| Entry |
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| Symbol |
nifJ1
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| Name |
(GenBank) pyruvate-flavodoxin oxidoreductase NifJ
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| KO |
| K03737 | pyruvate-ferredoxin/flavodoxin oxidoreductase [EC:1.2.7.1 1.2.7.-] |
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| Organism |
tki Thermoanaerobacter kivui
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| Pathway |
| tki01110 | Biosynthesis of secondary metabolites |
| tki01120 | Microbial metabolism in diverse environments |
| tki01210 | 2-Oxocarboxylic acid metabolism |
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| Module |
| tki_M00307 | Pyruvate oxidation, pyruvate => acetyl-CoA |
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| Brite |
KEGG Orthology (KO) [BR:tki00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
TKV_c04340 (nifJ1)
00020 Citrate cycle (TCA cycle)
TKV_c04340 (nifJ1)
00620 Pyruvate metabolism
TKV_c04340 (nifJ1)
00650 Butanoate metabolism
TKV_c04340 (nifJ1)
09102 Energy metabolism
00720 Other carbon fixation pathways
TKV_c04340 (nifJ1)
Enzymes [BR:tki01000]
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
TKV_c04340 (nifJ1)
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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(425727..429254)
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| AA seq |
1175 aa
MAKVMKTMDGNTAAAHVAYAFTEVAAIYPITPSSPMAELIDQWSAHGRKNIFGQPVKVIE
MQSEAGAAGAVHGSLAAGALTTTFTASQGLLLMIPNMYKIAGELLPGVFHVSARAVATHA
LSIFGDHSDVMACRQTGFAMLASGSVQEVMDLASVAHLSAIKGRVPFLHFFDGFRTSHEV
QKIEVLDYEDLKKLVDYDALKAFRERALNPERPVIRGTAQNPDIFFQGREAANRFYNALP
EVVEYYMNEISKLTGREYKLFNYYGAPDAERIIIAMGSVTETIEETVDYLMKKGEKVGVV
KVHLYRPFSIKHFLDVIPKTVKKIAVLDRTKEPGSIGEPLYEDVKTAFFDSELRPVIVGG
RYGLGSKDTTPAQIIAVFDNLKADEPKDHFTIGIIDDVTFTSLPVGEEVDTTPEGTTSCK
FWGFGSDGTVGANKSAIKIIGDNTDLYVQAYFSYDSKKSGGVTVSHLRFGKKLIRSTYLI
NKADFIACHKQSYVYNYDILAGLKDGGTFLLNCNWKVEELDKKLPASIKRYLAKHNINFY
IINAVDIAKEIGLGGRINMIMQSAFFKLTNIIPIEEAVKHLKEAIVKEYGHKGEKIVQMN
YEAVDRGINSLVKVEVPASWADAEDEPKEERQAPDFVKNVADVMNRLEGDKLPVSAFLGR
EDGTFPPGTAAYEKRGIAVDVPEWQIDNCIQCNQCAFVCPHAAIRPFLLTEEEVKNAPEG
FKVKKAIGKGFEGLYYRIQVSVLDCTGCGVCVNECPAKEKALVMKPLEIQMEEAKNWEYA
MTLSPKENPMNKETVKGSQFERPLLEFSGACAGCGETPYAKLVTQLFGDRMMIANATGCS
SIWGASAPSTPYCTNHEGKGPAWANSLFEDNAEFGLGMALAVKQQRAKLADIVKELLELN
ITAELKEALQFWLDNMMDGKKSKEATIKLLPILQNYKAEDAKVKELINKVLERKDYLIKK
SQWIFGGDGWAYDIGYGGLDHVLASGEDINVLVFDTEVYSNTGGQSSKATPVGAVAQFAA
AGKPIGKKDLGRMAMTYGYVYVAQVAMGASQTQLVKALVEAESYPGPSLIIAYAPCIAHG
IKQGMSCSQLEEKKAVEAGYWVLYRYNPLLKKEGKNPFILDSKPPKLSVQDFLKGEVRFS
ALEKTFPERAQKLFEEAEKQAQERYKIYEKLAKDE |
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| NT seq |
3528 nt +upstreamnt +downstreamnt
atggctaaggtaatgaagaccatggacggtaacacagctgctgcccatgtagcttatgct
tttacggaagtagcagcaatttaccccataactccatcgtctccaatggccgaacttata
gaccaatggagtgctcatggaagaaagaacatatttggtcaaccagtaaaagtcattgaa
atgcaatcagaagcaggtgctgcaggtgctgttcacggatcactggcagcaggagcccta
acaacgacatttactgcatcacaaggacttcttttaatgattcccaacatgtacaaaatt
gcaggagaacttttgcctggagtattccatgtaagtgcacgtgccgttgcaacacatgct
ctttcaattttcggtgaccattctgacgttatggcatgccgtcagacaggttttgctatg
cttgcttctggcagtgtacaggaagtaatggatttagcaagcgtcgcacacctttctgca
attaaaggaagagtacccttcttgcacttctttgacggatttagaacatctcacgaagtg
caaaaaattgaagttttagattatgaagatttaaagaagcttgtagattatgatgcctta
aaagctttcagagaaagggcattaaatccagaacgtcctgtgataagaggtacagctcaa
aatcctgatatattcttccaagggagagaagccgccaataggttctacaacgcattacct
gaggttgtagaatattatatgaatgaaataagcaaattgacaggcagagaatataagtta
ttcaactactacggagcaccagatgcagaaagaataataattgcaatgggttctgtaaca
gaaactattgaagaaacagtagattacttgatgaaaaaaggagaaaaagtaggtgtcgta
aaagtacatctttataggcctttctctataaaacatttcttagatgtaataccaaagact
gttaagaagatagctgtactcgatagaacaaaagaaccaggttcaattggtgaacctttg
tatgaagatgtaaaaacagctttctttgacagcgaattgcgtccagtaattgttggtggt
cgttatggtcttggttcaaaagatactacacctgcacaaatcattgctgtatttgacaac
ctcaaagctgatgaaccaaaagaccacttcacaataggaataattgatgacgtgaccttt
acatcacttcctgtaggagaagaagtcgatacaacaccagaagggacaaccagctgcaaa
ttctggggatttggttctgatggtacagttggtgcaaataagagcgctataaagatcata
ggtgacaacacagatttatacgtgcaagcatatttctcttatgactcaaagaaatcaggc
ggtgtaacagtatctcatttaagatttggcaaaaagctaataaggtcaacatatttgata
aacaaagcagactttatcgcttgtcataagcaatcttatgtttacaattatgacatattg
gcaggattaaaagatggcggtactttccttctaaactgcaattggaaagttgaagaatta
gacaaaaaattgcctgcttcaattaaaagatatttagctaaacataacattaacttctac
atcatcaacgctgtagacatcgcaaaagaaatagggttaggcggaagaattaacatgata
atgcaatccgctttcttcaagcttacaaacataataccaattgaagaggcagtaaaacac
ttaaaagaagctatcgtaaaagaatacggacataaaggcgaaaagatagtacagatgaac
tacgaagctgtagatagaggtataaattctttagtcaaagtagaagtacctgcttcttgg
gcagacgctgaagatgagccaaaagaagaaagacaagcacctgattttgttaaaaatgtt
gccgatgtaatgaatagattggaaggagacaagcttcctgtaagtgccttcctcgggaga
gaagatggtaccttcccaccaggtactgcagcttatgaaaaacgcggaattgctgttgac
gtacctgagtggcaaatagataattgtatacagtgtaatcaatgtgcctttgtatgtcca
catgctgcaataagaccctttttgctcacagaagaggaagtcaagaacgcaccagaagga
tttaaagttaaaaaggctattggaaaaggctttgaaggattgtactacagaattcaagtc
agtgtccttgactgtacaggttgcggcgtttgcgtaaatgagtgtcctgcaaaagaaaaa
gcacttgtaatgaagcctttagaaatacaaatggaagaagcaaagaactgggaatacgca
atgactttatcaccaaaagaaaacccaatgaacaaagaaacagtaaaaggaagccagttc
gaaaggccactgcttgaattctctggcgcttgcgcaggatgtggtgagacgccttatgct
aaactggtaacccaactgttcggcgatagaatgatgattgcaaacgctacaggttgttcc
tcaatttggggagctagtgcaccatccacaccttactgcacaaaccatgaaggaaaagga
cctgcatgggcgaactccctttttgaagacaacgcagaatttggtcttggcatggcatta
gctgtaaaacaacaaagagcaaaattagctgatatagtaaaagaactgttggagcttaac
atcacagcagagctaaaagaagcattgcaattctggcttgacaacatgatggacggcaaa
aaatcaaaagaagccacaattaaactgttaccaatacttcaaaactacaaagcagaagac
gcaaaagtaaaagagcttattaataaagtacttgaaagaaaagattacctcatcaagaag
tctcaatggatatttggtggcgacggttgggcatacgatataggttatggcggattagat
catgtacttgcttcgggagaagatataaacgtcttggtattcgatacagaagtttattca
aatacaggtggacaatcttcaaaggcaacaccagtaggtgcagtagcacaatttgcagca
gcaggtaaaccaattggcaagaaagacctaggaaggatggcaatgacatacggatatgta
tatgtagcacaagttgcaatgggagcaagccaaactcaattagtgaaggcattagtagaa
gctgaaagctatccagggccatctctcatcattgcctatgctccatgtattgctcacggc
ataaaacaaggtatgagctgcagccaattagaagaaaagaaagctgtagaagcaggatat
tgggttctctatagatacaatccgcttctcaagaaagaaggaaagaatccattcatcctt
gattctaagccaccaaaactatcagtacaagacttcttaaaaggagaagtaagattctca
gcattagaaaagaccttcccagaaagagcacaaaaactctttgaagaagctgaaaaacaa
gctcaagaaaggtacaaaatctacgaaaaattagcaaaagatgaataa |
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