SuCComBase

Sulfur Containing Compound Database

SCC Gene Description

Gene nameAOP2
AGI IDAT4G03060
Gene length399
Uniprot IDQ9ZTA2
Protein NameAlkenyl hydroxalkyl producing 2
SynonymN/A
EC number N/A
Entrez Gene N/A
Refseq mrna N/A
Refseq protein N/A
FunctionBy heterologous expression in Escherichia and the correlation of gene expression patterns to the GSL phenotype. AOP2 catalyzes the conversion of methylsulfinylalkyl GSLs to alkenyl GSLs in Arabidopsis. Absence of functional AOP2 and AOP3 leads to the accumulation of the precursor methylsulfinylalkyl GSLs (Kliebenstein et al. 2001)
GroupGSL side chain modification
ReferenceKliebenstein et al. (2001); Burow et al. (2015)
OrganismAGI IDGene NameProtein Name IdentityE-ValueDescription

Cabbage

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

68

6.00E-74

Cabbage

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

68

6.00E-74

Cabbage

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

71

3.00E-72

Cabbage

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

71

3.00E-72

Cabbage

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

69

4.00E-69

Cabbage

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

62

3.00E-64

Broccoli

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

61

3.00E-62

Papaya

AT4G03060

AOP2

Alkenyl hydroxalkyl producing 2

46

1.00E-50

GO IDOntologyGO TermDescription

GO:0051213

MF

dioxygenase activity

Catalysis of an oxidation-reduction (redox) reaction in which both atoms of oxygen from one molecule of O2 are incorporated into the (reduced) product(s) of the reaction. The two atoms of oxygen may be distributed between two different products.

Pubmed IDAuthorsYearTitleJournalDescription

25758208

Burow, M., Atwell, S., Francisco, M., Kerwin, R.E., Halkier, B.A. & Kliebenstein, D.J.

2015

The Glucosinolate Biosynthetic Gene AOP2 Mediates Feed-back Regulation of Jasmonic Acid Signaling in Arabidopsis

Mol Plant

N/A

Kliebenstein, D.J., Lambrix, V.M., Reichelt, M., Gershenzon, J. & Mitchell-Olds, T.

2001

Gene duplication in the diversification of secondary metabolism: tandem 2-oxoglutarate ? dependent dioxygenases control glucosinolate biosynthesis in Arabidopsis

The Plant Cell