Sulfur Containing Compound Database
| Gene name | CYP81F4 |
| AGI ID | AT4G37410 |
| Gene length | 501 |
| Uniprot ID | Q9SZU1 |
| Protein Name | Cytochrome P450 81F4 |
| Synonym | F6G17.60 |
| EC number | EC 1.14.-. |
| Entrez Gene | 829895 |
| Refseq mrna | NM_119904 |
| Refseq protein | NP_195457 |
| Function | All four Arabidopsis CYP81F gene products had the capacity to modify the indole GSL structure. CYP81F1; CYP81F2; and CYP81F3 but not CYP81F4 catalyzed the conversion of indol-3-yl-methyl GSL (I3M) to 4-hydroxy-indol-3-yl-methyl (4OH-I3M) and all four CYP81Fs converted I3M to 1-hydroxy-indol-3-yl-methyl GSL (1OH-I3M) (Pfalz et al. 2011) |
| Group | GSL core structure synthesis |
| Reference | Pfalz et al. (2011) |
| Organism | AGI ID | Gene Name | Protein Name | Identity | E-Value | Description |
|---|---|---|---|---|---|---|
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
78 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
80 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
82 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
75 |
0.00E+00 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
74 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
73 |
0.00E+00 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
72 |
0.00E+00 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
82 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
67 |
0.00E+00 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
65 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
65 |
0.00E+00 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
65 |
0.00E+00 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
65 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
65 |
0.00E+00 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
64 |
0.00E+00 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
64 |
0.00E+00 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
52 |
9.00E-170 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
53 |
6.00E-168 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
52 |
7.00E-163 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
53 |
3.00E-162 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
51 |
8.00E-162 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
53 |
2.00E-161 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
53 |
5.00E-161 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
53 |
1.00E-160 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
54 |
1.00E-160 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
50 |
1.00E-160 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
52 |
7.00E-160 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
52 |
5.00E-159 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
51 |
7.00E-159 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
50 |
7.00E-159 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
52 |
2.00E-158 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
53 |
5.00E-158 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
52 |
6.00E-158 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
52 |
5.00E-157 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
51 |
1.00E-153 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
51 |
4.00E-151 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
49 |
3.00E-150 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
51 |
1.00E-149 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
50 |
1.00E-147 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
50 |
3.00E-146 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
50 |
2.00E-145 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
50 |
3.00E-143 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
50 |
1.00E-141 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
47 |
1.00E-138 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
48 |
2.00E-138 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
46 |
5.00E-137 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
47 |
3.00E-134 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
45 |
1.00E-131 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
44 |
3.00E-129 |
||
|
Cabbage |
CYP81F4 |
Cytochrome P450 81F4 |
46 |
3.00E-125 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
42 |
4.00E-125 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
43 |
6.00E-125 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
43 |
1.00E-124 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
41 |
6.00E-117 |
||
|
Papaya |
CYP81F4 |
Cytochrome P450 81F4 |
40 |
4.00E-108 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
42 |
7.00E-107 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
40 |
3.00E-106 |
||
|
Broccoli |
CYP81F4 |
Cytochrome P450 81F4 |
40 |
3.00E-106 |
| GO ID | Ontology | GO Term | Description |
|---|---|---|---|
|
MF |
monooxygenase activity |
Catalysis of the incorporation of one atom from molecular oxygen into a compound and the reduction of the other atom of oxygen to water. |
|
|
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 |
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. |
|
|
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 |
indole glucosinolate metabolic process |
The chemical reactions and pathways resulting in the formation of indole glucosinolates. Glucosinolates are sulfur-containing compounds that have a common structure linked to an R group derived from tryptophan; indoles are biologically active substances b |
|
|
BP |
secondary metabolite biosynthetic process |
The chemical reactions and pathways resulting in the formation of secondary metabolites, the compounds that are not necessarily required for growth and maintenance of cells, and are often unique to a taxon. |
|
|
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 |
|---|---|---|---|---|---|
|
Pfalz, M., Mikkelsen, M.D., Olsen, C.E., Halkier, B.A. & Kroymann, J. |
2011 |
Metabolic engineering in Nicotiana benthamiana reveals key enzyme functions in Arabidopsis indole glucosinolate modification |
Plant Cell |