| Entry |
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| Definition |
(GenBank) pyruvate synthase subunit PorA (Pyruvate oxidoreductasealpha chain) (POR) (Pyruvic-ferredoxin oxidoreductase subunit alpha)
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| KO |
| pyruvate ferredoxin oxidoreductase alpha subunit [EC: 1.2.7.1] |
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| Organism |
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| Pathway |
| Glycolysis / Gluconeogenesis | | Citrate cycle (TCA cycle) | | Pyruvate metabolism | | Nitrotoluene degradation | | Propanoate metabolism | | Butanoate metabolism | | Methane metabolism | | Carbon fixation pathways in prokaryotes | | Metabolic pathways | | Microbial metabolism in diverse environments | | Biosynthesis of antibiotics | | Carbon metabolism |
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| Module |
| Reductive citrate cycle (Arnon-Buchanan cycle) | | Pyruvate oxidation, pyruvate => acetyl-CoA |
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| Brite |
KEGG Orthology (KO) [BR:pmx00001]
Metabolism
Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
PERMA_0529
00020 Citrate cycle (TCA cycle)
PERMA_0529
00620 Pyruvate metabolism
PERMA_0529
00640 Propanoate metabolism
PERMA_0529
00650 Butanoate metabolism
PERMA_0529
Energy metabolism
00720 Carbon fixation pathways in prokaryotes
PERMA_0529
00680 Methane metabolism
PERMA_0529
Xenobiotics biodegradation and metabolism
00633 Nitrotoluene degradation
PERMA_0529
Enzymes [BR:pmx01000]
1. Oxidoreductases
1.2 Acting on the aldehyde or oxo group of donors
1.2.7 With an iron-sulfur protein as acceptor
1.2.7.1 pyruvate synthase
PERMA_0529
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| SSDB |
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| Motif |
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| Other DBs |
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| Position |
complement(479049..480242)
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| AA seq |
397 aa  
MAQTKVVALTGNQAAAEAMRQINFDIAAVYPISPQTELMGFFAEYVANGEVDTEMIAVDG
EHSAMATCIGAAAAGARTITASAGPGIAYMVENLYVASGMRVPIVLLDVNRALSAPLSIH
CDHADSMLTRDTGWISIFCENAQEAYHSIIMSVKISEKAMFPIIVNYDGYIVSHSIEDVE
ILDDETVRNFVGPSDIHRIPHPLLDIKNPVTYGATAQPDYYTECKYQQHVDFLKVYDVVR
EVFEEFGQIVGRKYDFIEEYKTEDAEYIGISMGSSFGTLKDTVDTLREQGKKVGAIKIRL
YRPFPVKEIAKALSNAKGVAVLDRADSFDGIGGPLFKDVASALLGTTNRPFVHNFIYGLG
GREVLEEDFIKAFNRLERLEKGIETRENFVEYLQVRE |
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| NT seq |
1194 nt  +upstreamnt +downstreamnt
atggctcaaacaaaagttgttgctttaacaggtaaccaggctgctgcagaggctatgaga
cagataaactttgatattgcagcagtttatcctatatcaccacagacagaacttatggga
ttttttgcagagtacgttgcaaacggtgaagttgacacagagatgatagctgttgatggt
gagcactcagctatggccacatgtataggggcagctgctgcaggtgcaagaacgataaca
gcatcagctggaccgggtatagcctatatggttgaaaacctttatgtcgcatctggaatg
agggtccctatagtattacttgatgttaacagagctctttctgcacctctctcaatccac
tgtgaccatgcagactcaatgcttacaagggatacaggctggatctcaatattctgtgaa
aacgcacaggaagcgtaccactcaatcatcatgtcagttaagatatctgaaaaggctatg
ttcccgataatagttaactatgatggatatatagtttcacactctattgaggatgttgag
atacttgatgatgagactgtaagaaactttgttggaccttctgatatacacagaattcct
cacccacttttagatatcaaaaatcctgtaacatacggagccacagcacaacctgactac
tacacagagtgtaaataccagcagcatgttgactttctaaaggtttacgatgttgttaga
gaggtttttgaggagtttggacagatagtaggaaggaagtatgactttatagaggagtat
aaaactgaggatgctgagtatataggaatttcaatgggatcttcatttggaacacttaaa
gatactgtagatacattaagagaacagggtaaaaaggttggagcaataaaaatcagactc
tacagacctttccctgtaaaagagatcgcaaaggctctctccaatgcaaaaggtgttgct
gttttagatagagccgactcatttgatggtattggcggtcctttattcaaggatgttgca
tctgcattacttggaacaacaaatagaccttttgttcacaactttatatacggcttaggt
ggaagagaggttcttgaagaggactttataaaggcatttaacaggcttgaacgccttgag
aaaggcatagaaacgagagaaaactttgttgaatacttacaagtgagggagtaa |
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