KEGG   Shewanella mangrovisoli: K0H60_09250
Entry
K0H60_09250       CDS       T09316                                 
Name
(GenBank) NAD-glutamate dehydrogenase
  KO
K15371  glutamate dehydrogenase [EC:1.4.1.2]
Organism
smay  Shewanella mangrovisoli
Pathway
smay00220  Arginine biosynthesis
smay00250  Alanine, aspartate and glutamate metabolism
smay00430  Taurine and hypotaurine metabolism
smay00910  Nitrogen metabolism
smay01100  Metabolic pathways
smay01120  Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:smay00001]
 09100 Metabolism
  09102 Energy metabolism
   00910 Nitrogen metabolism
    K0H60_09250
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    K0H60_09250
   00220 Arginine biosynthesis
    K0H60_09250
  09106 Metabolism of other amino acids
   00430 Taurine and hypotaurine metabolism
    K0H60_09250
Enzymes [BR:smay01000]
 1. Oxidoreductases
  1.4  Acting on the CH-NH2 group of donors
   1.4.1  With NAD+ or NADP+ as acceptor
    1.4.1.2  glutamate dehydrogenase
     K0H60_09250
SSDB
Motif
Pfam: Bac_GDH_CD GDH_C GDH_ACT1 GDH_ACT2 GDH_ACT3 GDH_HM3 GDH_HM1 GDH_HM2 ELFV_dehydrog
Other DBs
NCBI-ProteinID: QYK10830
LinkDB
Position
2090664..2095508
AA seq 1614 aa
MALKDAMPSVLLENVVSLIHAKVPNSQAKQVEQFANCLYAHMSKDDLNARNDSDLYGAVL
SLWNALNKTPKGETHLRVFNPSQSKHGWQSTHSIIEVIQPDMPFLVDSVGMALNRMGITA
HMMLHTPLAIERSAQDVTKVTYLNQSPDSTEHVAVFLIEIDRQSSSVDIKALEREIQSVL
GDVAASVNDWSAMSAKLSETIKELPKRPFPGEKQELEEAINFLTYLNNHHFTLLGYRQYD
LKRVEGDVELVPNMASSLGLMNKHHKTQPEQGLLLSSFSDSARKEALDHSLLILTKSSAK
SRVHRPAYVDYIGIKRFDKKGNVVGEDRFIGLYASNVYNRSPREIPLLNEKVQRVLDRSG
LTPRSHDYKALLNILENLPRDELIQANVDDLAHTAHGVLEMQDRDKLKLFVRKDGFGRFL
SCLVYVSKDRYNTKLRQDTQRILAQHFNSKEDVEFTTYFSESTLARTHYIVKVDNNNMDV
DVAAIENNLIEAARSWEDKLNTALNTALGEEAGTHLMKRYANAFEQSYKEDVLPSSAVVD
MQQLEALDDEHKLGMLFYQPQEAALNDNKVRLKLFHKDEPIHLSDVLPMLENFGLRVINE
RPYEVTTSDGSTFWILDFLMTVKVTNTDNIADSQDRFQTALSQVWQKKLEDDGFNRIILA
SGLTGREVSVLRAYAKYMRQIDATFSQAYIEETFGRYPQIADLLVKMFIRKFNPKLKTRT
LGKFMEQINLRLDEVSSLDDDRIIRRYLDLINATLRTNFYQLDAKGESKSYISFKFMPSL
IPEMPRPLPKFEIFVYSPRVEGVHLRYGKVARGGLRWSDRREDFRTEVLGLVKAQQVKNT
VIVPVGAKGGFVCKQLPTEGGREAFFTEGQECYRIFIRALLDITDNIVNGEIVHPVDVVR
HDEDDPYLVVAADKGTATFSDIANAISQEYNFWLGDAFASGGSNGYDHKKMGITARGGWE
SVKRHFREVGIDCQTTDFTCLGIGDMAGDVFGNGMLLSKHTKLVAAFNHMHIFVDPNPDT
AASYEERARLFALPRSTWEDYNSKLISKGGGIFLRSSKSIPLSAEMKQMLETEKTSMTPT
ELMKELLKMPVDLIWNGGIGTYVKSARETHAEVGDRANDALRVNGRELRAKIVGEGGNLG
CTQLGRIEYAANGGRINTDFVDNVGGVDCSDNEVNIKILLNALVAEGELTLKQRNRLLEE
MTEEVGQIVLQDCKDQTRTISVTQVRGAEQLKEQIRFIQYLEKEGKLDRALEFLPSEEEL
AERLANGRALTRPELSVLVAYAKMVLKEQLLTQEITEDTLLSQLLIAYFPKQLQELYSHR
MVTHPLRGEIIATSLANELVNDMGLNFVQRMQDETGASVADAAICYTMAREVFGLAELTK
AITDLNGIVPAVVQGEMLHQLRRNMRRACRWFLRHRNRTWSIEQTVAFFKPVFEQIKANV
HSYLVEEEAAGIQAEINALIKENVPHEVATVVANMSTLFSALDIAQIAQAEEKTVELVAE
TYFKLGARVELHWFLEQISAQPVANHWQALARAAFREELDWQQRALTSVVLRTCSATCDA
QSVISQWIDTNQALLERWFHMLADFKTSQSHEFAKFSVALRELNLLILHCEGHK
NT seq 4845 nt   +upstreamnt  +downstreamnt
atggccttgaaagatgcaatgccttcagtactacttgaaaatgtagtcagtttaattcac
gctaaagtccctaattcacaagccaagcaagttgaacagttcgcgaactgcctttatgcc
cacatgtcgaaagacgatctcaatgcgcgtaacgacagcgacctgtatggtgcggttctc
agtttatggaatgcactaaacaaaaccccgaaaggggagactcacctcagagtattcaat
ccaagtcagtcaaaacacggctggcaatcaactcattcgatcattgaagttatccaacct
gacatgccattcttggtagattcagttggtatggcattgaatcgtatgggtattacggct
cacatgatgttacacactccgctggcgattgagcgttcagcccaggatgtaaccaaagtc
acgtacctgaatcaaagccctgacagcactgaacacgttgccgttttcctgattgaaatc
gaccgtcaaagcagcagtgtggatatcaaagcccttgagcgcgaaatccaatctgtgctg
ggtgatgtggctgcatcagtcaacgactggagcgcgatgtcagctaagctgagtgagacc
attaaagagttacctaagcgtccattccccggtgagaagcaagagttagaagaagcaatt
aacttcttaacttatcttaataatcatcactttaccttactgggttaccgtcaatacgat
ttaaaacgcgttgaaggcgacgtcgagctagtgccgaatatggcctctagtttaggctta
atgaataagcaccataaaactcagccagagcaaggtttgttattatcaagcttctctgac
agtgcccgtaaagaagccttagaccacagtttactgatcctgaccaagagcagcgccaag
agccgcgtgcaccgtcctgcctatgtggactatatcggtatcaaacgcttcgacaagaaa
ggcaatgtggtcggtgaagacagattcatcggtttgtacgcctcaaacgtgtataaccgc
agcccacgtgagatcccactgctgaacgaaaaagttcagcgcgtattagaccgttcaggt
ttaacgccacgttctcacgactataaagccctgctgaacattctcgaaaacctgccgcgc
gatgagctaatccaagccaatgtggatgatttagcacacacggcgcacggtgtgctcgag
atgcaagacagggacaaactgaaactctttgttcgcaaagatggtttcggtcgtttctta
tcctgtttagtgtacgtttcaaaagaccgttacaacactaaacttcgccaagatacccaa
cgtattctggctcagcatttcaacagcaaagaagatgtagagtttacgacgtatttctcc
gagtcaaccctggcccgtactcactacattgtcaaagttgataacaataatatggatgta
gatgtggctgccattgaaaacaatttaattgaagcggcacgctcgtgggaagataagtta
aataccgcgctaaacactgccttaggtgaagaagccggtactcatctgatgaagcgttac
gctaacgccttcgaacaaagctataaagaagacgtattaccaagctctgccgttgtagat
atgcaacagcttgaagcgctggatgacgaacacaagttaggcatgttgttctatcaaccg
caggaagcggcgttgaacgacaacaaagtgcgtttaaaactgttccataaagatgagcca
atccatctttctgacgtactgccgatgctggaaaactttggtctgcgcgtgatcaacgag
cgcccatacgaagtgaccacttcagacggttctaccttctggatcttagacttcttaatg
acggttaaagtcactaatactgacaatatcgccgatagccaagacagattccaaactgca
ctctctcaagtgtggcaaaagaaattagaagatgacggttttaaccgcatcattctggcg
tcaggtttaactggtcgtgaagtgtcagtactgcgtgcttacgctaagtacatgcgtcaa
atcgatgcgaccttcagccaagcttatatcgaagaaaccttcggccgttacccacaaatc
gctgatttgttggtgaaaatgtttatccgtaagttcaatccaaaactgaagacccgtact
ctgggcaagtttatggagcagatcaacctacgtttagacgaagtatcgagcctagatgat
gaccgtattatccgtcgttacctcgatctgattaacgccacgctgcgtaccaacttctac
caactggatgccaaaggcgaatctaagagttatatctcgtttaaattcatgccttcgtta
attcctgaaatgccgcgtccgctgccgaaattcgaaattttcgtttattcgccacgggtt
gagggcgtgcatttacgctacggtaaagtggctcgtggtggtttacgttggtctgatcgt
cgtgaagacttccgtaccgaagtgcttggcttagtaaaagcacaacaagtgaagaacacg
gtaatcgtacctgtgggcgcgaaaggtggtttcgtttgtaaacaactgcctaccgaaggt
ggccgcgaagccttcttcaccgaaggtcaagaatgttaccgcatctttatccgtgcgctg
ctcgatatcactgataacatcgttaacggcgaaatcgttcatccggtggatgtggtccgt
cacgatgaagatgacccatatttagtggtcgcggcagacaaaggtactgccaccttctcg
gatatcgctaacgccatttcgcaggaatacaacttctggttaggcgatgcgttcgcgtcg
ggcggtagtaacggttacgaccataagaaaatgggtatcacggccagaggtggttgggaa
tcggttaaacgtcacttccgcgaagtgggtatcgattgtcaaaccacagactttacctgt
ttaggtattggtgacatggcgggtgacgtattcggtaacggtatgttgttgtctaagcac
acaaaacttgtggctgcgttcaaccacatgcatatctttgtcgacccgaatccagacacc
gctgccagctatgaagaacgtgcccgcttattcgcgctgccacgttcaacctgggaagac
tataacagcaagctgatttctaagggcggcggtatcttcctgcgttcatctaagtcaatt
ccattgtctgctgaaatgaagcaaatgctggaaacggaaaagacctcgatgaccccgact
gaactgatgaaagaactgctgaaaatgccagtggatctgatttggaacggtggtatcggt
acttatgttaagtcagcacgtgaaacccatgcagaagtgggtgaccgcgcgaacgatgca
ctgcgtgtcaatggccgcgaactgcgtgccaagatcgtgggcgagggtggtaacttaggt
tgtactcagttaggtcgtatcgaatacgcggctaacggcggtcgtatcaacactgacttc
gtggataacgtgggtggtgtggactgttctgacaacgaagttaacatcaaaattctatta
aacgcgttagtggctgagggtgaactgacactcaagcaacgtaaccgtttactggaagag
atgaccgaagaagttggccaaatcgttctgcaggattgtaaagatcaaacccgtacgatt
tcggtaacccaagtccgtggtgctgagcagttaaaagagcaaattcgctttatccagtat
ctggaaaaagaaggcaagttagaccgcgccttagaattcttaccgtcggaagaagagctg
gcagaacgtttagccaatggccgcgcattaacgcgcccagagctatcggttctggtggcg
tacgctaagatggtactgaaagagcagttactgactcaagaaatcaccgaagacacgttg
ctgagccaactgttgattgcttacttcccgaaacaacttcaggaactgtacagccacaga
atggtgacgcacccactgcgcggtgaaatcattgccacgtcactggccaacgaattggtc
aacgacatgggtctgaactttgttcaacgtatgcaagatgagactggtgcctcagttgcc
gacgcggcaatttgttacactatggctcgcgaagtgtttggtttagctgaattaactaaa
gcgatcactgacttaaacggtattgttcctgctgtggttcagggcgaaatgctgcatcaa
ttacgtcgcaacatgcgccgtgcatgccgctggttcctgcgtcaccgcaaccgtacttgg
agcatcgagcaaactgtagcattcttcaaacctgtatttgaacaaatcaaagcgaatgtt
cattcttacttggtagaagaagaagcggcgggtatccaagctgagatcaacgctcttatc
aaagagaatgtgcctcatgaagtggcaaccgtcgtggctaacatgagcacactgttctcg
gcgctggatattgcgcaaattgcccaagccgaagagaaaacagttgagctcgttgccgag
acatatttcaaactcggtgcccgcgttgagctgcactggttcctagagcagatcagtgca
caacccgtggcgaaccattggcaagcactggctcgtgccgcctttagggaagagttggat
tggcaacaacgtgcgttgacgtcagtggtcttaagaacatgcagtgcaacctgtgacgcc
cagagcgttatttctcagtggattgataccaatcaagccctactagaaagatggttccat
atgctcgctgacttcaaaacgtcgcaaagccatgagtttgctaagttctctgtcgccctg
cgtgaactgaaccttctgatccttcattgcgaaggccataagtaa

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