Entry |
|
Name |
(GenBank) pyruvate flavodoxin/ferredoxin oxidoreductase domain protein
|
KO |
K00169 | pyruvate ferredoxin oxidoreductase alpha subunit [EC:1.2.7.1] |
|
Organism |
mpl Methanosphaerula palustris
|
Pathway |
mpl01110 | Biosynthesis of secondary metabolites |
mpl01120 | Microbial metabolism in diverse environments |
mpl01210 | 2-Oxocarboxylic acid metabolism |
|
Module |
mpl_M00307 | Pyruvate oxidation, pyruvate => acetyl-CoA |
mpl_M00620 | Incomplete reductive citrate cycle, acetyl-CoA => oxoglutarate |
|
Brite |
KEGG Orthology (KO) [BR:mpl00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
Mpal_2014
00020 Citrate cycle (TCA cycle)
Mpal_2014
00620 Pyruvate metabolism
Mpal_2014
00640 Propanoate metabolism
Mpal_2014
00650 Butanoate metabolism
Mpal_2014
09102 Energy metabolism
00720 Other carbon fixation pathways
Mpal_2014
00680 Methane metabolism
Mpal_2014
09111 Xenobiotics biodegradation and metabolism
00633 Nitrotoluene degradation
Mpal_2014
Enzymes [BR:mpl01000]
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
Mpal_2014
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
complement(2137127..2138281)
|
AA seq |
384 aa
MLKILEGSIAVAEAVKQCRPQVIAAYPITPQTHIVEALADIVANGELDCEYITVESEFSA
LSACLGASAAGSRTYSATTSQGLALMFEVCFNVAGLRLPIVMTIANRALGAPLSIWNDQQ
DSISLRDSGWLQFYAEDNQEATDLHYIAYRVAEHHDVLLPAFVCFDGFILSHTYEPVDML
SQEDADRFMKPFDPLYRLDAAAPVSMGMYATPEYYLEFRYEHDQAQHRAKKIIAEVGREF
GELFGRDYSALVEGYRLEDAEVALVAMGSLCGTTKDAIDEMRAAGKKVGLLKIRTFRPFP
TEEVAAALKHVQTVAVLDKNISLGAKGAVALEVKDALYNSGVRVFDYILGLGGRDVRKRD
IAAIVELAESGKGDLFYGLRTEVL |
NT seq |
1155 nt +upstreamnt +downstreamnt
atgttaaaaattctggaaggatcgattgccgttgcagaggcggtcaagcagtgcagaccg
caggtgatcgccgcctatccgatcacgccgcagacgcatatcgtcgaggcgctggcagat
atcgtcgcgaacggagaactcgactgcgaatacatcactgttgagagcgagttctcagcg
ctctcggcctgtctcggtgcgagcgctgccggctcccggacctactctgcgaccacctcc
caggggctggccctgatgttcgaggtctgcttcaacgtggccggtctccggctcccgatc
gtgatgacgatcgcgaaccgtgcgctcggcgccccgctctcgatctggaacgatcagcag
gactcgatctctctgcgtgattctggctggcttcagttctatgcagaggataaccaggag
gcgacagatctccattatatcgcataccgcgtcgccgagcaccacgatgtgctcctcccg
gcgttcgtctgctttgacgggttcatcctctcccacacctacgagccggtcgatatgctc
tcccaggaggacgccgaccggttcatgaagccgttcgatccgctgtaccggctcgacgct
gccgccccggtcagtatggggatgtatgcgacgcctgaatattatctcgagttcaggtac
gagcacgaccaggcccagcaccgggccaagaagatcattgcagaggtcgggcgcgagttt
ggtgaactcttcggcagggactacagtgccctggtcgaggggtaccggcttgaggacgct
gaggtggcgctggtcgcgatgggttcgctctgcggcaccaccaaggatgcgatcgacgag
atgcgggcggccggcaagaaggtcgggctgttgaagatccggacgttccggccgttcccg
accgaggaggttgcggcagcgctcaagcatgtccagaccgtcgcggtcctcgacaagaac
atctcgctcggagccaagggcgcggtcgcccttgaggtgaaggacgcgctctacaactcg
ggggtccgggtcttcgactatatcctcgggcttggtggacgggatgtccgcaagcgggac
atcgctgcaatcgttgaacttgccgagtccggaaaaggggacctgttctatggtctccgc
acggaggtgctctaa |