KEGG   Pseudoalteromonas piscicida: B1L02_07555
Entry
B1L02_07555       CDS       T04942                                 
Name
(GenBank) NAD-glutamate dehydrogenase
  KO
K15371  glutamate dehydrogenase [EC:1.4.1.2]
Organism
ppis  Pseudoalteromonas piscicida
Pathway
ppis00220  Arginine biosynthesis
ppis00250  Alanine, aspartate and glutamate metabolism
ppis00430  Taurine and hypotaurine metabolism
ppis00910  Nitrogen metabolism
ppis01100  Metabolic pathways
ppis01120  Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:ppis00001]
 09100 Metabolism
  09102 Energy metabolism
   00910 Nitrogen metabolism
    B1L02_07555
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    B1L02_07555
   00220 Arginine biosynthesis
    B1L02_07555
  09106 Metabolism of other amino acids
   00430 Taurine and hypotaurine metabolism
    B1L02_07555
Enzymes [BR:ppis01000]
 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
     B1L02_07555
SSDB
Motif
Pfam: Bac_GDH_CD GDH_C GDH_ACT1 GDH_ACT2 GDH_HM3 GDH_ACT3 GDH_HM1 GDH_HM2 ELFV_dehydrog DUF7774
Other DBs
NCBI-ProteinID: ASD66887
UniProt: A0AAD0RGM7
LinkDB
Position
1:1579477..1584315
AA seq 1612 aa
MTQNEGTASVILDNVCKLIHKKVHADKVSLVETFAKTLYSNMSKEDLAHRNDSDLYGAAL
SLWNALDKNKSDDAVIRVFNPEVAKDGWQSSHTIVEIIAKDMPFLVDSVRMAMNRKNIVS
HLLLHSPLKLQRNDAGAITAVSNLKAEQESTSTKTVFFIEIDRQTDDSVIADFTAELESV
LNDVSVAVADWLPIRDKLVSVSKELPTRHYSCSKEEVAEAVEFLDWLVSDNFTFMGYRQY
DLTPVQGDYELKPVEGTSLGLMKNSGDDHSRLLSELPEVARKEARSNNLLILTKTNSLSR
VHRPAYIDYVGIKRFDDEGNVIGEDRFIGLFSSSFYNNSAVDVPVLKSKINRIMEQCDFA
KGTHAYKAVLNILETYPRDELVQARESELLEVAMGVLQTQERDMCRLFVRKDVYGRFFSC
MVYVPRERYNTALRRETQQLLGRAFKSSDKVEFTTFFSESTLARTHYIVRVDDNNIDYNV
KEIENNLVEAARTWEDKLQSALLERTGESRGNELNRKYTNAFQSAYKDQVLPSAAVVDIE
KLEQLNDDNKLEMLFYRPQEEATSQLVRLSLFHKAEPIHLSDVMPMLENFGLRVIGETPY
AVKTTDGQVNWIMDFSMLIDSKGITDFEKVSARFRAALTNVWNNRLENDGFNRLVLLGGL
TGREASILRAYAKYMRQIGVTFSQSYIENTFDRYPHIAAMIVDLFVKKFAPKKVATEKAL
QKVVDAIYLELENVANLDDDRIIRLYVDMINATLRTNFYQKEADGTNKSYTSFKIQPSAV
PDMPLPLPAFEIFVYSPRVEGVHLRGGKVARGGLRWSDRREDFRTEVLGLVKAQQVKNTV
IVPVGSKGGFVCKQLPTEREAFFKEGQECYKIFIRGLLDITDNIVHGDIVPPVDVVRHDE
DDPYLVVAADKGTATFSDIANGIAESYNFWLGDAFASGGSIGYDHKKMGITAKGGWESVK
RHFREMDIDCQTTDFTAVGIGDMGGDVFGNGMLLSKHIRLQAAFNHMHIFIDPNPDAASS
YVERERLFNLPRSSWEDYNKELISEGGGIFSRAAKAITLSAEMKKMIGTKKSSMTPNELI
KALLKMPVDLLWNGGIGTYIKSKSETDAEVGDRANDALRINGGELGAKIFGEGGNLGATQ
LGRIEFASNGGRINTDFIDNVGGVACSDNEVNIKILLNGLVAEGELTNKQRNELLYSMTD
EVSELVLKDCYRQTHTLSITKSKGPATLKEKVRFIHALEKEGKLNRAIEFLPTDEELAER
AAAGKDLTRPELSVLVSYSKMVLKETLVVDEISENPYYRQLLVNSFPAPLRERFNAAMDN
HPLRKEIIATKLANNIVNDMGLNFMVRMHEETGATDAEIAVCYSISSAIFEMKETWSAIS
ALDNKIPAAVQTEMLYQLRRTVRRATRWFLRHRDKSQTIEQAIAFFAPTFKDLSANLHNY
MVANESEQIVDKARDLESQGVPAEIALRIVSLSSLFSVMDLAEVAHSSGRKIGVVSNTYF
TLGANMGLHWFLDQITAQPVANHWQALARASYREELDWQQRSLSEVVLNSFAGDDNDINE
QIEQWMDKQAGLLHRWQQMLTEFKTSQSHDFAKFSVALRELMLLSHNCDTSK
NT seq 4839 nt   +upstreamnt  +downstreamnt
atgacacaaaatgaaggcacagcttctgttatcctagataacgtctgcaagcttatccat
aaaaaagtccatgctgacaaagtgtcacttgtcgaaacgtttgccaaaaccttgtacagc
aacatgtctaaagaggatttggcacatcgtaacgacagtgacttatacggcgcagcattg
agcctttggaatgcccttgataaaaacaagtctgacgatgccgtcattcgcgtttttaat
cctgaggttgcaaaggatggatggcaatcatcgcatacgattgtcgagataatcgctaaa
gatatgccgtttttggttgattcagtgcgcatggcgatgaatcgaaaaaacatagtctct
cacctattacttcattctccacttaagttacaaagaaacgatgcaggtgcaatcaccgca
gtttctaacttaaaagcagaacaagaatctacgtctactaagaccgtattctttatcgaa
atcgacaggcaaacagatgattcggtgatcgctgattttacggctgagcttgaatctgtc
ttaaatgatgtttctgttgcggttgctgattggctaccaattcgcgataaattggtgagc
gtaagtaaagagctgccgacccgtcattatagttgttcaaaagaagaagttgctgaagcc
gtcgagtttttagactggctggttagcgacaactttacctttatgggctatcgccaatat
gatttgactccagttcaaggtgactatgagctgaagccagttgaaggcacaagtctcggc
ctgatgaagaactcaggtgacgatcatagccgtttattgtctgaactgcctgaagttgcg
cgcaaagaggcacgtagtaacaacttgttgatcttaaccaagacaaactcattgtcacgc
gttcatagaccagcgtatatcgactatgttggtatcaagcgttttgatgatgaaggtaac
gtgattggtgaagaccgtttcattggtttgttttcatctagcttctacaacaacagtgcg
gtagatgttccggtacttaagagtaaaattaaccgcatcatggagcaatgtgactttgct
aaaggcacacatgcatacaaggcggtactcaatattcttgaaacctatcctcgtgatgag
ttagtacaggcacgcgaaagcgagctacttgaagtggcaatgggcgttctacaaactcaa
gagcgtgacatgtgtcgcttatttgtgcgtaaggatgtgtatggtcgtttcttctcttgt
atggtttatgtgccaagagagcgatacaacactgcgttgcgccgtgaaactcagcaactg
ctaggccgtgcatttaagtctagcgacaaagtagagttcaccacctttttctctgaatca
acactagcgcgtacgcattacatcgtccgtgttgatgacaacaacatagattacaacgtg
aaagaaatcgaaaataacttggtagaagccgctcgtacttgggaagacaagctacaatca
gcgcttcttgaaagaacgggtgagtctcgtggtaacgagttaaaccgtaaatacacgaat
gcgttccagtctgcttataaagaccaagtgttgccaagcgcagcagtcgtagacatcgag
aagctagagcaactaaacgatgacaataaacttgagatgctgttctacagacctcaagaa
gaagcaacgtcacaacttgttcgtttgagtctgttccataaagcagagcctattcactta
tcagacgtgatgccaatgcttgagaactttggtctacgtgttattggtgaaacaccatac
gccgtgaagacgactgatggtcaagtaaactggatcatggatttctctatgcttatcgac
agcaaagggatcacggattttgaaaaagtatcagcgcgttttcgtgcagcattgaccaat
gtgtggaataaccgccttgaaaatgatggctttaaccgtttagtgttactaggtggacta
acaggtcgtgaagcatctattctacgcgcgtatgctaaatatatgcgccagattggtgtg
acgttctcgcagtcttacatcgagaatacgtttgaccgttatccgcatattgcagcgatg
attgttgatctatttgtgaagaagtttgcaccgaagaaagtggccactgaaaaagcactt
cagaaagtcgtcgatgcaatctaccttgagcttgaaaatgtagcgaatttagatgatgac
cgtatcattcgtttatacgttgatatgatcaatgcaacgctgcgtactaacttctatcaa
aaagaagcagacggcacgaataagtcgtacacgtcattcaagatccagccaagcgcagtg
ccagatatgccgttgccattaccagcgtttgaaatcttcgtatactctccacgcgtagaa
ggtgttcacttacgtggcggtaaagtggcgcgtggtggtctacgttggtcagaccgtcgt
gaagatttccgcacagaagtacttggcttagttaaagcccagcaagttaagaatacggtt
atcgtgcctgtaggttctaaaggtggttttgtttgtaaacaacttccaactgaacgtgaa
gctttcttcaaagaaggccaagagtgttacaagatcttcatccgtggtctactagacatc
actgataacatcgtacatggtgacatcgtaccgccagtggatgttgttcgtcacgacgaa
gacgacccatacctagttgttgcagcggataaaggcactgcgactttctctgatatcgca
aatggtattgctgagtcttataacttttggcttggtgacgctttcgcatcaggtggttca
atcggttacgaccacaagaagatgggtattactgctaaaggcggttgggaatcggtcaag
cgtcacttccgtgaaatggacattgactgtcaaacaactgacttcacagcggttggtatc
ggtgacatgggtggtgatgtatttggtaacggtatgctgctatctaagcatattcgttta
caagcggcattcaaccacatgcacatctttatcgatccaaacccagatgcagcaagctcg
tatgtagagcgtgagcgcctatttaatctgccacgttcaagctgggaagattataataag
gagctgatctctgagggcggtggtattttctctcgtgcagcaaaagcaattacgctaagc
gctgaaatgaagaaaatgataggcaccaagaaatcgagcatgacaccaaacgagttgatc
aaagcattgttgaagatgccagttgatttactttggaacggtggtatcggtacttacatt
aagtctaaatctgaaacggatgctgaagtaggcgaccgtgcaaacgacgcgctacgtatc
aacggtggtgagcttggggcgaagatcttcggtgaaggtggtaacttaggtgctactcag
ttgggtcgtattgaatttgcttcaaacggtggtcgtatcaatactgactttatcgacaac
gtaggtggtgttgcctgttcggataacgaagttaatatcaagatcctacttaacggccta
gtggctgaaggtgaattgacgaataagcagcgtaacgaattactgtattcaatgactgat
gaagtatcagaattggtactgaaagattgttatcgccaaacgcatacgctttcgattacc
aagtctaaaggtcctgcaacgcttaaagagaaagtacgctttatccatgcacttgaaaaa
gaaggcaagctaaatcgtgcaatcgaattcttaccgacggatgaagagctagcagagcgc
gcggcggcaggtaaagacctaacgcgtcctgagctatctgtattggtttcttactctaag
atggtattaaaagagacattagttgttgatgagatctcagaaaatccatactaccgtcag
ttgttagtgaactcgttcccagcaccgctgcgcgagcgcttcaatgctgcgatggataat
cacccgctacgtaaagagatcattgcaacgaaacttgcaaacaatatcgtcaacgatatg
ggtctaaacttcatggttcgtatgcacgaagaaacaggtgcaacggatgcagaaattgca
gtttgctactcaatttcaagtgcaatctttgaaatgaaggaaacgtggtcagcgatttct
gcgcttgataataagatcccagcggcggttcaaacggaaatgctatatcaattacgtcgt
acggttcgccgcgcaacgcgttggttcttacgtcaccgtgataagtctcaaactatcgag
caagccatcgcattctttgcaccaacatttaaagatctaagtgcaaatttacacaactat
atggttgctaatgaaagtgagcagatcgttgataaagcacgtgaccttgaatctcaaggt
gtgccagctgagattgcactgcgtatcgtatcgctttcaagcttgttctcggtcatggac
ttagcggaagtcgcacatagctctggtcgtaagattggtgttgtgtctaatacttacttt
acgcttggtgcaaatatgggtctacattggttccttgaccaaattacggctcagcctgtt
gcaaaccattggcaggcgcttgctcgtgcttcatatcgtgaagagcttgattggcagcag
cgttcattgtcagaggttgtgttaaacagctttgctggtgatgacaatgacatcaatgaa
cagattgaacagtggatggataagcaagccggcttactacaccgttggcagcaaatgcta
actgagtttaagacgtcgcaaagccacgactttgctaagttctcagttgcacttcgtgag
ctaatgttactaagccacaactgcgatacttccaaataa

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