Bronze
no_smiles
Hydroxylation
Substrate reaction site
Product reaction site
MCS substructure diff highlighting · RDKit atom mapping
CYP81F2
ΔMass: no_smiles
Missing dual SMILES or RDKit not validated
Evidence trail
Excerpts are machine-extracted plain text for biochemical provenance. Follow DOI / PubMed links for the primary literature; publisher figures and PDF images are not displayed here.
Source text excerpt ation; ation; PMID 34424501, 正文第2页: 'Hydroxylation of I3M yields in either 4-hydroxy-indole-3-ylmethyl glucosinolate (4HO-I3M) or 1-hydroxy-indole-3-ylmethyl glucosinolate (1HO-I3M)'. 文中未明确提及CYP81F2,但根据标准IG通路(Pfalz et al. 2011),CYP81F2催化I3M的4-羟基化。此处为通路推断。
Reaction & quality gates
- Mechanism
- Hydroxylation
- Evidence type
- Pathway_inference
- Confidence
- Medium
- Data tier
- Bronze
evidence=Pathway_inference - Substrate class
- Glucosinolates
- Product class
- Glucosinolates
Literature & public identifiers
- PubMed
- PMID:34424501 ↗
- DOI
- 10.1007/s11103-021-01181-5 ↗
- UniProt
- C3W7I0 ↗
- GenBank
- —
- NCBI TaxID
- 3702 ↗
The phosphorylated pathway of serine biosynthesis is crucial for indolic glucosinolate biosynthesis and plant growth promotion conferred by the root endophyte Colletotrichum tofieldiae.