KEGG   Photobacterium atrarenae: NNL38_07980
Entry
NNL38_07980       CDS       T10583                                 
Name
(GenBank) NAD-glutamate dehydrogenase
  KO
K15371  glutamate dehydrogenase [EC:1.4.1.2]
Organism
pate  Photobacterium atrarenae
Pathway
pate00220  Arginine biosynthesis
pate00250  Alanine, aspartate and glutamate metabolism
pate00430  Taurine and hypotaurine metabolism
pate00910  Nitrogen metabolism
pate01100  Metabolic pathways
pate01120  Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:pate00001]
 09100 Metabolism
  09102 Energy metabolism
   00910 Nitrogen metabolism
    NNL38_07980
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    NNL38_07980
   00220 Arginine biosynthesis
    NNL38_07980
  09106 Metabolism of other amino acids
   00430 Taurine and hypotaurine metabolism
    NNL38_07980
Enzymes [BR:pate01000]
 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
     NNL38_07980
SSDB
Motif
Pfam: Bac_GDH_CD GDH_C GDH_ACT1 GDH_ACT2 GDH_HM3 GDH_ACT3 GDH_HM1 GDH_HM2 ELFV_dehydrog
Other DBs
NCBI-ProteinID: UTV29149
LinkDB
Position
1:complement(1680702..1685531)
AA seq 1609 aa
MTAPDPIVPVLLEKVYGLIQDKIETPQQSLVEVFAQKLLGQLADDDLLQRNESDLYGAVL
SLWHHLVQNKPDQISVRVYNPTLSRYGWQSTHTVVEIVTPDRPFLVDSVRMTLTRLGITS
HLMLNGPYYFKRNELGAITEACGQNGDLQTLFHIEVDRLNDKAEMKALKEELEQVLQDVD
LVVNDWHAMQGKMQEIVKELKAADLPVDEAQRDEAIAFLDWVTRHNFTFMGYHQYDLLPI
EGDYELTPCEGSALGLLSKQGKVRSLKLSDLPESARLEARKKDLLILTKSNTKSKVHRPA
YTDYIGIRRFDKNGNVVGEHRFTGLYASTAYHQTAMNIPLISNKVSRILQASGYSEGSHS
WKALNNLLETYPRDELIQANEKEMLDVGCGVVRMQDRDLLRLFVRRDPFGRFFSCMVYVT
KERYNTELRRKTQQILKDYFGSDQDVEFTTFFSESPLARTHYIVRVENNNFDVDVKAIEH
NLVEAAAAWEDRLSASLVANFGENKGTPLAKNYARAFPRSYKEQMLPGSAVADIEQLESL
SEDNKLGMLFYRPQEKGVNSNFVKLKLFHRDEPIHLSDVMPMLENLGLRVIGESPYEIVT
ANGTVYWILDFAMLLNACDEIDLTESRDRFQEAFSAIWHNNLESDGFNRLVLCAGLTGRE
VTIVRSYARYMRQVGFPFSQHYIEETLSNHSDLARDLVALFALRFNPKKKRTEKAEQDLI
AKMNKKLDKVESLDDDRIIRRYMEMILATQRTNYYQTDAEGKPKPWLSLKLRPSEISEIP
APVPFFEIFVYAPDIEGVHLRGGKVARGGLRWSDRQEDFRTEILGLVKAQQVKNTVIVPV
GAKGGFVCKRQPQLTTREEIWAEGQRCYKRFIRALLDVTDNIVDGVLVPPANVVRHDEDD
PYLVVAADKGTATFSDLANSVSDDYNFWLGDAFASGGSNGYDHKKMGITARGGWESVKRH
FRELGINCQTTDFTCAGIGDMAGDVFGNGMLLSKHIRLVAAFNHMHIFLDPNPDSASSWE
ERNRLFNLPRSSWEDYDKSLISEGGGIFSRRSKSIKLTPQIQKLLGTRKQSMTPNELIQM
ILKMEVDLLWNGGIGTYVKAASETNADVGDRANDVLRVNGSELRAKVVGEGGNLGLTQLG
RVEFAKKGGLVNTDFIDNVGGVDCSDNEVNIKILLNSLVAGGDLTYKQRNELLERMEDEV
GEIVLDDAYCQSESISVTQQQQVQLLKEQIRFIHHLEKEGKLDRNLEYLPDDDTLAEREK
SGMGLTRPELAVLVAYGKMVLKEDMVTDEIANDPYHARLLPAYFPKELQEKYRDKMDLHP
LRQELIATSLANQMSNEMGCNFVTRLQEETGASVAEIASAYAVGREIYGFDRFFDQIREL
DNVVSAQVQYDMLYRCRRMLRRVTRWMLRNRDRQLGIEQQIAFYQPVVQKLQENLEGYLV
TEEVKEHDDQANVMIEQGVPEALAHGIARLSSLYSALDIAQIAKELEKDIDFISRVYFVV
GADLSLHWFLQQVHNQPVENHWQALARASFREDLDWQQRQLTSAVITACPEGKQAETLIE
DWKAEHQVAIQRWNTVLAEFKVGTTHEFAKFSVALRELMLLNLNCRPAM
NT seq 4830 nt   +upstreamnt  +downstreamnt
atgaccgcacctgaccctatagtgccggtactgcttgaaaaagtgtatggcttaatccag
gacaagattgagaccccgcagcagtcattagtagaagtttttgctcaaaaattattaggt
caattggcagacgacgatctgctgcaacggaatgaatctgacttatatggtgcagtgctg
agcctttggcatcaccttgtgcaaaacaaaccggatcaaatctctgttcgggtctacaac
ccgacactcagccgttacggctggcaatcgacccacactgtggttgagattgtgactcca
gaccgtccattcctggtggactctgttcgtatgaccctgacccgcctcgggatcaccagc
cacctgatgttgaatggcccttattatttcaagcgtaatgagctgggcgcaattaccgaa
gcctgtggtcagaacggtgatctgcagaccttgttccacattgaagtggaccgtctgaac
gataaggcggaaatgaaagcactgaaagaagaactagaacaagtgctgcaagacgtcgat
ctggtggtgaacgactggcatgccatgcagggcaaaatgcaggagattgtcaaagagctg
aaagcagctgacttacctgttgatgaagcccagcgtgatgaagccattgcattcctggat
tgggtcactcgtcataactttacgttcatgggctatcaccagtatgacctgttaccgatt
gaaggtgattatgaactgacaccatgtgagggttcagctttaggcttgctgagtaagcag
ggtaaagtacgctcattgaaactgtcagatttaccagaatcagcccgcttggaagcacgc
aagaaagatctgctgatcctgaccaaaagtaacaccaagtcgaaagtccatcgtccggct
tataccgattacatcggtattcgccgctttgacaagaatggcaacgtggtgggtgaacac
cgttttaccggcctttatgcttcgacggcataccatcaaactgcgatgaatattccgctg
atcagcaacaaggtctcgcggatcctccaggctagcggctattcagaaggttcgcactcc
tggaaggcgctgaacaacctgctggagacttatccgcgtgatgaactgatccaggccaac
gaaaaagagatgttagatgtcggctgcggcgtggttcgcatgcaagaccgtgacctgttg
cgtctgtttgtccgccgtgacccgttcggccgcttcttctcgtgcatggtgtatgtcacc
aaagagcgttacaacacggagttgcgccggaaaacccaacagatcctgaaagactatttc
ggatcggatcaagatgttgaatttacgactttcttctctgaaagtccgttagcgagaacc
cattacatcgtgcgcgtagaaaacaataactttgatgttgatgtcaaagccatcgagcat
aacctggttgaagctgccgcggcctgggaagaccgcctgagcgcctctctggtcgccaac
tttggcgaaaacaaaggaacgccactggcgaagaactatgcgcgtgcattcccgcgttcg
tacaaagaacaaatgctgccgggctctgcggttgccgatattgagcaactggaaagcctg
agtgaagacaacaagctggggatgctgttctaccgccctcaagagaaaggtgtcaactcc
aacttcgtcaagctgaagcttttccatcgtgatgagccaatccatctgtctgatgtgatg
ccaatgctggaaaacctgggtctgcgtgtcattggtgaatcaccatacgaaatcgtgacc
gccaacgggactgtgtactggatccttgacttcgccatgctgctcaatgcatgtgatgag
atcgatctgaccgaatctcgcgaccgtttccaggaagctttctcggccatctggcataac
aatcttgaaagtgatggctttaaccgcttggttctgtgtgccggactgaccggccgcgaa
gtgaccattgtgcgaagctatgctcgttacatgcgtcaggtcggtttcccgttcagccag
cactatatagaagagacactgtcgaatcatagcgatttggcccgcgatctggtggccctg
tttgcgcttcggtttaatccgaagaagaagcggacggaaaaagccgagcaagatctgatc
gccaaaatgaataagaagctggataaggttgagagcctggatgacgatcggatcatccgt
cgctatatggaaatgatcctggcgacccagcgcactaactactatcaaacagatgctgaa
ggtaagccgaagccatggttgtcgctgaagctgcgcccgtctgagatctcagagatcccg
gcgccggttccgttcttcgagatcttcgtttatgccccggatattgaaggggtgcacctg
cgcggcggcaaagttgcccggggtgggctgcgttggtctgatcgtcaggaagacttccgg
acagagatccttggcttggtgaaagcacagcaggtgaagaacactgtcatcgtaccggtc
ggtgcaaaggggggcttcgtgtgtaaacgtcagccgcaattgacaacacgtgaagagatc
tgggcggaaggccaacgctgttacaagcgtttcatccgcgccttgctggatgtgactgac
aacattgtggatggtgtactcgtgccaccagccaatgtggttcgtcatgatgaggatgac
ccgtatctggttgttgcggctgataaaggcacagcgaccttctcggatctggctaactca
gtttcggacgattacaacttctggctgggagatgcatttgcatcgggcggctcaaacggc
tatgaccacaagaagatggggatcacggcccgcggtggctgggaatctgtgaagcgtcac
ttccgtgagctgggcatcaattgccagactaccgatttcacctgtgccgggatcggtgat
atggcgggtgacgtgtttggtaacgggatgctgctgtcgaaacatattcgcctggtggca
gcctttaaccacatgcatatcttcctggatccgaatccggattcagcgagcagctgggaa
gagcgtaatcgtttgtttaatctgccgcgttcaagctgggaagattatgacaagagcctg
atctctgaagggggcggtattttctcccgccgcagcaagtcaattaagctgacgcctcaa
atccagaaactgttgggaacccgcaagcagagcatgacgccgaacgagttgatccagatg
atcctgaaaatggaagtggatctgttgtggaacggcgggattggcacttatgtcaaggcg
gctagtgagaccaatgctgatgtaggtgatcgtgccaatgacgtccttcgcgtcaacggg
agtgagctgcgtgccaaggttgtcggtgaagggggtaacctgggcctgacccaactgggc
cgtgttgagtttgccaagaaaggcggcctggtcaataccgacttcattgataacgtcggt
ggggttgactgttcagataacgaagtgaacatcaaaatcctgctgaacagcctagtcgct
ggtggcgacctgacctacaaacagcgtaacgagctgcttgagcggatggaagatgaagtc
ggtgagattgttctggatgatgcgtattgccagagcgagtcgatttctgtgactcaacag
caacaagtccagttgctgaaagaacagatccgctttatccaccacctggaaaaagaaggt
aaactggatcggaacctggagtacctgccggatgatgataccctggcagagcgcgaaaaa
tcgggcatgggtctgacccgtcctgagctggcggtactggtcgcttacggcaagatggtt
ctgaaggaagacatggtgactgacgagatcgccaatgatccttaccatgcgcgcctgcta
cctgcgtacttcccgaaagagctgcaagaaaagtaccgcgataagatggacctccatccg
ctgcgtcaggaactgattgcaacctcgctggcgaatcaaatgtccaatgagatgggatgt
aactttgtcactcgcctgcaggaagagacaggggcttccgttgctgagattgcttcagcg
tacgcagtgggtcgcgaaatttatggctttgaccgcttcttcgaccagatccgtgaattg
gataacgttgtctcggctcaggtacagtacgatatgctgtatcgttgccgccgcatgctg
cgccgtgtgacccgctggatgcttcgcaaccgtgatcgtcagctgggcatcgagcagcag
attgcattctatcagcccgttgttcagaaactgcaggaaaatctggaaggttaccttgtc
actgaagaagtgaaagagcatgacgatcaggcaaacgtcatgattgagcaaggggttcct
gaagcactggcgcacgggattgctcgcttgagcagcctatactcagccctggatatcgct
cagatcgccaaagagttggagaaagatatcgactttatctcccgcgtttactttgtggtg
ggtgccgacttgtcactgcactggttcctgcagcaggttcataatcagccggttgagaac
cattggcaggcactggcccgtgcatcattccgtgaagatctggactggcagcaacgccag
ctgacctcggcggtgatcaccgcttgtccggaagggaagcaggccgaaacgctgatcgaa
gactggaaagcggaacatcaggtggcgatccagcgctggaatacggttctggcagagttc
aaagtggggacaacccatgagttcgccaagttctcggtagccctgcgtgagttgatgttg
ctgaacctgaattgtcgcccggcaatgtaa

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