Records matched to the searched keyword "STS-131"
| Study IDs | Study Titles | Investigation Categories | Studied Biophysical Phenomena | Associated Disease conditions | Studied Biological Phenomena |
|---|---|---|---|---|---|
| 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-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-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-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-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-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-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-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-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 |