KEGG   Grimontia hollisae: AL542_17010
Entry
AL542_17010       CDS       T04260                                 
Name
(GenBank) NAD-glutamate dehydrogenase
  KO
K15371  glutamate dehydrogenase [EC:1.4.1.2]
Organism
gho  Grimontia hollisae
Pathway
gho00220  Arginine biosynthesis
gho00250  Alanine, aspartate and glutamate metabolism
gho00430  Taurine and hypotaurine metabolism
gho00910  Nitrogen metabolism
gho01100  Metabolic pathways
gho01120  Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:gho00001]
 09100 Metabolism
  09102 Energy metabolism
   00910 Nitrogen metabolism
    AL542_17010
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    AL542_17010
   00220 Arginine biosynthesis
    AL542_17010
  09106 Metabolism of other amino acids
   00430 Taurine and hypotaurine metabolism
    AL542_17010
Enzymes [BR:gho01000]
 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
     AL542_17010
SSDB
Motif
Pfam: Bac_GDH_CD GDH_C GDH_ACT1 GDH_ACT2 GDH_HM3 GDH_ACT3 GDH_HM1 GDH_HM2 ELFV_dehydrog FixP_N
Other DBs
NCBI-ProteinID: AMG31874
LinkDB
Position
1:complement(2900845..2905662)
AA seq 1605 aa
MTARDPIVPVLLEKVYHLIAEKLDKTQQPLVETLAKRILGPISDDDLQERNESDLYGAVI
SLWHHLNTFEQDKIFVKVFNPTLSGDGWQSTHTIVEILTPDAPFLVDSVRMALNRLDIAS
HLMLNGPLSVEKDAKGNVTSIGDKKGVMQSVFHLEIDRMCSKKEMLALEKELTETLNDVA
LIVNDWQPMQDKMTSVIESIKKDKLPVDKSLQQEALDFLGWIASHNFTFMAYKYYELNAI
EGDYELKASTQEGLGLAKKLDPKRPGLRLSEMPESARATALRKDLLVINKASSQSRVHRP
AYMDYIGIKCFDKKGNVVGEHRFHGLYASSAYNQATSNIPVLKNKVRRILETSGYYEGSH
SWKALANIIENFPRDELFQASEAEMLDIGMGIVQVQDRDLLRVFVRRDPFGRFLSCMVYV
ARERYNTALRRTTQRILQNYFGSDQDVEFNTFFSESPLARTHYIVRVENNNFDIDVKKLE
QNLTEAASTWDDRLKEAVITTFGENQGTPIAKRYLGAFPRSYKEAMLPGSAVADIERLES
LNEEKKLDMLFYRPQEEPKDSRSVRLKLFQKDEAIHLSDVMPMLENLGLRVIGEAPYKVE
TKSGDTYWILDFSMLHNAHSGFVLSDVRERFQDAFAGIWHGKLENDGFNRLVLNAGLNGR
EVTILRAYQRYMRQVAFPFSQTYIEDTLACHSSLARLLVELFSRRFNPKKNSEKEQKLII
QKIEDALEQVESLDDDRIIRRYMEMILATLRTNFYQKDKETGEWKEYLSLKLQPSKIPEI
PKPVPFFEIFVYSPDVEGVHLRGGKVARGGLRWSDRQEDFRTEVLGLVKAQQVKNTVIVP
VGAKGGFVCKKQHSLSNRDEIFAEGQRCYRIFIRGLLDITDNIVEGELTPPLNVVRHDED
DPYLVVAADKGTATFSDLANSVSEEYNFWLGDAFASGGSNGYDHKAMGITAKGGWESVKR
HFREIGINCQETDFTCVAIGDMAGDVFGNGMLLSKHIRLLAAFNHMHIFIDPNPDSATSW
VERDRLFKMPRSSWEDYDPTLISKGGGVFSRKAKSIGLSPEIQKMLGVRKQSMTPNELIK
QILKTKVDLLWNGGIGTYVKAETESHAEVGDRANDAVRVNGNELGARIVGEGGNLGMTQL
ARIEYAMNGGRVNTDFIDNVGGVDCSDNEVNIKILLNGLVAAGDLTYKQRNELLERMEDE
VSEIVLDDAYCQSESISVTCEQQVALLKEQIRFIHYLEKEGKLDRALEYLPDDETLAERQ
LRGIGLTRPEVAVLVAYGKMVLKEQLVIEQITQDPHFGKLLPAYFPKELQRNYREAMETH
PLRSEIIATSLANQMSNDMGFNFITRMQDETGASVGDIAAAYAIAREVFDFEKTFDEIRE
LDNQLPAQVQYALMFRCRRMMRRTTRWILRNPMKDKGIEEQVAFYKPAVKNLADNLDVYL
VPSEIEEHQEQAEEYITQGVPKPIADKIVRLTSLYAGLDLAQVSEQMEKPFDVVARLYFV
LGDTLSLHWFLKQITNQPVENHWQALARASFREDLDWQQRMLTAHILEGMNNGESAELGL
ESWMVEHAVSLGRWESIVAEFKVGTVHEFAKFSVALRELTLLNLN
NT seq 4818 nt   +upstreamnt  +downstreamnt
atgaccgcgcgtgaccctattgtgccggtgttacttgagaaggtttatcatcttattgct
gaaaaactggacaaaacacaacaaccgcttgtagaaactttggcaaaaaggattttgggt
cccatttcagatgatgatttacaggaacggaatgaatccgacctctatggtgctgtcatc
agcctatggcatcatctcaatacgttcgagcaagacaagattttcgttaaggttttcaac
ccgacattgagcggcgacggatggcaatccacccacactattgttgaaatcctgacccca
gatgcgccattccttgttgattctgtacgaatggcacttaaccgtctggacatcgcttcc
cacctaatgcttaacgggccgttatctgtcgagaaagatgcgaagggcaatgtcacgtca
attggtgataaaaaaggggtaatgcagagcgttttccaccttgaaattgaccggatgtgt
tcgaaaaaggaaatgttggcactggaaaaagagctgacagaaaccttaaatgacgttgca
ttgattgttaacgactggcaaccgatgcaggataaaatgacatcggtgattgagtcaatt
aagaaagataaactgccagtcgacaagtcactccaacaagaagcgttggattttctgggg
tggatagcttcccacaatttcaccttcatggcgtacaaatactatgagctcaatgccatt
gaaggtgactatgaattgaaagcctcaacacaggaagggctagggttagcgaaaaagctc
gatccaaaacgtccgggtttgaggttatcagaaatgccggaatctgcgcgtgcgacggca
ttgcgtaaagacctgttggtgatcaacaaagcaagcagccaatcccgtgttcaccgtcct
gcgtatatggactacatcggcatcaaatgctttgataaaaagggcaatgtggtgggtgag
caccgcttccatggcctttatgcctcttcagcctataaccaagcaacctcgaacattcct
gtcctcaagaataaagttcgccggatccttgagaccagtgggtattacgagggctcgcat
tcatggaaagcgttggccaacatcattgaaaacttcccacgtgatgaactgttccaggcc
agtgaggccgaaatgctcgatatcggtatgggcattgtacaagtgcaggatcgggatctg
ctgagagtatttgtccgacgagacccgtttggccgttttttatcctgcatggtgtatgta
gcgcgtgagcgatataacaccgcattgcgccgaaccacccaacgcattttacagaactat
tttggctccgaccaagacgttgaattcaacacgttcttttctgagagcccgttggcgaga
acccattacattgtgcgtgtagagaacaacaactttgacattgacgtgaagaaattggag
caaaatctgactgaagcagcatcaacctgggatgatcgcctgaaagaagcggtgatcacg
acgtttggcgaaaatcagggaacccccatcgccaaacgctacctcggagcgtttccccgt
tcttataaagaagctatgttgccaggctcggccgttgctgatattgagcgtcttgaaagc
ctaaatgaagagaaaaagctggatatgcttttttatcgtccccaggaagagcccaaggat
tcacgttccgttcgtctgaaattgttccagaaagatgaggcgattcatctatctgacgtg
atgccgatgttggaaaaccttggtctgcgtgtgatcggcgaagccccttataaagtggag
acaaagtctggtgatacatactggatcctcgatttttcaatgctccataatgcacacagc
ggctttgtactctctgatgtgcgtgagcgttttcaggatgcttttgccgggatctggcat
ggtaaactagaaaatgatggttttaacagactggttctgaatgccggtctaaatggacgg
gaagtcacgattctccgcgcttaccagcgttacatgcgtcaggtcgctttcccgttcagt
cagacttacatcgaagacacgctggcctgtcattcaagcttagcccggttgctggtggaa
ctgttcagcagacgtttcaatccgaagaagaacagcgaaaaagaacagaagctcatcatc
cagaaaattgaagacgcgcttgagcaggttgaaagtctggatgatgaccgtatcatccgc
cgctatatggagatgatcctggcaacgcttcgtaccaacttctatcaaaaagacaaagag
actggggagtggaaagagtatctctccttgaaactgcaaccgtcgaagatcccagaaatt
ccaaagccggtacctttctttgaaatctttgtctactcacccgatgttgaaggtgttcac
ctgcgtggtggtaaagtggcccgtggtggcctgcgttggtctgaccgacaggaagatttc
cgcactgaagtgctgggtttggtgaaagcacaacaggtcaagaacaccgttattgtgcca
gtcggcgccaagggcggttttgtttgtaagaaacagcactcactgagcaaccgcgacgag
attttcgctgaaggccaacgttgttaccgtatctttatccgcggcttgttggatatcacg
gataacattgtggaaggagaactgacgccgccgctgaatgtggttcgccatgacgaagat
gatccgtatctggtagttgctgcagacaaaggtactgcaacattttcggatctcgcaaac
tccgtatctgaagaatataacttctggttaggcgatgcgtttgcatccggtggctctaac
ggttatgaccacaaggccatgggaattacggcgaaaggtggctgggaatcagtgaaacgc
catttccgcgaaattggcatcaactgtcaggaaaccgatttcacttgtgtggcaatcggt
gacatggcgggggatgtgtttggcaatggtatgctgctgtcaaaacacatcaggttgctg
gcagcctttaaccatatgcatatcttcatcgatcctaatccggattctgccacatcctgg
gtagaacgagatcgtttgttcaagatgccacgttcaagctgggaagattacgatcctacg
ttgatctcgaaaggtggtggtgtcttctcgcgtaaagcgaagtcgattggactgagcccg
gaaatccagaaaatgttgggtgttcgtaagcaatccatgacgccgaatgagctgatcaaa
cagatcctgaagaccaaagtcgatctgctctggaacggtggtatcggtacttacgtgaag
gccgaaacagaaagccatgcagaagtcggcgatcgcgccaacgatgctgtgcgcgttaat
ggcaatgaactcggtgcccgcattgtcggcgagggtggtaaccttgggatgacccaactt
gcccgtattgagtacgcgatgaacgggggacgtgttaataccgactttatcgataacgtg
ggtggtgttgattgctctgataacgaggtaaacatcaaaatccttcttaacggtttggta
gccgcaggggacctgacctacaaacagcgcaacgagctgcttgagcgcatggaagatgaa
gtctctgagattgtacttgatgatgcgtattgccagagcgaatctatctccgtgacctgc
gaacagcaagtcgccttgttgaaagagcagatccgctttatccactacttggaaaaagaa
ggaaagctggatcgtgcgctggaatatctgccggatgatgaaacactggcagaacggcaa
ctgcgtgggattggtctgactcgtcctgaagttgcagtgctggtagcctatggcaagatg
gtgttgaaagagcaactggtgattgagcaaattacccaagatccacacttcggtaagcta
ttgccggcttattttcctaaagagttacaacgtaactatcgggaagcaatggaaacacac
ccactgcgtagtgaaattattgctaccagcctagcaaaccagatgtctaatgacatgggt
ttcaattttattacccgcatgcaggatgaaaccggtgcgagtgtcggggacattgctgcc
gcttatgcgattgcacgtgaagtgtttgattttgaaaagaccttcgacgaaatccgtgag
ctggacaaccaactaccagctcaagtgcagtatgcactgatgtttcgttgtcgacgtatg
atgcgtcgtactacacgctggattctacgcaatccaatgaaagacaaagggattgaggag
caggtggcgttctacaaacctgcggttaagaacctggcagacaatctggacgtatatctt
gttccgtcggaaatcgaagagcatcaagaacaggccgaggagtacattacacaaggtgta
ccgaagccgattgctgataaaattgtccgtttgaccagcttatatgctggcctggatctg
gctcaggtttccgagcaaatggagaaaccattcgatgttgttgcaaggctttactttgtg
ttaggcgatacattgtcattgcactggttcctcaagcaaatcaccaaccaaccagtagaa
aaccactggcaggcgttggcccgggcatcgttccgtgaagatctggactggcagcaacgt
atgctgacagcccacatcctcgaaggtatgaataacggtgagtctgcagaattgggattg
gaatcctggatggtagagcatgccgtgagtttggggcgttgggagagtatcgtagcggaa
tttaaagtgggtactgtccacgaatttgcgaaattctctgtggcgttgcgggaacttacg
cttttaaatttgaattaa

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