Ontology | Accession | Term | GO Evidence | Evidence Ontology (ECO) Code | Reference | Comments |
---|---|---|---|---|---|---|
Molecular Function | GO:0008774 | acetaldehyde dehydrogenase (acetylating) activity |
Inferred from Sequence Model
Term mapped from: InterPro:MF_01657
|
ECO:0000259 match to InterPro signature evidence used in automatic assertion |
||
Molecular Function | GO:0016620 | oxidoreductase activity, acting on the aldehyde or oxo group of donors, NAD or NADP as acceptor |
Inferred from Sequence Model
Term mapped from: InterPro:PF01118
|
ECO:0000259 match to InterPro signature evidence used in automatic assertion |
||
Biological Process | GO:0019439 | aromatic compound catabolic process |
Inferred from Sequence Model
Term mapped from: InterPro:MF_01657
|
ECO:0000259 match to InterPro signature evidence used in automatic assertion |
||
Biological Process | GO:0055114 | oxidation-reduction process |
Inferred from Sequence Model
Term mapped from: InterPro:MF_01657
|
ECO:0000259 match to InterPro signature evidence used in automatic assertion |
||
Molecular Function | GO:0051287 | NAD binding |
Inferred from Sequence Model
Term mapped from: InterPro:PF01118
|
ECO:0000259 match to InterPro signature evidence used in automatic assertion |
Database | Xref | Pathway | Version | Evidence | PMID |
---|---|---|---|---|---|
KEGG | bcj01220 | Degradation of aromatic compounds | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
KEGG | bcj00362 | Benzoate degradation | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
KEGG | bcj00621 | Dioxin degradation | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
KEGG | bcj00360 | Phenylalanine metabolism | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
KEGG (InterPro) | 00360 | Phenylalanine metabolism | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
|
KEGG | bcj00622 | Xylene degradation | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
KEGG | bcj00650 | Butanoate metabolism | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
KEGG (InterPro) | 00362 | Benzoate degradation | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
|
KEGG | bcj00620 | Pyruvate metabolism | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
MetaCyc | 2'-deoxy-α-D-ribose 1-phosphate degradation | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
||
MetaCyc | triethylamine degradation | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
||
MetaCyc | pyruvate fermentation to ethanol I | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
||
KEGG (InterPro) | 00622 | Xylene degradation | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
|
MetaCyc | pyruvate fermentation to ethanol III | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
||
KEGG (InterPro) | 00621 | Dioxin degradation | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
|
KEGG | bcj01120 | Microbial metabolism in diverse environments | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
MetaCyc | 2-hydroxypenta-2,4-dienoate degradation | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
||
KEGG (InterPro) | 00650 | Butanoate metabolism | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
|
MetaCyc | L-threonine degradation IV | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
||
KEGG | bcj01100 | Metabolic pathways | 73.0+/03-31, Mar 15 |
ECO:0000249
sequence similarity evidence used in automatic assertion |
|
KEGG (InterPro) | 00620 | Pyruvate metabolism | InterPro 5.36-75.0 |
ECO:0000259
match to InterPro signature evidence used in automatic assertion |
Analysis | Accession | Description | Interpro Accession | Interpro Description | Amino Acid Start | Amino Acid Stop | E-value |
---|---|---|---|---|---|---|---|
Gene3D | G3DSA:3.30.360.10 | 129 | 296 | 4.5E-124 | |||
Pfam | PF09290 | Prokaryotic acetaldehyde dehydrogenase, dimerisation | IPR015426 | Acetaldehyde dehydrogenase, C-terminal | 129 | 282 | 1.4E-63 |
SUPERFAMILY | SSF51735 | IPR036291 | NAD(P)-binding domain superfamily | 1 | 153 | 1.62E-24 | |
TIGRFAM | TIGR03215 | ac_ald_DH_ac: acetaldehyde dehydrogenase (acetylating) | IPR003361 | Acetaldehyde dehydrogenase | 4 | 307 | 8.5E-141 |
SUPERFAMILY | SSF55347 | 129 | 282 | 5.62E-66 | |||
SMART | SM00859 | IPR000534 | Semialdehyde dehydrogenase, NAD-binding | 6 | 122 | 7.6E-13 | |
PIRSF | PIRSF015689 | IPR003361 | Acetaldehyde dehydrogenase | 1 | 312 | 3.3E-132 | |
Pfam | PF01118 | Semialdehyde dehydrogenase, NAD binding domain | IPR000534 | Semialdehyde dehydrogenase, NAD-binding | 6 | 118 | 2.1E-13 |
Gene3D | G3DSA:3.40.50.720 | 5 | 303 | 4.5E-124 | |||
Hamap | MF_01657 | Acetaldehyde dehydrogenase [mhpF]. | IPR003361 | Acetaldehyde dehydrogenase | 1 | 320 | 142.21 |