Structure

Physi-Chem Properties

Molecular Weight:  304.13
Volume:  307.688
LogP:  1.652
LogD:  1.409
LogS:  -2.601
# Rotatable Bonds:  2
TPSA:  72.83
# H-Bond Aceptor:  5
# H-Bond Donor:  1
# Rings:  3
# Heavy Atoms:  5

MedChem Properties

QED Drug-Likeness Score:  0.589
Synthetic Accessibility Score:  4.712
Fsp3:  0.529
Lipinski Rule-of-5:  Accepted
Pfizer Rule:  Accepted
GSK Rule:  Accepted
BMS Rule:  2
Golden Triangle Rule:  Accepted
Chelating Alert:  0
PAINS Alert:  0

ADMET Properties (ADMETlab2.0)

ADMET: Absorption

Caco-2 Permeability:  -4.692
MDCK Permeability:  5.8550347603159025e-05
Pgp-inhibitor:  0.071
Pgp-substrate:  0.001
Human Intestinal Absorption (HIA):  0.279
20% Bioavailability (F20%):  0.985
30% Bioavailability (F30%):  0.99

ADMET: Distribution

Blood-Brain-Barrier Penetration (BBB):  0.933
Plasma Protein Binding (PPB):  34.78458023071289%
Volume Distribution (VD):  1.004
Pgp-substrate:  52.726806640625%

ADMET: Metabolism

CYP1A2-inhibitor:  0.121
CYP1A2-substrate:  0.074
CYP2C19-inhibitor:  0.038
CYP2C19-substrate:  0.479
CYP2C9-inhibitor:  0.024
CYP2C9-substrate:  0.03
CYP2D6-inhibitor:  0.022
CYP2D6-substrate:  0.044
CYP3A4-inhibitor:  0.427
CYP3A4-substrate:  0.335

ADMET: Excretion

Clearance (CL):  8.544
Half-life (T1/2):  0.629

ADMET: Toxicity

hERG Blockers:  0.037
Human Hepatotoxicity (H-HT):  0.222
Drug-inuced Liver Injury (DILI):  0.419
AMES Toxicity:  0.03
Rat Oral Acute Toxicity:  0.951
Maximum Recommended Daily Dose:  0.609
Skin Sensitization:  0.813
Carcinogencity:  0.713
Eye Corrosion:  0.823
Eye Irritation:  0.399
Respiratory Toxicity:  0.986

Download Data

Data Type Select
General Info & Identifiers & Properties  
Structure MOL file  
Source Organisms  
Biological Activities  
Similar NPs/Drugs  

  Natural Product: NPC158955

Natural Product ID:  NPC158955
Common Name*:   WYZMMUAUJZZQCB-SKSCYRIKSA-N
IUPAC Name:   n.a.
Synonyms:  
Standard InCHIKey:  WYZMMUAUJZZQCB-SKSCYRIKSA-N
Standard InCHI:  InChI=1S/C21H38O10/c1-19(2,28)10-4-7-21(9-23)12(24)5-6-20(3,29)17(21)16(10)31-18-15(27)14(26)13(25)11(8-22)30-18/h10-18,22-29H,4-9H2,1-3H3/t10-,11+,12+,13-,14+,15+,16-,17+,18+,20+,21+/m1/s1
SMILES:  CC(C)([C@@H]1CC[C@]2(CO)[C@H](CC[C@@](C)([C@@H]2[C@@H]1O[C@H]1[C@H]([C@H]([C@@H]([C@H](CO)O1)O)O)O)O)O)O
Synthetic Gene Cluster:   n.a.
ChEMBL Identifier:   n.a.
PubChem CID:   n.a.
Chemical Classification**:  
  • CHEMONTID:0000000 [Organic compounds]
    • [CHEMONTID:0000012] Lipids and lipid-like molecules
      • [CHEMONTID:0000259] Prenol lipids
        • [CHEMONTID:0002049] Terpene glycosides

*Note: the InCHIKey will be temporarily assigned as the "Common Name" if no IUPAC name or alternative short name is available.
**Note: the Chemical Classification was calculated by NPClassifier Version 1.5. Reference: PMID:34662515.

  Species Source

Organism ID Organism Name Taxonomy Level Family SuperKingdom Isolation Part Collection Location Collection Time Reference
NPO10830 Dictamnus dasycarpus Species Rutaceae Eukaryota Root barks n.a. n.a. PMID[11473427]
NPO10830 Dictamnus dasycarpus Species Rutaceae Eukaryota root bark n.a. n.a. PMID[18198838]
NPO7171 Salvia polystachya Species Lamiaceae Eukaryota n.a. n.a. n.a. PMID[29135252]
NPO10830 Dictamnus dasycarpus Species Rutaceae Eukaryota n.a. n.a. n.a. Database[HerDing]
NPO10830 Dictamnus dasycarpus Species Rutaceae Eukaryota n.a. n.a. n.a. Database[TCMID]
NPO7171 Salvia polystachya Species Lamiaceae Eukaryota n.a. n.a. n.a. Database[TCMID]
NPO10830 Dictamnus dasycarpus Species Rutaceae Eukaryota n.a. n.a. n.a. Database[TCM_Taiwan]
NPO10830 Dictamnus dasycarpus Species Rutaceae Eukaryota n.a. n.a. n.a. Database[TM-MC]
NPO1329 Esenbeckia hartmanii Species Rutaceae Eukaryota n.a. n.a. n.a. Database[UNPD]
NPO5451 Ageratina saltillensis Species Asteraceae Eukaryota n.a. n.a. n.a. Database[UNPD]
NPO11119 Salta triflora Species Polygonaceae Eukaryota n.a. n.a. n.a. Database[UNPD]
NPO7171 Salvia polystachya Species Lamiaceae Eukaryota n.a. n.a. n.a. Database[UNPD]
NPO7966 Grewia villosa Species Malvaceae Eukaryota n.a. n.a. n.a. Database[UNPD]
NPO10830 Dictamnus dasycarpus Species Rutaceae Eukaryota n.a. n.a. n.a. Database[UNPD]
NPO3560 Trifolium montanum Species Fabaceae Eukaryota n.a. n.a. n.a. Database[UNPD]
NPO5799 Streptomyces chryseus Species Streptomycetaceae Bacteria n.a. n.a. n.a. Database[UNPD]

☑ Note for Reference:
In addition to directly collecting NP source organism data from primary literature (where reference will provided as NCBI PMID or DOI links), NPASS also integrated them from below databases:
UNPD: Universal Natural Products Database [PMID: 23638153].
StreptomeDB: a database of streptomycetes natural products [PMID: 33051671].
TM-MC: a database of medicinal materials and chemical compounds in Northeast Asian traditional medicine [PMID: 26156871].
TCM@Taiwan: a Traditional Chinese Medicine database [PMID: 21253603].
TCMID: a Traditional Chinese Medicine database [PMID: 29106634].
TCMSP: The traditional Chinese medicine systems pharmacology database and analysis platform [PMID: 24735618].
HerDing: a herb recommendation system to treat diseases using genes and chemicals [PMID: 26980517].
MetaboLights: a metabolomics database [PMID: 27010336].
FooDB: a database of constituents, chemistry and biology of food species [www.foodb.ca].

  NP Quantity Composition/Concentration

Organism ID NP ID Organism Material Preparation Organism Part NP Quantity (Standard) NP Quantity (Minimum) NP Quantity (Maximum) Quantity Unit Reference

☑ Note for Reference:
In addition to directly collecting NP quantitative data from primary literature (where reference will provided as NCBI PMID or DOI links), NPASS also integrated NP quantitative records for specific NP domains (e.g., NPS from foods or herbs) from domain-specific databases. These databases include:
DUKE: Dr. Duke's Phytochemical and Ethnobotanical Databases.
PHENOL EXPLORER: is the first comprehensive database on polyphenol content in foods [PMID: 24103452], its homepage can be accessed at here.
FooDB: a database of constituents, chemistry and biology of food species [www.foodb.ca].

  Biological Activity

Target ID Target Type Target Name Target Organism Activity Type Activity Relation Value Unit Reference

☑ Note for Activity Records:
☉ The quantitative biological activities were primarily integrated from ChEMBL (Version-30) database and were also directly collected from PubMed literature. PubMed PMID was provided as the reference link for each activity record.

  Chemically structural similarity: I. Similar Active Natural Products in NPASS

Top-200 similar NPs were calculated against the active-NP-set (includes 4,3285 NPs with experimentally-derived bioactivity available in NPASS)

Similarity level is defined by Tanimoto coefficient (Tc) between two molecules. Tc lies between [0, 1] where '1' indicates the highest similarity. What is Tanimoto coefficient

●  The left chart: Distribution of similarity level between NPC158955 and all remaining natural products in the NPASS database.
●  The right table: Most similar natural products (Tc>=0.56 or Top200).

Similarity Score Similarity Level Natural Product ID

  Chemically structural similarity: II. Similar Clinical/Approved Drugs

Similarity level is defined by Tanimoto coefficient (Tc) between two molecules.

●  The left chart: Distribution of similarity level between NPC158955 and all drugs/candidates.
●  The right table: Most similar clinical/approved drugs (Tc>=0.56 or Top200).

Similarity Score Similarity Level Drug ID Developmental Stage

  Bioactivity similarity: Similar Natural Products in NPASS

Bioactivity similarity was calculated based on bioactivity descriptors of compounds. The bioactivity descriptors were calculated by a recently developed AI algorithm Chemical Checker (CC) [Nature Biotechnology, 38:1087–1096, 2020; Nature Communications, 12:3932, 2021], which evaluated bioactivity similarities at five levels:
A: chemistry similarity;
B: biological targets similarity;
C: networks similarity;
D: cell-based bioactivity similarity;
E: similarity based on clinical data.

Those 5 categories of CC bioactivity descriptors were calculated and then subjected to manifold projection using UMAP algorithm, to project all NPs on a 2-Dimensional space. The current NP was highlighted with a small circle in the 2-D map. Below figures: left-to-right, A-to-E.

A: chemistry similarity
B: biological targets similarity
C: networks similarity
D: cell-based bioactivity similarity
E: similarity based on clinical data