ggKbase | features

Top 3 Functional Annotations

Value	Algorithm	Source
Phosphoenolpyruvate carboxylase n=1 Tax=Leptospirillum ferrodiazotrophum RepID=C6HVN3_9BACT (db=UNIREF evalue=3.0e-138 bit_score=495.0 identity=46.32 coverage=99.003984063745)	similarity	UNIREF DB: UNIREF
Identity: 46.32 Coverage: 99.0 Bit_score: 495 Evalue 3.00e-138
phosphoenolpyruvate carboxylase	rbh	KEGG DB: KEGG
Identity: 45.3 Coverage: 506.0 Bit_score: 465 Evalue 1.50e-128
phosphoenolpyruvate carboxylase	similarity	KEGG DB: KEGG
Identity: 45.3 Coverage: 506.0 Bit_score: 465 Evalue 1.50e-128

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Notes

PEP + HCO3 to OAA + Pi Together you can bypass pyruvate kinase with malic enzyme and PEP carboxylase Used for fermentative aa synthesis to get lysine/threonine from OAA in Cornybacterium glutamicum Part of PEP-pyruvate-OAA node- highly relevant switch for carbon flux distribution in central metabolism. Archaea have a different amino acid structure than bacteria nad plants. (Sauer, 2005) kelly wrighton (11/15/12)

Taxonomy

Sequences

DNA sequence

Length: 1506

ATGACAGGCAAAATTCCCTCAACAATGGCAACCCAGCACCCGGATCATGCCGGGGTCCCTTATTGGCACAATGAAGCATATATTTCCACCCAGTTTGAATCAAAAGAAGTTTATTTATCATTTTCCGAACTTGGGATTGAAGAATACAAATGGGATTGGGAAGGAAAATTAGTGGATGAATCTATCTTAGAAAGGCTTTTTAGTAATTATTTTAAGTTCTTTAAGAAAAACCCCCTGGGCTTAAAAACTTATTTGACTTTTAGGTTGCCAAATCCCAAAGTGGAAACAGAATTCCGGATAGGCAGGGCTTTTATGAATCTGGCCTCTGCAGCTTCGGAAGCCCAGCATTTTAACCTACCCACCCCTCCTTTATTTGAGGTCATTCTGCCGATGACCACTTCCGCCGAAGAAATGATTTATATACAGGAAGGCTATCAGCAAATGCATAAGTTAACCCATCCTGTCTATCGGCTTTGGGGGATTTTATCAAACCCCCGGGTCATCCCCTTGTTTGAAGATGTGCCGACTATTATTTCATCAGACAAAATATTGGAAAAATACTTGAGTATTCATAAAAAAATGTTTAAAAAATTGCCGCCTTACATGCGGCCTTATGTGGCCCGGTCTGATCCTGCCTTAAATTTTGGGATTATTCCCACGGTTTTGGCTATTAAAATCGCCCTTTCCAGATATGCAAAACTTGAAAGCAGGATTAATATCCCTCTTTACCCCATAATAGGAGCAGCTGCTTTACCATTCCGGGGAGGCTTAAACCCGTTAAATGTCAAAAAGTTTATCAATGAATACGCCGGGATTAGGACCACCACAATTCAGTCTGCATTCCGGTATGATTTTGAAAAAGAAACAGTTAAAAAAGCAATTTTGACCTTAAATAAATTACTCCCAAAATCCAAAGCAGTTAAAATACCCGAAGATGAAGAAAATTCCCTGCAAAACATTTTTCCTGTTTTTGAAAAATACTACAAAGAAGTAATAGAAAAAATAAGCCCTCTTGTCAATAAGGTGGCTGCATTTATACCAAAGCGGCGGGAAAGGGTACAGCATACAGGTTTGTACGGCTACTCAAGGAGCGTAGGCAAAGTAAAACTCCCAAGAGCTATCACTTTCACCGCTTCTTTTTATTCTTTAGGCGTGCCTCCTGAACTGATCGGAAGCGGCAGAGGACTTATATGGGCAAAAAAGTCGGGGAATTTCAATATCATTAAAAAATATTATAAATATTTAAAAGAAGACCTTGTGGAAGCAGGAAGATACTTAAATAAACAGAATTTAGTAAATTTAAGCAGGCAATCTAGAGCCTGGAAAAAAGTTTTAGAAGATGTGGAAAGTATAGAAGAAATATTTGGCATTACTTTAGGACCCCAAAACGTAAATGAGCATAAACACCGGAATCTGACCGGAAAGATTTTTAACTGCATTAAAAATGCAGAAGATCCGACAAAATATATTTTAAAAGCTGCCCTGCTTAGAAAAAGTTTAGGGTGA

PROTEIN sequence

Length: 502

MTGKIPSTMATQHPDHAGVPYWHNEAYISTQFESKEVYLSFSELGIEEYKWDWEGKLVDESILERLFSNYFKFFKKNPLGLKTYLTFRLPNPKVETEFRIGRAFMNLASAASEAQHFNLPTPPLFEVILPMTTSAEEMIYIQEGYQQMHKLTHPVYRLWGILSNPRVIPLFEDVPTIISSDKILEKYLSIHKKMFKKLPPYMRPYVARSDPALNFGIIPTVLAIKIALSRYAKLESRINIPLYPIIGAAALPFRGGLNPLNVKKFINEYAGIRTTTIQSAFRYDFEKETVKKAILTLNKLLPKSKAVKIPEDEENSLQNIFPVFEKYYKEVIEKISPLVNKVAAFIPKRRERVQHTGLYGYSRSVGKVKLPRAITFTASFYSLGVPPELIGSGRGLIWAKKSGNFNIIKKYYKYLKEDLVEAGRYLNKQNLVNLSRQSRAWKKVLEDVESIEEIFGITLGPQNVNEHKHRNLTGKIFNCIKNAEDPTKYILKAALLRKSLG*

ACD38_15_16

Organism: ACD38

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

ACD38_15_16

Organism: ACD38

Top 3 Functional Annotations

Lists

Notes

Taxonomy

Sequences

DNA sequence

PROTEIN sequence

Processing

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