KEGG   Pseudoalteromonas spongiae: PSPO_a1730
Entry
PSPO_a1730        CDS       T05098                                 
Name
(GenBank) glutamate dehydrogenase
  KO
K15371  glutamate dehydrogenase [EC:1.4.1.2]
Organism
pspo  Pseudoalteromonas spongiae
Pathway
pspo00220  Arginine biosynthesis
pspo00250  Alanine, aspartate and glutamate metabolism
pspo00430  Taurine and hypotaurine metabolism
pspo00910  Nitrogen metabolism
pspo01100  Metabolic pathways
pspo01120  Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:pspo00001]
 09100 Metabolism
  09102 Energy metabolism
   00910 Nitrogen metabolism
    PSPO_a1730
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    PSPO_a1730
   00220 Arginine biosynthesis
    PSPO_a1730
  09106 Metabolism of other amino acids
   00430 Taurine and hypotaurine metabolism
    PSPO_a1730
Enzymes [BR:pspo01000]
 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
     PSPO_a1730
SSDB
Motif
Pfam: Bac_GDH_CD GDH_C GDH_ACT1 GDH_ACT2 GDH_HM3 GDH_ACT3 GDH_HM1 GDH_HM2 JetA ELFV_dehydrog
Other DBs
NCBI-ProteinID: ATC98776
UniProt: A0A290T3H2
Position
I:complement(1627342..1632180)
AA seq 1612 aa
MTQQEGQTSVLLENVSSLIRSKVKATNVSLVEKFAKTLYSNMSTEDLASRNDSDLYGAAL
SLWNSLEKHTDDTALIRVFNPELANNGWQSSHTIVEIIAKDMPFLVDSVRMALARENIVS
HLLLHSPLKIKRDKDGLISALSGMKTEQESDSNKTVFFIEIDRQSDKSVIASIKKELESV
LADVSVAVEDWLAIKDKLVSISKVLPKRKGIKNKTEVKETVEFLDWLAKDNFTLMGYRQY
DLSPIKGDYQLTGVADTSLGMMKLSDETKSRRLSDLPEVARKEAHSDNLLILTKTNSLSR
VHRPAYIDYIGIKRFDDEGNVIGEDRFIGLFSSSFYNNSAADVPVLKSKIKRVLDMTDFA
PGTHAYKAVLNILETYPRDELLQAREKELLEVALGVHHMQERDMSRVFVRQDTYGRFFSC
MVYVPRERYNTALRRETQNILANAFGSNEKVEFTTFFSESMLARTHYTVRGCDQNVEYTV
KQIERNLIEAARTWEDKLHSALLERAGESRGNELARKYSKAFASAYREQVLPSAAVVDIE
KLESLSDENKLAMLFYRPQESANTNQVRLSLYHKNEPIHLSDVMPIIENFGLRVIGETPY
SVKTEDGQVNWIMDFSMLMSNDDLDDFSKVSERFQLALLNVWNNKLEDDGFNKLVLAASL
KGREASIIRAYAKYMRQIGVTFSQSYIESTFENYPHIAQLLVKLFDKKFSPKSKFTEKGY
EKIVNDIIAELDNVANLDDDRIIRLYVDMIGATLRTNFYQKDKDGINKSYISFKVQPSLI
PEMPLPLPAFEIFVYSPRVEGVHLRGGKVARGGLRWSDRREDFRTEVLGLVKAQQVKNTV
IVPVGSKGGFVCKQLPTDREAFFKEGQECYKLFIRGLLDITDNIHHGEIVPPVDVVRHDE
DDPYLVVAADKGTATFSDIANGISEEYGFWLGDAFASGGSIGYDHKAMGITAKGAWESVK
RHFREIGIDCQTTDFTCVAIGDMAGDVFGNGMLLSKHIRLQAAFNHMHIFIDPNPDAASS
YLERKRMFELPRSSWEDYNKDLISQGGGIFSRSAKSITLTPEIKKMLGTKKVTMTPNELL
RAILMMQVDLIWNGGIGTYIKAKSETHADVGDRANDALRVNGEELNAKIFGEGGNLGATQ
LGRIEFTANGGRMNTDFIDNVGGVACSDNEVNIKILLNGLVSEGDLTKKQRDELLYSMTD
EVSEMVLKDCYRQTHTISVTQLKGPQTLKEQIRFIHALEKDGKLNRDIEFLPSDEELAER
QAAGKGLTRPELSVLVSYAKMVLKEQLVIEEITDNPYYRSLLVDAFPAPLRERFNNAMDN
HPLRGEIIATKLANQIVNDMGLNFIVRMSEETGAPVSEIVLCYSMAKAVFELGNAWQDIS
ALDNQIPSIVQTEMLYQLRRTVRRATRWFLRHRNKALNIEQTIEFFAPAFNDLSENITSY
MVDEEAEKLNTEINLLAKEGVPSALAKRIAQLSSLFSVMDLAQVADASSKPISQVSETYF
KLGAGMGLHWFLDQITKQPVANHWQALARASYREELDWQQRSLSQVVLNNCETAGCDVDT
IIESWMNEHQVLLERWQHMLAEFKTSQTHDFAKFSVALRELMLLSHNCDTAQ
NT seq 4839 nt   +upstreamnt  +downstreamnt
atgactcaacaagaaggccaaacctcagttttactcgaaaacgtatcgtctttgatccgt
agtaaggtaaaagccacaaatgtgtcgcttgtcgaaaagtttgctaaaacactctacagt
aatatgtcgactgaagacttagcaagccgtaatgacagtgacttatatggcgcagcgctt
agcttatggaatagcttggaaaaacacactgatgatacagcgcttatccgtgtatttaat
ccagaactcgctaataatggttggcaatcctctcacacaatcgtagaaataatcgcaaaa
gacatgccgtttttagtggactctgttcgcatggctttggcgcgtgaaaatattgtttca
cacttattacttcactctccgttaaaaattaagcgcgacaaagatggtttaatctctgca
ttgtctggtatgaagacagagcaagagtctgactcaaacaaaaccgtgttctttattgaa
atcgaccgtcagtctgataagtcggttattgcatctattaaaaaagagttagagtcagtg
ttggcagatgtgtcggtagccgttgaagactggttagcgattaaagataaacttgtgtct
atcagcaaagtgctgccaaaacgtaaaggcattaaaaataaaactgaagttaaagaaaca
gttgagttcttagattggttagcaaaagataacttcacacttatgggttatcgccaatac
gacttatcaccgattaaaggtgactatcagttaacgggtgtggctgatacaagcttaggc
atgatgaagttatcagatgagactaaatctcgtcgcctttctgatttaccagaagttgca
cgtaaagaagcacacagtgataacttgcttatccttaccaaaacaaactcactttcacgc
gttcatcgtccagcttatattgattacatcggcattaaacgtttcgatgacgaaggcaat
gtaattggtgaagatcgctttattggtttgttctcttcaagcttctataacaacagtgca
gcagacgtaccggtactaaaaagtaagatcaagcgcgtacttgatatgacagactttgcg
ccgggcacgcatgcatacaaagcggtacttaatattttagaaacgtacccacgtgatgag
ttattacaagcacgcgaaaaagaattattagaagttgctcttggcgttcaccatatgcaa
gaacgtgatatgtcacgtgtatttgtacgccaagatacttatggtcgtttcttctcgtgc
atggtctatgtaccaagagagcgctataacacggcattgcgtcgtgaaacgcaaaacatt
cttgcgaatgcgttcggctcaaacgaaaaagttgagtttaccaccttcttctcagaatca
atgctagcacgtacgcattatacggtacgtggttgcgaccaaaatgttgaatatacagtg
aaacaaatcgaaagaaacctaattgaagcggcccgtacatgggaagataaacttcacagt
gcattacttgagcgtgcaggcgagtcgcgcggcaatgaacttgctcgtaagtattctaaa
gcctttgctagtgcttaccgtgaacaagtactgccaagtgctgctgttgttgatattgaa
aagctagaaagcttgtcagacgaaaacaagcttgcaatgctgttttaccgtccacaagaa
agtgccaatacaaatcaggtacgtttaagtctatatcacaaaaacgaaccaattcactta
tcagatgtaatgccaattattgagaattttggtcttcgtgttattggtgaaacaccgtat
tcagtgaagaccgaagatggtcaagtaaactggattatggatttcagcatgctaatgagc
aacgatgaccttgacgatttctcgaaggtgtcggagcgtttccaacttgcattgcttaat
gtatggaacaacaagcttgaagatgatggtttcaacaaacttgttcttgcggcaagctta
aaaggacgcgaagcgtcgatcattcgtgcctacgcaaaatacatgcgtcaaattggtgtg
acgttctcacaaagctatatcgaaagcacatttgaaaactacccacatattgcacagtta
cttgtaaaattattcgataagaagttctcacctaagtctaagtttactgaaaaaggctat
gagaaaatcgttaacgatattattgctgaacttgataatgttgcgaacttagatgatgac
cgaattattcgactttacgttgatatgattggtgcaacactgcgtactaacttctatcaa
aaagataaagacggcatcaacaagtcttacatttcatttaaggttcaaccaagcctaatt
cctgaaatgccattaccactgcctgcgtttgagatttttgtttactcgccgcgtgttgaa
ggtgttcacttacgtggtggcaaggttgctcgtggtggtttacgttggtcagaccgccgt
gaagatttccgtacagaagtactaggtcttgttaaagcgcagcaagttaaaaacaccgta
attgtacctgtaggttcaaaaggtggttttgtttgtaaacagctgccaactgatcgagaa
gccttctttaaagaaggtcaagagtgttacaaactatttatccgtggtttattagatatc
acagataacattcaccacggtgaaattgtaccgccagtggatgttgtacgtcatgacgaa
gacgacccatacctagtagttgcagccgataaaggcaccgcgactttctcagatattgca
aatggcatttctgaagaatacggtttctggttaggtgatgcattcgcatcaggtggttca
attggttatgaccacaaagccatgggtattactgctaaaggtgcgtgggaatcagttaaa
cgtcacttccgcgaaattggcattgattgtcagacgactgactttacctgtgttgccatt
ggtgacatggcaggtgacgtattcggtaacggtatgctgttatctaagcatattcgtctg
caagctgcatttaaccacatgcatatcttcatcgacccgaatccagatgcagcgtcttca
tacctagagcgcaagcgtatgtttgaactaccacgttcatcgtgggaagactataacaaa
gacttaatttctcaaggcggtggtattttctcacgtagtgcgaagtcaattacactgacg
cctgaaattaagaaaatgctaggtactaagaaagttacaatgacaccaaatgagttgtta
cgtgcaatcttaatgatgcaggtagacctaatttggaacggtggtattggtacttacatc
aaagcgaaatctgaaacgcatgctgatgtgggcgaccgagcaaacgatgcgctacgtgtt
aatggtgaagagcttaacgcgaagatcttcggtgaaggtggtaacttaggtgcaacgcaa
ttaggtcgtatcgaattcactgctaatggtggtcgtatgaacacagacttcatcgataac
gtgggtggtgttgcgtgttcagataacgaagtaaacattaagattttactaaatggtctg
gtttctgaaggtgatttaactaagaaacagcgtgacgaattactttattcaatgacggat
gaagtatcagagatggtattaaaagactgttaccgtcaaacgcacacaatttctgtaaca
cagttaaaaggcccacaaacgcttaaagagcaaattcgctttattcacgcgcttgaaaaa
gatggcaaacttaaccgtgatattgaattcttaccttctgacgaagagttagcagaacgt
caagcagcaggtaagggcttaacgcgtccagaactttctgtacttgtgtcatacgctaaa
atggtgcttaaagagcagcttgtaatcgaagaaatcactgataatccttattacagaagc
ttgttagttgatgcattcccagcaccgctgcgcgaacgtttcaacaatgcgatggataac
cacccactgcgtggtgaaatcattgcaactaaactagcaaaccaaatcgttaatgatatg
ggtctgaactttatcgttcgtatgagcgaagagacaggtgcaccagtaagcgaaattgta
ctttgttactcaatggctaaagcggtatttgaattgggtaatgcatggcaagatatctct
gcacttgataaccagatcccgtcaattgtacaaacagaaatgttgtatcaattacgccgt
actgtacgtcgcgcgacacgttggttcttacgtcaccgcaacaaagcactcaacattgaa
caaacaatcgagttctttgcacctgcgtttaatgacttaagtgaaaacatcacgtcgtat
atggttgacgaagaagctgaaaaactgaatacagaaattaacttattggctaaagaaggt
gtaccaagtgcactggctaagcgcattgcacaactttcaagcttgttctcagtgatggac
ttagcgcaagtagcagatgcatcaagtaaaccaatttcacaagtttctgaaacttacttc
aagcttggtgcgggcatgggtctacactggttcttagatcaaattactaagcaaccggtt
gccaaccactggcaagcacttgcacgtgcatcgtaccgtgaagagcttgattggcagcag
cgttctctttcacaagttgtgcttaataactgtgaaacagcgggttgtgatgttgatacc
atcattgaaagctggatgaacgagcaccaagtactgcttgagcgttggcagcatatgttg
gctgagtttaaaacgtcgcaaacgcacgactttgcaaaattctcggtggcattacgcgaa
ttaatgctactaagccacaattgcgatactgcgcaataa

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Ontology (2)   
   KEGG BRITE (2)   
Pathway (6)   
   KEGG PATHWAY (6)   
Chemical substance (7)   
   KEGG COMPOUND (7)   
Chemical reaction (2)   
   KEGG ENZYME (1)   
   KEGG REACTION (1)   
Genome (1)   
   KEGG GENOME (1)   
Gene (3)   
   KEGG ORTHOLOGY (1)   
   NCBI-PROTEINID (1)   
   OC (1)   
Protein sequence (1)   
   UniProt (1)   
Protein domain (10)   
   Pfam (10)   
All databases (32)   

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