organism Common Name: Rice; Organism Class: Food; Studied Organ/Tissue/Part: Whole plant; Food Category: Grain; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Growth - Whole plant ●Growth - Seed germination ●Omics - Genetics and breeding
SLID-457	Germination, growth rates, and electron microscope analysis of tomato seeds flown on the LDEF	Investigated Organism: Solanum lycopersicum; Organism Common Name: Tomato; Organism Class: Food; Studied Organ/Tissue/Part: Seed; Leaf; Root; Food Category: Fruit; Growth Stage During Space Flight: Seed;	●n.a.	●n.a.	●Component - Mineral elements ●Growth - Seed germination ●Growth - Fruit and seed ---> Seed analysis
SLID-458	Molecular Basis to Integrate Microgravity Signals into the Photoperiodic Flowering Pathway in Arabidopsis thaliana under Spaceflight Condition	Investigated Organism: Arabidopsis thaliana; Studied Organism Strains: Col-0,pFT::GFP,ft-10; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Flower;	●n.a.	●n.a.	●Growth - Flower ---> Flowering ●Process - photoperiod ●Omics - Transcriptome
SLID-459	Transcriptomic Analysis of the Interaction Between FLOWERING LOCUS T Induction and Photoperiodic Signaling in Response to Spaceflight	Investigated Organism: Arabidopsis thaliana; Studied Organism Strains: Col-0; Organism Common Name: Thale cress; Organism Class: Model organism; Studied Organ/Tissue/Part: Flower;	●n.a.	●n.a.	●Growth - Flower ---> Flowering ●Process - photoperiod ●Omics - Transcriptome
SLID-460	Human thermohomeostasis onboard “Mir” and in simulated microgravity studies	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Body temperature;	●Heat conduction - Body temperature	●Fever	●Nervous and regulatory systems - Body temperature ---> Oral ●Nervous and regulatory systems - Body temperature ---> Foot ●Nervous and regulatory systems - Body temperature ---> AWST
SLID-461	Body temperature and thermoregulation during submaximal exercise after 115-day spaceflight	Investigated Organism: Homo sapiens; Organism Common Name: Human; Organism Class: Studied Organ/Tissue/Part: Body temperature; Blood;	●Heat conduction - Body temperature	●Fever	●Nervous and regulatory systems - Body temperature ---> Core body temperature ●Nervous and regulatory systems - Body temperature ---> Thermoregulation ●Fluid dynamics - Hemodynamics