Glucosinolate biosynthesis (from aromatic amino acid) (WP4598)
Arabidopsis thaliana
This pathway describes the glucosinolate derived from aromatic amino acid (Phe, Tyr, Trp) in Arabidopsis thaliana. This is based on the KEGG pathway and PlantCyc. Some pathway entities are unknown and being investigated, these are denoted as "Catalyst" and "Metabolite" for now.
Authors
Mikiko Takahashi , Atsushi Fukushima , and Kristina HanspersActivity
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Organisms
Arabidopsis thalianaCommunities
Annotations
Pathway Ontology
classic metabolic pathway| Label | Type | Compact URI | Comment |
|---|---|---|---|
| L-Phenylalanine | Metabolite | kegg.compound:C00079 | |
| (E)-Phenylacetaldoxime | Metabolite | kegg.compound:C19714 | |
| S-(Phenylacetothiohydroximoyl)-L-cysteine | Metabolite | kegg.compound:C17237 | |
| Phenylacetothiohydroximate | Metabolite | kegg.compound:C03719 | |
| Desulfoglucotropeolin | Metabolite | kegg.compound:C01069 | |
| L-Tryptophan | Metabolite | kegg.compound:C00078 | |
| L-Tyrosine | Metabolite | kegg.compound:C00082 | |
| Benzyl glucosinolate | Metabolite | chebi:17127 | |
| Indole-3-acetaldehyde oxime | Metabolite | kegg.compound:C02937 | |
| S-(Indolylmethylthiohydroximoyl)-L-cysteine | Metabolite | kegg.compound:C16518 | |
| L-Homophenylalanine | Metabolite | kegg.compound:C17235 | |
| 3-Phenylpropionaldoxim | Metabolite | kegg.compound:C17236 | |
| 2-Phenylethyl glucosinolate | Metabolite | kegg.compound:C08417 | |
| Indolylmethylthiohydroximate | Metabolite | kegg.compound:C16516 | |
| Indolylmethyl-desulfoglucosinolate | Metabolite | kegg.compound:C16517 | |
| 3-indolylmethyl glucosinolate | Metabolite | knapsack:C00000125 | |
| (E)-4-Hydroxyphenylacetaldehyde oxime | Metabolite | kegg.compound:C04350 | |
| S-(Hydroxyphenylacetothiohydroximoyl)-L-cysteine | Metabolite | kegg.compound:C17238 | |
| p-Hydroxyphenylacetothiohydroximate | Metabolite | kegg.compound:C17239 | |
| p-Hydroxybenzyldesulphoglucosinolate | Metabolite | kegg.compound:C17240 | |
| p-Hydroxybenzyl glucosinolate | Metabolite | kegg.compound:C08426 | |
| 4-Hydroxy-3-indolylmethylglucosinolate | Metabolite | knapsack:C00000127 | |
| 1-Hydroxy-3-indolylmethylglucosinolate | Metabolite | pubchem.compound:123131529 | |
| 1-Methoxy-3-indolylmethylglucosinolate | Metabolite | knapsack:C00000126 | |
| 4-Methoxy-3-indolylmethylglucosinolate | Metabolite | knapsack:C00000128 | |
| CYP79A2 | GeneProduct | tair.locus:AT5G05260 | |
| CYP83B1 | GeneProduct | tair.locus:AT4G31500 | |
| SUR1 | GeneProduct | :AT2G20610 | |
| UGT74B1 | GeneProduct | tair.locus:AT1G24100 | |
| SOT16 | GeneProduct | tair.locus:AT1G74100 | |
| CYP79A1 | GeneProduct | kegg.genes:K13027 | |
| CYP79B2 | GeneProduct | tair.locus:AT4G39950 | |
| CYP79B3 | GeneProduct | tair.locus:AT2G22330 | |
| SUR1 | GeneProduct | tair.locus:AT2G20610 | |
| UGT74B1 | GeneProduct | tair.locus:AT1G24100 | |
| SUR1 | GeneProduct | tair.locus:AT2G20610 | |
| CYP81F2 | GeneProduct | tair.locus:AT5G57220 | |
| CYP81F4 | GeneProduct | tair.locus:AT4G37410 | |
| O-methyltransferase | GeneProduct | tair.locus:IGMT5 | |
| CYP81F3 | GeneProduct | tair.locus:AT4G37400 | |
| CYP81F1 | GeneProduct | tair.locus:AT4G37430 | |
| indole glucosinolate methyltransferase | GeneProduct | tair.locus:IGMT1 | |
| CYP83B1 | GeneProduct | tair.locus:AT4G31500 | |
| CYP83B1 | GeneProduct | tair.locus:AT4G31500 | |
| SOT16 | GeneProduct | tair.locus:AT1G74100 | |
| SOT16 | GeneProduct | tair.locus:AT1G74100 |
References
- Arabidopsis glucosyltransferase UGT74B1 functions in glucosinolate biosynthesis and auxin homeostasis. Grubb CD, Zipp BJ, Ludwig-Müller J, Masuno MN, Molinski TF, Abel S. Plant J. 2004 Dec;40(6):893–908. PubMed Europe PMC Scholia
- The three desulfoglucosinolate sulfotransferase proteins in Arabidopsis have different substrate specificities and are differentially expressed. Klein M, Reichelt M, Gershenzon J, Papenbrock J. FEBS J. 2006 Jan;273(1):122–36. PubMed Europe PMC Scholia
- Kinetics and substrate specificities of desulfo-glucosinolate sulfotransferases in Arabidopsis thaliana. Klein M, Papenbrock J. Physiol Plant. 2009 Feb;135(2):140–9. PubMed Europe PMC Scholia
- Glucosinolate breakdown in Arabidopsis: mechanism, regulation and biological significance. Wittstock U, Burow M. Arabidopsis Book. 2010;8:e0134. PubMed Europe PMC Scholia