| Entry |
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| Name |
(GenBank) acetate/CoA ligase
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| KO |
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| Organism |
mpi Methanolacinia petrolearia
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| Pathway |
| mpi00630 | Glyoxylate and dicarboxylate metabolism |
| mpi01110 | Biosynthesis of secondary metabolites |
| mpi01120 | Microbial metabolism in diverse environments |
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| Brite |
KEGG Orthology (KO) [BR:mpi00001]
09100 Metabolism
09101 Carbohydrate metabolism
00010 Glycolysis / Gluconeogenesis
Mpet_2627
00620 Pyruvate metabolism
Mpet_2627
00630 Glyoxylate and dicarboxylate metabolism
Mpet_2627
00640 Propanoate metabolism
Mpet_2627
09102 Energy metabolism
00720 Other carbon fixation pathways
Mpet_2627
00680 Methane metabolism
Mpet_2627
09180 Brite Hierarchies
09181 Protein families: metabolism
01004 Lipid biosynthesis proteins [BR:mpi01004]
Mpet_2627
Enzymes [BR:mpi01000]
6. Ligases
6.2 Forming carbon-sulfur bonds
6.2.1 Acid-thiol ligases
6.2.1.1 acetate---CoA ligase
Mpet_2627
Lipid biosynthesis proteins [BR:mpi01004]
Acyl-CoA ligase
Short/medium chain acyl-CoA ligase
Mpet_2627
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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 |
2637517..2639481
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| AA seq |
654 aa
MSIRGSTDSVLLFYTINYVEYQRRYDTITSQEKTNLSHGYIPAEEYREMSNLGNYQTAYE
RFLKDPEKFWSEIASELEWFKEWDQILEWNYPNAKWFTGAKCNITHNCLDRHLNTEKRNK
VALIWRGDDGSERIITYRQLFREVCRFANGLKSLGARKGDRICIYMPNTPEQIIAILACA
RIGAVHNVVFAGFGMESLHSRIRDSESRFVITSDASFRRGKRIDLKSIVDRAIVHTSVEK
VIVHRRTRPRTELYSEIEIDFYDLMKERNYFIEPEVMDSEDPLFILYTSGTTGTAKGILH
TCGGYMVGTYYTCKYVLDMKPSDVHWCTADPGWITGHSYIIYGPLLFGTTLLISETTPDY
PDPGVWWDMVEDFGVTILYTAPTAIRMFMRHGEKWPEKYNLDSLRILASVGEPLNPEAFE
WYYKVIGKSRTPIVDTWWQTETGMHMVTTLVGEKMKPGYAGKAIPGVVADVVDKEGNSKK
AGETGILVIKGPWPSMMRSVWGNDERYRQYWTQIKDYYVVGDLAVKDDDGYIQIIGRSDD
VIIIAGHNLGTAEVESALVEHEAVAEAAVIGIPDPVKGNIIKAFVILIDGYSGSEKLANE
LTYHVRMTLGPIAMPAEIKFVESLPKTRSGKIMRRVLKAQEMGEDPGDLSTMEE |
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| NT seq |
1965 nt +upstreamnt +downstreamnt
ttgtcgatacgtggttcgaccgacagtgttttattattttacactattaattatgtagaa
tatcaaaggaggtatgataccataaccagtcaggaaaaaacaaatctcagccatggatat
atccctgcggaagaataccgggaaatgtccaatttgggcaactaccagactgcctatgag
agatttttgaaagatccggaaaaattctggtctgagatagcatcagagcttgaatggttc
aaagaatgggaccagattcttgaatggaactatccgaatgcaaaatggttcacaggtgca
aaatgcaatatcacgcacaactgccttgacaggcacttaaatacagagaaaagaaacaaa
gtggctctcatatggagaggtgatgacggcagcgaaaggatcattacctaccggcagttg
ttcagggaggtatgcaggtttgcaaacggcctgaaaagtctcggcgcccgtaaaggggac
cggatctgcatatacatgccgaatacaccggaacagatcattgcaatacttgcatgcgca
agaataggcgcggtccacaacgttgtatttgccggattcgggatggagtcactgcattca
aggatcagggattcggaatcgagatttgtcattacatccgatgccagtttcaggagaggc
aaaagaatcgatctcaaatcgatagttgacagggcgatagtccacacatcggttgaaaag
gtcatcgtccacaggcggaccaggccacggaccgaactctactctgaaattgagatcgat
ttctacgatctcatgaaggagaggaattacttcatcgaacccgaggtcatggactccgaa
gacccgctgtttattctctatacaagcggaacgacaggcacggcaaagggtatccttcat
acctgcggcggctacatggtcggaacatattacacatgcaagtatgtcctcgatatgaaa
cccagcgatgtccactggtgtactgccgatcccggatggattacaggacacagctacatc
atatacggccccctgctgttcggaacaaccctgcttatcagcgagacaacaccagactat
cccgatccgggagtctggtgggatatggtagaggacttcggcgtcacgatcctctataca
gcaccgactgcaatcaggatgttcatgagacacggtgagaagtggcctgaaaaatataat
ctcgactccctgaggatactcgcatctgtcggggaaccgctcaatcccgaggcattcgaa
tggtattacaaagttatcgggaagagcaggacgccgatcgtcgatacatggtggcagacc
gaaaccggaatgcacatggtcacaacactcgtcggcgaaaagatgaaacccggatatgca
ggaaaagcgatccccggcgttgtcgccgatgtcgttgacaaagaaggaaattcaaagaag
gcaggagaaacaggcattctcgtcataaaagggccgtggccttcgatgatgagaagcgta
tggggtaatgatgaaagatacaggcaatactggacgcagataaaggactattatgtagta
ggcgatcttgcggtaaaggacgatgacggatatatccagatcataggaagatctgacgac
gtcataataatcgcaggccacaacctcggcactgcagaggtcgaatccgctcttgtagag
catgaggctgttgccgaagccgccgttatcggcattccggaccctgtaaaaggcaacatc
atcaaggccttcgtaatcctgatcgacggatacagcgggagtgaaaagcttgcgaacgaa
cttacataccatgtaaggatgacgctcggccctattgcaatgccggccgagattaaattc
gtcgaatctcttccgaaaacaaggagcggaaagatcatgagacgtgtcctcaaggcccag
gagatgggagaggacccgggtgatctctccacaatggaagaataa |
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