KEGG   Alteromonas macleodii English Channel 673: AMEC673_09880
Entry
AMEC673_09880     CDS       T02254                                 
Name
(GenBank) NAD-specific glutamate dehydrogenase
  KO
K15371  glutamate dehydrogenase [EC:1.4.1.2]
Organism
amg  Alteromonas macleodii English Channel 673
Pathway
amg00220  Arginine biosynthesis
amg00250  Alanine, aspartate and glutamate metabolism
amg00430  Taurine and hypotaurine metabolism
amg00910  Nitrogen metabolism
amg01100  Metabolic pathways
amg01120  Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:amg00001]
 09100 Metabolism
  09102 Energy metabolism
   00910 Nitrogen metabolism
    AMEC673_09880
  09105 Amino acid metabolism
   00250 Alanine, aspartate and glutamate metabolism
    AMEC673_09880
   00220 Arginine biosynthesis
    AMEC673_09880
  09106 Metabolism of other amino acids
   00430 Taurine and hypotaurine metabolism
    AMEC673_09880
Enzymes [BR:amg01000]
 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
     AMEC673_09880
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: AFT74670
UniProt: A0AB32ZYR2
LinkDB
Position
2325231..2330069
AA seq 1612 aa
MTVTSQRHSVLLDNVFALIDKKVDTKQKSLVQQFGRLLYKNISSDDLENRNDSDLYGATL
SLWNGLAKFEHTSPYIRVFNPEIAKHGWHSSHTIVEIIVSDMPFLVDSVRMLLNRLNITA
HLFLHSPIGIKRDKANKVEAFAEPGQSLEGAKKETVIFIEIDRQTSKKDIDALTQELHSV
VDEVSLAVQDWQGMTNTLQDVIKNNGKFNWPVSAEAKKQTKAYLEWLGDHNFTMMGYRYY
DVKAIEGDHRWIPQNDTSLGLLKNSVNDRERLLSRLPASARAEALSKNPLILTKTNSRAR
VHRPAYMDYVGVKVFNKEGQVVGEHRFLGLYSASFYNNSVTQLPILREKIKRICELSGFE
PGTHAYKAFANIIETYPRDELLQTPAEELAQIVMGIFQMQERGISRLFIRKDIFGRFFSC
MVFVPRERYNTQLRKETQALLKASLGATEEVEFTTFFSESVYARTHYIARVNDNNAEFDV
KEIEQNIIELTKTWNDRLASAISAAHGEASGKALERKYNNAFSRSYMEHNLPSAALVDIG
KLEMLDDNHTLDMLFYRPQEEDADSQVVKLKLFHRAEPIHLSDVLPMLENFGLRVIDESP
YKVTCSEGERNWVMDFTMLHKSGQHFDMENAQVLFQDAFAKVWYKTLEDDAFNRLILGAN
MTGRKVTVLRAYAKYMRQTGSSFSRDYIANTLANYPDIARLLVDFFDQRFNPKKKRNEKK
EEGILETIKEQLDNVSNLDDDRIIRRYLDMMSATLRTNFYQADDAGNEKSYVSFKMMPEL
IPDMPLPLPKFEIFVYSPRVEGVHLRGGKVARGGLRWSDRQEDFRTEVLGLVKAQQVKNT
VIVPVGAKGGFVCKNLPVGEGRAAIQAEGQACYRTFITSLLDITDNIVNGEIVPPKDVVR
LDDDDPYLVVAADKGTATFSDIANGIAEEFGFWLGDAFASGGSIGYDHKKMGITARGGWE
SVKRHFREIGIDCQTTDFTAVGVGDMAGDVFGNGMLLSEHTRLIAAFNHLHIFFDPSPDA
AASYKERQRLFENPSLSWEDYDSKLISKGGGVFSRASKSIKLTPEMKKWLGTRQLTMTPN
ELIHNILKMPVDLLWNGGIGTYIKSKKESHSDVGDRANDDLRVNGRDVQAKIVGEGGNLG
LTQLGRIEYASNGGRVNTDFIDNVGGVDCSDNEVNIKILLNSLVNDGELTLKQRNKLLYD
MTDDVSRIVLKDCYRQTQSISITELAGVKQLKEQLRFIHGLEREGQLNRELEFIPSDDEI
SDRVATDQGLTRPELSVLIAYGKMVLKDALNIPEITDNPYHGKLLVEAFPKVLREKFATH
MQQHPLRSEIIATKLTNNMVNDMGLNFVFRMQEETGASVSEIADAYAIVHGIFNMKTLWE
RIEQLDNVIPAQLQLKMLDEARRIMRRASRWYIRHGNKTQSIEEAIASYRGTFDILSKNL
QNYLVKSEFTQLENATQKYIDKGVPEDIAYQVASFSNMFSSFDLAQIVEADKHDTDVVAK
LYYQLGSRLELHWFLDQINNQAVSNHWQALARASYREELDWQQRSIAANLLASREDVSSA
DQILDEWIESNQVLLKRWYHMMSEFKTSTTHEFAKFSVALRELMLLSVKSNH
NT seq 4839 nt   +upstreamnt  +downstreamnt
atgacagtcacctcacagcgacactcagtactgctagacaatgtatttgcacttatcgac
aaaaaagtagataccaagcagaagtctcttgtgcagcaattcggacgtctgttgtataaa
aatatttcaagcgatgacctagaaaatcgcaacgacagcgacctttatggtgcaacactt
agtttatggaatggcttggcgaagtttgagcatacgtcgccatacatacgcgtatttaac
ccggaaattgccaaacacggctggcactcaagccacacaattgttgagattattgtgtcg
gatatgccattcttggttgactcggtgcgcatgttgctaaatcgtttgaacatcaccgca
catttattccttcacagcccaattggcatcaagcgcgacaaagcgaacaaagttgaagcg
tttgctgagccaggtcaatcgcttgaaggtgcgaaaaaagaaacggtcatctttatcgaa
atcgatagacaaacatcgaaaaaagatatcgatgctctaacacaagaactgcactctgtc
gttgatgaagtttctctggcagttcaagactggcaaggcatgacaaataccttgcaagac
gtaattaaaaacaatggtaaatttaactggcctgtatctgcagaagccaaaaagcaaact
aaagcttacttagagtggttaggcgatcacaacttcacaatgatgggttaccgttattat
gacgttaaagccattgaaggggaccatagatggatccctcaaaacgacaccagtttaggt
ttgcttaaaaactcagtaaacgaccgtgagcgattgttgtctcgcttgcctgcgtcggcc
cgtgcggaagcgcttagcaaaaacccattgattctgaccaaaacaaattcacgcgcgcga
gtacaccgtcctgcatatatggactatgtaggcgtgaaggtatttaacaaagaaggtcag
gttgttggtgagcaccgcttcttaggtctgtattctgcctctttctataacaacagcgta
actcagcttccgattttacgtgaaaaaatcaaacgtatttgtgagctatctggtttcgag
cctggaactcacgcatacaaagcgtttgcaaatattatagaaacctacccacgagatgag
ttgctacaaacgccagcggaagagctagcgcaaattgtgatgggtatttttcaaatgcaa
gagcgtggaatttcacgtttattcattcgaaaagacatttttggccgctttttctcgtgc
atggtgtttgtgccaagagagcgctataacacccagttacgcaaagaaacccaagcgcta
cttaaagcgtcattgggcgcaactgaagaagtggaatttactacgttcttctcagagtct
gtatatgcccgtacgcattacattgctagagtcaacgacaacaacgcggaattcgatgtg
aaggaaatagagcaaaacattattgagttgaccaaaacctggaatgacagactcgcgtca
gctatttcagcggcacacggtgaggcttcgggtaaagcgttggaacgcaaatacaacaat
gctttctctcgcagctatatggagcataacctaccgtcagcagcgcttgtagatattggc
aaactagagatgttagacgacaaccacacattggatatgttgttctatcgtccacaagaa
gaagacgctgacagccaagtagttaagcttaagcttttccaccgtgctgagcctattcat
ttgtctgacgtgttaccgatgcttgagaattttgggttacgcgtaatcgatgaaagccct
tataaagttacgtgttcagaaggtgaacgtaactgggtcatggacttcaccatgttacat
aaaagtggtcagcactttgacatggaaaacgcccaggttctctttcaagatgcctttgcc
aaagtgtggtacaagacactagaagacgacgcgtttaaccgccttatccttggcgcgaat
atgactggccgtaaagttacggtactccgtgcttatgctaaatacatgcgccagaccggc
agttctttcagccgtgactacatcgcaaacacactagctaactatccagacattgctcgt
ttactcgtagactttttcgaccagcgttttaatcctaagaaaaagcgcaatgagaaaaaa
gaggaaggtattcttgagactattaaggaacagttagataacgttagcaacttggatgat
gaccgaattattcgtcgttatctggatatgatgtctgcaacgttacgtacaaacttctat
caggcagacgatgccggcaatgaaaaatcatatgtatcatttaagatgatgcctgaactc
attcctgacatgccattaccactgcctaagtttgaaatttttgtttacagtcctcgcgtt
gaaggtgtgcacctgcgtggcggcaaagttgcccgcggcggtcttcgttggtctgataga
caagaagacttcagaacagaagtactcggcctagtaaaagcgcaacaagttaaaaacacg
gtgatcgtgccggttggtgcaaaaggtggtttcgtttgtaagaacctacctgtaggcgaa
ggtcgcgcagctattcaggctgaaggccaagcatgctatcgcactttcatcaccagcttg
ttagatattactgacaacattgtaaatggtgaaattgttcctcctaaggatgttgttcgc
cttgatgatgacgacccttatttggttgttgctgcagataaaggcaccgccacattctct
gatatcgcaaacggtattgcggaagagtttgggttttggctgggcgatgcatttgcatct
ggcggtagtattggatacgaccataagaaaatgggaattactgcacgcggcggatgggag
tcggttaaacgtcatttcagagaaattggtatcgactgtcagaccactgactttaccgct
gttggtgtgggcgacatggcaggtgacgtattcggtaacggtatgttgctatcagagcat
acgcggctaatcgctgcgtttaaccatttacatattttcttcgatccaagcccagatgca
gcagcaagttataaagagcgtcaacgcctgtttgagaatccaagcctaagctgggaagac
tatgacagtaagctgatttcaaaaggcggtggcgtatttagccgcgcgtctaaatctatc
aagcttacccctgaaatgaaaaagtggttaggtacgcgtcagctaacgatgacgcctaat
gagctaattcataatatattgaaaatgccagttgacctactgtggaacggtggtatcggt
acgtatattaagagcaagaaagaatctcactcagacgtaggtgaccgtgctaatgatgac
ttacgcgtcaatggtcgtgacgtacaagctaaaattgtgggcgagggcggtaacttaggt
ctaacgcagttaggtcgtattgaatatgcgtctaacggtggccgagttaacactgacttc
atcgataacgtaggtggggttgattgctcggataacgaagtaaacatcaaaatcttgctt
aacagcctagttaacgacggtgaacttacgcttaaacagcgtaataagttgctctacgat
atgaccgacgatgtaagtcgaattgtactgaaagactgctaccgtcaaactcagtctatc
tctattactgagttagctggcgttaagcaacttaaagaacagcttcgctttatccacggt
cttgagcgtgaaggtcagctaaaccgtgaattggaatttattccaagtgacgatgagatt
tcagatcgcgtagccacggatcaaggtttaactcgcccagagttaagcgtattgattgcg
tacggcaaaatggtacttaaagatgcgcttaatattccggaaattactgacaatccttac
cacggtaagttgttagtagaagctttccctaaagtgctccgcgaaaaattcgcaacacac
atgcaacagcatccgcttagaagcgaaattattgcgactaagttaaccaacaacatggtt
aacgacatgggccttaacttcgtgtttagaatgcaggaagaaactggcgcaagtgtgagc
gaaattgctgacgcatatgcaattgttcacggtatctttaacatgaagacgctgtgggag
cgcatcgaacaactggataacgttattccagctcagctacagcttaaaatgttagatgaa
gcacgcagaattatgcgtcgcgcttcgcgctggtatattcgccacggtaataagacgcaa
tccattgaagaagccatcgcgagctaccgtggtaccttcgatattttatcgaagaacctg
caaaactacttggttaaaagcgaatttactcagcttgaaaacgctacgcagaaatacatt
gataagggtgtaccagaagacatcgcttatcaggttgcaagcttctctaacatgttctct
agctttgaccttgcgcaaatcgttgaagcagataagcatgataccgatgtagtcgctaag
ctttactatcagctaggttctcgtttagaacttcactggttcttagatcagataaacaac
caggcagtaagcaaccactggcaagcgttagctcgcgcctcgtatcgtgaagagttagat
tggcagcagcgttccattgcagcaaatcttttagcttctcgcgaagacgtaagtagtgca
gatcaaattcttgatgagtggattgaaagcaatcaggtcctacttaagcgctggtatcac
atgatgtctgagtttaagaccagtacaacgcacgaatttgcgaaattttctgtcgcttta
cgtgaattgatgcttttaagcgtgaagtctaaccattag

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