Sulfur Containing Compound Database
| Gene name | CYP79F2 |
| AGI ID | AT1G16400 |
| Gene length | 537 |
| Uniprot ID | Q9FUY7 |
| Protein Name | Hexahomomethionine N-hydroxylase |
| Synonym | F3O9.20 |
| EC number | EC 1.14.13.n6 |
| Entrez Gene | 838210 |
| Refseq mrna | NM_101506 |
| Refseq protein | NP_563995 |
| Function | CYP79F1 and CYP79F2 are two important genes whose products catalyse accumulation of long-chain aliphatic GSLs; while the product of CYP79F1 also functions in the biosynthesis of short-chain aliphatic GSLs (Chen et al. 2003) |
| Group | GSL core structure synthesis |
| Reference | Chen et al. (2003); Hansen et al. (2001); Miao et al. (2013) |
| Organism | AGI ID | Gene Name | Protein Name | Identity | E-Value | Description |
|---|---|---|---|---|---|---|
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
79 |
0.00E+00 |
||
|
Broccoli |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
81 |
0.00E+00 |
||
|
Broccoli |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
50 |
0.00E+00 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
50 |
0.00E+00 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
48 |
1.00E-174 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
47 |
3.00E-174 |
||
|
Broccoli |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
50 |
3.00E-174 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
50 |
9.00E-172 |
||
|
Papaya |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
44 |
5.00E-153 |
||
|
Broccoli |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
43 |
1.00E-146 |
||
|
Broccoli |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
43 |
2.00E-146 |
||
|
Broccoli |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
43 |
3.00E-146 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
43 |
5.00E-146 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
43 |
2.00E-145 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
43 |
2.00E-145 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
42 |
4.00E-145 |
||
|
Papaya |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
42 |
7.00E-139 |
||
|
Papaya |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
41 |
3.00E-134 |
||
|
Cabbage |
CYP79F2 |
Hexahomomethionine N-hydroxylase |
40 |
6.00E-121 |
| GO ID | Ontology | GO Term | Description |
|---|---|---|---|
|
MF |
iron ion binding |
Interacting selectively and non-covalently with iron (Fe) ions. |
|
|
CC |
endoplasmic reticulum |
The irregular network of unit membranes, visible only by electron microscopy, that occurs in the cytoplasm of many eukaryotic cells. The membranes form a complex meshwork of tubular channels, which are often expanded into slitlike cavities called cisterna |
|
|
CC |
endoplasmic reticulum membrane |
The lipid bilayer surrounding the endoplasmic reticulum. |
|
|
BP |
indoleacetic acid biosynthetic process |
The chemical reactions and pathways resulting in the formation of indole-3-acetic acid, a compound which functions as a growth regulator in plants. |
|
|
CC |
membrane |
A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it. |
|
|
CC |
integral component of membrane |
The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane. |
|
|
MF |
oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, NAD(P)H as one donor, and incorporation of one atom of oxygen |
Catalysis of an oxidation-reduction (redox) reaction in which hydrogen or electrons are transferred from NADH or NADPH and one other donor, and one atom of oxygen is incorporated into one donor. |
|
|
BP |
glucosinolate biosynthetic process |
The chemical reactions and pathways resulting in the formation of glucosinolates, substituted thioglucosides found in rapeseed products and related cruciferae. |
|
|
MF |
oxygen binding |
Interacting selectively and non-covalently with oxygen (O2). |
|
|
MF |
heme binding |
Interacting selectively and non-covalently with heme, any compound of iron complexed in a porphyrin (tetrapyrrole) ring. |
|
|
BP |
oxidation-reduction process |
A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons. |
|
|
BP |
defense response to other organism |
Reactions triggered in response to the presence of another organism that act to protect the cell or organism from damage caused by that organism. |
| Pubmed ID | Authors | Year | Title | Journal | Description |
|---|---|---|---|---|---|
|
Chen, S., Glawischnig, E., J rgensen, K., Naur, P., J rgensen, B., Olsen, C.-E., Hansen, C.H., Rasmussen, H., Pickett, J.A. & Halkier, B.A. |
2003 |
CYP79F1 and CYP79F2 have distinct functions in the biosynthesis of aliphatic glucosinolates in Arabidopsis |
Plant Journal |
||
|
Hansen, C.H., Wittstock, U., Olsen, C.E., Hick, A.J., Pickett, J.A. & Halkier, B.A. |
2001 |
Cytochrome p450 CYP79F1 from arabidopsis catalyzes the conversion of dihomomethionine and trihomomethionine to the corresponding aldoximes in the biosynthesis of aliphatic glucosinolates |
J Biol Chem |
||
|
Miao, H., Wei, J., Zhao, Y., Yan, H., Sun, B., Huang, J. & Wang, Q.o |
2013 |
Glucose signalling positively regulates aliphatic glucosinolate biosynthesis |
Journal of Experimental Botany |