| Entry |
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| Symbol |
oforA
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| Name |
(GenBank) probable 2-oxoacid ferredoxin oxidoreductase, alpha subunit
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| KO |
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| Organism |
dps Desulfotalea psychrophila
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| Pathway |
| dps01110 | Biosynthesis of secondary metabolites |
| dps01120 | Microbial metabolism in diverse environments |
| dps01210 | 2-Oxocarboxylic acid metabolism |
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| Module |
| dps_M00011 | Citrate cycle, second carbon oxidation, 2-oxoglutarate => oxaloacetate |
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| Brite |
KEGG Orthology (KO) [BR:dps00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
DP2103 (oforA)
00020 Citrate cycle (TCA cycle)
DP2103 (oforA)
00620 Pyruvate metabolism
DP2103 (oforA)
00650 Butanoate metabolism
DP2103 (oforA)
09102 Energy metabolism
00720 Other carbon fixation pathways
DP2103 (oforA)
Enzymes [BR:dps01000]
1. Oxidoreductases
1.2 Acting on the aldehyde or oxo group of donors
1.2.7 With an iron-sulfur protein as acceptor
1.2.7.3 2-oxoglutarate synthase
DP2103 (oforA)
1.2.7.11 2-oxoacid oxidoreductase (ferredoxin)
DP2103 (oforA)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
complement(2395223..2396923)
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| AA seq |
566 aa
MGGVKGFTLVLGGEAGQGIQFLEKALLHIVKESGLYVFATKEYMSRVRGGINTTEIRISS
EPVRAHVDVIDLLIPLKNGVIEHLGSRVTKSTTIVGSREHIGGRDTEIDFAATAKKHGNQ
LYTNSVALGFLCGLLDFDSANLYKEIRDTFSLKSEGIIAGNIDAAEEGYKIGMASHSRLL
TSGRPTPAKNRSLQENLLLNGADAVALGAMAGGCNAAFAYPMTPGTSVFLTLAEFSKQAD
IVVEQVEDEIGVINMAIGSWYAGGRAIVSTSGGGFALMTEGISLAGMTETPVVVHLAQRP
GPATGLPTRTEQGDLNLVLYAGHGEFARLILAPGTLEQAFEYTRLAFNLADRFQIPVFVL
TDQFFVDSYYPIAHPDAGQVQIESAVIKTDDSYKRYQLSEDGVSPRGIPGYGSGNVCLDS
DEHDEDGKITEDLDGIHLAMADNRLKKLETLTKAAMLPELVGEPDYATLIIGWGSTYGAI
CEALQIIGSGKVSFLFCPQLYPLSEKIAEYIDGAQKVVVVENNQLGQFADFLQRELGRLF
PHRILKYNGMPFSVEELVQSITEEMI |
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| NT seq |
1701 nt +upstreamnt +downstreamnt
atgggtggagtcaaaggttttacccttgttttgggcggcgaagcgggtcaaggaattcaa
ttcctagaaaaggccctgctacatattgtcaaagaaagtggtttgtatgtttttgctact
aaagaatatatgtcccgggtacggggaggaataaataccacagaaataagaatttcttcc
gagccagttcgtgcccatgtggatgtgatagatcttctcattccactgaaaaatggtgtt
atagaacatcttggtagcagggttaccaaatcaaccacaatagtaggtagccgtgagcat
atcggcggtcgtgacactgaaatcgattttgcagcaacagccaaaaaacatggtaatcaa
ctgtacaccaattctgtagccttaggttttctctgtggtctgctcgatttcgattctgct
aatttgtataaagagatcagagacactttttccctcaaatcagaagggattattgctggc
aatatagacgctgccgaagaggggtataagattggcatggcctctcattcaagactattg
actagtgggcgaccaactcccgccaaaaacagatcattgcaagagaacctactcctcaat
ggtgctgatgcagtggcacttggtgctatggcaggagggtgtaatgctgcatttgcctat
ccaatgacaccgggtacatcagtttttttaacactggccgaattttccaagcaggcagac
attgttgtggaacaggtggaagatgaaatcggggtgattaatatggccataggctcctgg
tatgcaggtggtcgtgccattgtctctacttcaggtggtggttttgccttgatgaccgag
ggaatttctcttgccggcatgacagaaactcccgttgtggtgcatttggcgcaacgtcca
gggcctgcaacagggttaccaacaagaaccgagcaaggtgacctgaatctggtcttgtat
gcaggacatggggaatttgccagacttattctcgcacccggcacccttgaacaggccttt
gagtatacgcgacttgccttcaaccttgcagatcgttttcaaataccagtttttgtctta
acggatcaattctttgtggatagttattaccctattgctcatccggatgcagggcaggtg
cagattgaatccgcagtgattaaaaccgatgatagctataagagataccaactaagcgaa
gatggtgtttcaccacgcggcatacccggatatggttctggcaatgtctgtttagactca
gacgagcatgatgaagatggtaaaatcacagaagaccttgatgggatacatctggcaatg
gcagataatcggctgaaaaagctagaaactcttacaaaagcggccatgctaccagagctg
gtgggtgaacctgactatgcaaccttgatcattggttggggctcgacctacggggcaatt
tgtgaggctcttcagattattggtagtggcaaggtatcttttctgttttgcccgcaactc
tatccgctctctgagaaaattgctgagtatatagatggtgcgcaaaaggtggtggtggtg
gagaataatcagctaggccaatttgcagattttctgcaaagagaactgggcaggctcttt
cctcatcgcatactaaaatataatggcatgccgttctcagttgaagaacttgtccagagc
attacggaggagatgatatga |
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