Human-GEM
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SysBioChalmers
GPRs for Mitochondrial 2-enoyl-CoA Hydration Reactions
Current Behavior:
All of these reactions represent hydration of a 2-enoyl-CoA in mitochondria and have GPRs of HADHA and EHHADH and ECHS1 (ENSG00000084754 and ENSG00000113790 and ENSG00000127884):
| ID | Reaction | Chain Length | Appropriate GPR |
|---|---|---|---|
| MAR03219 | H2O [m] + trans,cis-2,13-docosadienoyl-CoA [m] --> 3(S)-hydroxy-13-cis-docosenoyl-CoA [m] | 22 | HADHA |
| MAR03108 | (2E)-docosenoyl-CoA [m] + H2O [m] --> 3-hydroxydocosanoyl-CoA [m] | 22 | HADHA |
| MAR03171 | (2E)-heneicosenoyl-CoA [m] + H2O [m] --> 3-hydroxyheneicosanoyl-CoA [m] | 21 | HADHA |
| MAR03449 | H2O [m] + trans-2-cis,cis,cis-8,11,14-eicosatetraenoyl-CoA [m] --> 3(S)-hydroxy-dihomo-gamma-linolenoyl-CoA [m] | 20 | HADHA |
| MAR03241 | H2O [m] + trans,cis-2,13-eicosadienoyl-CoA [m] --> 3(S)-hydroxy-13-cis-eicosenoyl-CoA [m] | 20 | HADHA |
| MAR03223 | H2O [m] + trans,cis-2,11-eicosadienoyl-CoA [m] --> 3(S)-hydroxy-11-cis-eicosenoyl-CoA [m] | 20 | HADHA |
| MAR03112 | (2E)-eicosenoyl-CoA [m] + H2O [m] --> 3-hydroxyeicosanoyl-CoA [m] | 20 | HADHA |
| MAR01272 | 5(S),12(R)-dihydroxy-eicosa-2,8-trans-6,14-cis-tetraenoyl-CoA [m] + H2O [m] --> 3(S),5(S),12(R)-trihydroxy-eicosa-8-trans-6,14-cis-trienoyl-CoA [m] | 20 | HADHA |
| MAR01255 | (18E)-20-oxo-20-CoA-LTB4 [m] + H2O [m] --> 20-CoA-20-oxo-18r-hydroxy-LTB4 [m] | 20 | HADHA |
| MAR01206 | 5-oxo-12(S)-hydroxy-eicosa-(2E,8E,10E,14Z)-tetraenoyl-CoA [m] + H2O [m] --> 3(S),12(S)-dihydroxy-5-oxo-eicosa-(8E,10E,14Z)-trienoyl-CoA [m] | 20 | HADHA |
| MAR01163 | 5-oxo-12(R)-hydroxy-eicosa-(2E,8E,10E,14Z)-tetraenoyl-CoA [m] + H2O [m] --> 3(S),12(R)-dihydroxy-5-oxo-eicosa-(8E,10E,14Z)-trienoyl-CoA [m] | 20 | HADHA |
| MAR03175 | (2E)-nonadecenoyl-CoA [m] + H2O [m] --> 3-hydroxynonadecanoyl-CoA [m] | 19 | HADHA |
| MAR03453 | (2E,6Z,9Z,12Z)-octadecatetraenoyl-CoA [m] + H2O [m] --> 3(S)-hydroxy-(6Z,9Z,12Z)-octadecatrienoyl-CoA [m] | 18 | HADHA |
| MAR03277 | H2O [m] + trans,cis,cis-2,9,12-octadecatrienoyl-CoA [m] --> (3S)-3-hydroxylinoleoyl-CoA [m] | 18 | HADHA |
| MAR03245 | H2O [m] + trans,cis-octadeca-2,11-dienoyl-CoA [m] --> (S)-3-hydroxy-11-cis-octadecenoyl-CoA [m] | 18 | HADHA |
| MAR03227 | H2O [m] + trans,cis-octadeca-2,9-dienoyl-CoA [m] --> (S)-3-hydroxyoleyleoyl-CoA [m] | 18 | HADHA |
| MAR03116 | (2E)-octadecenoyl-CoA [m] + H2O [m] --> 3-hydroxyoctadecanoyl-CoA [m] | 18 | HADHA |
| MAR03179 | (2E)-heptadecenoyl-CoA [m] + H2O [m] --> 3-hydroxyheptadecanoyl-CoA [m] | 17 | HADHA |
| MAR03281 | H2O [m] + trans,cis,cis-2,7,10-hexadecatrienoyl-CoA [m] --> (3S)-3-hydroxy-cis,cis-palmito-7,10-dienoyl-CoA [m] | 16 | HADHA |
| MAR03252 | H2O [m] + trans,cis-hexadeca-2,9-dienoyl-CoA [m] --> (S)-3-hydroxypalmitoleoyl-CoA [m] | 16 | HADHA |
| MAR03231 | H2O [m] + trans,cis-hexadeca-2,7-dienoyl-CoA [m] --> (S)-3-hydroxy-7-hexadecenoyl-CoA [m] | 16 | HADHA |
| MAR03122 | (2E)-hexadecenoyl-CoA [m] + H2O [m] --> (S)-3-hydroxyhexadecanoyl-CoA [m] | 16 | HADHA |
| MAR01219 | 3(S),8(S)-dihydroxy-(6E,10Z)-hexadecadienoate [m] <=> 8(S)-hydroxy-hexadeca-(2E,6E,10Z)-trienoate [m] + H2O [m] | 16 | HADHA |
| MAR01177 | 8(R)-hydroxy-hexadeca-(2E,6E,10Z)-trienoate [m] + H2O [m] --> 3(S),8(R)-dihydroxy-(6E,10Z)-hexadecadienoate [m] | 16 | HADHA |
| MAR03183 | (2E)-pentadecenoyl-CoA [m] + H2O [m] --> 3-hydroxypentadecanoyl-CoA [m] | 15 | HADHA |
| MAR03285 | H2O [m] + trans-2-cis,cis-5,8-tetradecatrienoyl-CoA [m] --> 3(S)-hydroxy-(5Z,8Z)-tetradecadienoyl-CoA [m] | 14 | HADHA |
| MAR03260 | H2O [m] + trans,cis-myristo-2,7-dienoyl-CoA [m] --> cis-(3S)-hydroxytetradec-7-enoyl-CoA [m] | 14 | HADHA |
| MAR03235 | H2O [m] + trans,cis-myristo-2,5-dienoyl-CoA [m] --> cis-(3S)-hydroxytetradec-5-enoyl-CoA [m] | 14 | HADHA |
| MAR03129 | (2E)-tetradecenoyl-CoA [m] + H2O [m] --> (S)-3-hydroxytetradecanoyl-CoA [m] | 14 | HADHA |
| MAR01224 | 6(S)-hydroxy-tetradeca-(2E,8Z)-dienoate [m] + H2O [m] --> 3(S),6(S)-dihydroxy-tetradec-(8Z)-enoate [m] | 14 | HADHA |
| MAR01182 | 6(R)-hydroxy-tetradeca-(2E,8Z)-dienoate [m] + H2O [m] --> 3(S),6(R)-dihydroxy-tetradec-(8Z)-enoate [m] | 14 | HADHA |
| MAR03187 | (2E)-tridecenoyl-CoA [m] + H2O [m] --> 3-hydroxytridecanoyl-CoA [m] | 13 | HADHA |
| MAR03290 | H2O [m] + trans,cis-lauro-2,6-dienoyl-CoA [m] --> (3S)-3-hydroxydodec-cis-6-enoyl-CoA [m] | 12 | HADHA or ECHS1 |
| MAR03136 | (2E)-dodecenoyl-CoA [m] + H2O [m] --> (S)-3-hydroxydodecanoyl-CoA [m] | 12 | HADHA or ECHS1 |
| MAR03191 | (2E)-undecenoyl-CoA [m] + H2O [m] --> 3-hydroxyundecanoyl-CoA [m] | 11 | HADHA or ECHS1 |
| MAR03143 | (2E)-decenoyl-CoA [m] + H2O [m] --> (S)-hydroxydecanoyl-CoA [m] | 10 | HADHA or ECHS1 |
| MAR03523 | 4(R),8-dimethyl-trans-2-nonenoyl-CoA [m] + H2O [m] --> 3(S)-hydroxy-4(R),8-dimethyl-nonanoyl-CoA [m] | 9 | HADHA or ECHS1 |
| MAR03195 | (2E)-nonenoyl-CoA [m] + H2O [m] --> 3-hydroxynonanoyl-CoA [m] | 9 | HADHA or ECHS1 |
| MAR03150 | (2E)-octenoyl-CoA [m] + H2O [m] --> (S)-hydroxyoctanoyl-CoA [m] | 8 | HADHA or ECHS1 |
| MAR03528 | 2,6-dimethyl-trans-2-heptenoyl-CoA [m] + H2O [m] --> 3(S)-hydroxy-2(S),6-dimethyl-heptanoyl-CoA [m] | 7 | HADHA or ECHS1 |
| MAR03199 | (2E)-heptenoyl-CoA [m] + H2O [m] --> 3-hydroxyheptanoyl-CoA [m] | 7 | HADHA or ECHS1 |
| MAR03157 | (2E)-hexenoyl-CoA [m] + H2O [m] --> (S)-hydroxyhexanoyl-CoA [m] | 6 | HADHA or ECHS1 |
| MAR03532 | 4-methyl-trans-2-pentenoyl-CoA [m] + H2O [m] --> 3(S)-hydroxy-4-methyl-pentanoyl-CoA [m] | 5 | ECHS1 |
| MAR03203 | (2E)-pentenoyl-CoA [m] + H2O [m] --> 3-hydroxypentanoyl-CoA [m] | 5 | ECHS1 |
| MAR03785 | H2O [m] + tiglyl-CoA [m] --> (S)-3-hydroxy-2-methylbutyryl-CoA [m] | 4 | ECHS1 |
| MAR03164 | crotonyl-CoA [m] + H2O [m] --> (S)-3-hydroxybutyryl-CoA [m] | 4 | ECHS1 |
| MAR04735 | acrylyl-CoA [m] + H2O [m] <=> 3-hydroxypropionyl-CoA [m] | 3 | ECHS1 |
| MAR03753 | H2O [m] + methacrylyl-CoA [m] --> 3-hydroxyisobutyryl-CoA [m] | 3 | ECHS1 |
Expected behavior:
EHHADH is localized to peroxisomes, so it should not be associated with any of these reactions. While HADHA and ECHS1 are both localized to mitochondria, ECSH1 generally acts on substrates with shorter chains than HADHA, although there is some overlap. While most papers I could find were pretty vague about exactly what the range of substrates each enzyme could act on was, the best I've managed to come up with are these papers that say that ECSH1 can act on substrates with chain lengths of up to 12, and HADHA can act on substrates with chain lengths of at least 6. I have proposed new GPRs for each of these reactions that reflect these chain length preferences.
Proposed changes:
- [x] Change GPR of
MAR03219toENSG00000084754 - [x] Change GPR of
MAR03108toENSG00000084754 - [x] Change GPR of
MAR03171toENSG00000084754 - [x] Change GPR of
MAR03449toENSG00000084754 - [x] Change GPR of
MAR03241toENSG00000084754 - [x] Change GPR of
MAR03223toENSG00000084754 - [x] Change GPR of
MAR03112toENSG00000084754 - [x] Change GPR of
MAR01272toENSG00000084754 - [x] Change GPR of
MAR01255toENSG00000084754 - [x] Change GPR of
MAR01206toENSG00000084754 - [x] Change GPR of
MAR01163toENSG00000084754 - [x] Change GPR of
MAR03175toENSG00000084754 - [x] Change GPR of
MAR03453toENSG00000084754 - [x] Change GPR of
MAR03277toENSG00000084754 - [x] Change GPR of
MAR03245toENSG00000084754 - [x] Change GPR of
MAR03227toENSG00000084754 - [x] Change GPR of
MAR03116toENSG00000084754 - [x] Change GPR of
MAR03179toENSG00000084754 - [x] Change GPR of
MAR03281toENSG00000084754 - [x] Change GPR of
MAR03252toENSG00000084754 - [x] Change GPR of
MAR03231toENSG00000084754 - [x] Change GPR of
MAR03122toENSG00000084754 - [x] Change GPR of
MAR01219toENSG00000084754 - [x] Change GPR of
MAR01177toENSG00000084754 - [x] Change GPR of
MAR03183toENSG00000084754 - [x] Change GPR of
MAR03285toENSG00000084754 - [x] Change GPR of
MAR03260toENSG00000084754 - [x] Change GPR of
MAR03235toENSG00000084754 - [x] Change GPR of
MAR03129toENSG00000084754 - [x] Change GPR of
MAR01224toENSG00000084754 - [x] Change GPR of
MAR01182toENSG00000084754 - [x] Change GPR of
MAR03187toENSG00000084754 - [x] Change GPR of
MAR03290toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03136toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03191toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03143toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03523toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03195toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03150toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03528toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03199toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03157toENSG00000084754 or ENSG00000127884 - [x] Change GPR of
MAR03532toENSG00000127884 - [x] Change GPR of
MAR03203toENSG00000127884 - [x] Change GPR of
MAR03785toENSG00000127884 - [x] Change GPR of
MAR03164toENSG00000127884 - [x] Change GPR of
MAR04735toENSG00000127884 - [x] Change GPR of
MAR03753toENSG00000127884
It looks great to remove EHHADH. And I agree with your suggestion about ECSH1 and HADHA as some databases have similar description.
The Proposed changes tips gived above may be ENSG0000012788 or ENSG00000084754, and no other genes should appear. That's a small problem need to be noticed. (•̀ᴗ• ) ̑̑
In addition, 3-hydroxyacyl-CoA dehydrogenase from mitochondrial membranes should be a complex, HADHA can be used as an α subunit, and I suggest HADHB as a β subunit. So, the GPR of the above reaction should replace ENSG00000084754 with ENSG00000084754 and ENSG00000138029
oh whoops I did the classic click and drag spreadsheet thing where it increments the number for each cell; I will fix that
I didn't include HADHB in the GPRs following the rationale here, where we set the GPRs of reactions catalyzed by enzyme complexes such that each reaction was only associated with the specific subunits of the larger complex that directly catalyzed that reaction and left out the genes encoding all the other subunits of the same complex. HADHB is only responsible for the 3-ketoacyl-CoA activity of the HADHA/HADHB complex.
Agree with your reply. I think the evidence you provided is enough to support that HADHB isn't responsible for 2,3-enoyl-CoA hydratase and the 3-hydroxyacyl-CoA dehydrogenase activities. So, there is no need for the GPR of the above reaction to be replaced.