Entry |
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Name |
(GenBank) NAD-specific glutamate dehydrogenase
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KO |
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Organism |
amb Alteromonas macleodii Balearic Sea AD45
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Pathway |
amb00250 | Alanine, aspartate and glutamate metabolism |
amb00430 | Taurine and hypotaurine metabolism |
amb01120 | Microbial metabolism in diverse environments |
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Brite |
KEGG Orthology (KO) [BR:amb00001]
09100 Metabolism
09102 Energy metabolism
00910 Nitrogen metabolism
AMBAS45_10085
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
AMBAS45_10085
00220 Arginine biosynthesis
AMBAS45_10085
09106 Metabolism of other amino acids
00430 Taurine and hypotaurine metabolism
AMBAS45_10085
Enzymes [BR:amb01000]
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
AMBAS45_10085
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SSDB |
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Motif |
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Other DBs |
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LinkDB |
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Position |
2385601..2390439
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AA seq |
1612 aa
MTVTSQRHSVLLDNVFALIDKKVDTKQKSLVQQFGRLLYKNISSDDLENRNDSDLYGATL
SLWNGLAKFEHTSPYIRVFNPEIAKHGWHSSHTIVEIIVSDMPFLVDSVRMLLNRLNITA
HLFLHSPIGIKRDKANKVEAFAEPGQSLEGAKKETVIFIEIDRQTSKKDIDALTQELHSV
VDEVSLAVQDWQGMTNTLQDVIKNNAKFNWPVSTEAKKQTKAYLEWLGDHNFTMMGYRYY
DVKAIEGDHRWIPQNDTSLGLLKNSVNDRERLLSRLPASARAEALSKNPLILTKTNSRAR
VHRPAYMDYVGVKVFNKEGQVVGEHRFLGLYSASFYNNSVTQLPILREKIKRICELSGFE
PGTHAYKAFANIIETYPRDELLQTPAEELAQIVMGIFQMQERGISRLFIRKDIFGRFFSC
MVFVPRERYNTQLRKETQALLKASLGATEEVEFTTFFSESVYARTHYIARVNDNNAEFDV
KEIEQNIIELTKTWNDRLASAISAAHGEASGKALERKYNNAFSRSYMEHNLPSAALVDIG
KLEMLDDNHTLDMLFYRPQEEDADSQVVKLKLFHRAEPIHLSDVLPMLENFGLRVIDESP
YKVTCSEGERNWVMDFTMLHKSGQHFDMENAQILFQDAFAKVWYKTLEDDAFNRLILGAN
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
agtttatggaatggcttggcgaagtttgaacatacgtcgccatacatacgcgtatttaac
ccggaaattgccaaacacggctggcactcaagccacacaattgttgagattattgtgtcg
gatatgccattcttggttgactcggtgcgcatgttgctaaatcgtttgaacatcaccgca
catttattccttcacagcccaattggcattaagcgcgacaaagcgaacaaagttgaagcg
tttgctgagccaggtcaatcgcttgaaggtgcgaaaaaagaaacggtcatctttatcgaa
atcgatagacaaacatcgaagaaagacatcgatgctctaacacaagaactacactctgtc
gttgatgaagtttctttggcagttcaagactggcaaggcatgacaaataccttgcaagac
gtaattaaaaacaatgctaaatttaactggcctgtatctacagaagccaaaaagcaaact
aaggcttacttagaatggttaggcgatcacaacttcacaatgatgggttaccgttattat
gacgttaaagccattgaaggggaccatagatggatccctcaaaacgacaccagtttgggt
ttgcttaaaaactcagtaaacgaccgtgagcgtttgttgtctcgcttgcctgcgtcggcc
cgtgccgaagcgcttagcaaaaacccattgattctgaccaaaacaaattcacgcgcgcga
gtacaccgtcctgcatatatggactatgtaggcgtgaaggtatttaacaaagaaggtcag
gttgttggtgagcaccgctttttaggtttgtattctgcctctttctataacaacagcgta
actcagcttccgattttacgtgaaaaaatcaaacgtatttgtgagctatctggtttcgag
cctggaactcacgcatacaaagcgtttgcaaatattatagaaacctacccacgagatgag
ttgctacaaacgccagcagaagaactagcgcaaattgtgatgggtatttttcaaatgcaa
gagcgtggaatttcacgtttattcattcgaaaagacatttttggccgctttttctcgtgc
atggtgtttgtgccaagagagcgctataacacccagttacgcaaagaaacccaagcgcta
cttaaagcgtcattgggcgcaacagaagaagtggaatttactacgttcttctcagagtct
gtatatgctcgtacgcattacattgctagagtcaacgacaacaacgcggaattcgatgtg
aaggaaatagagcaaaacattattgagttgaccaaaacctggaatgacagactcgcgtca
gctatttcagcggcacacggtgaggcctcgggtaaagcgttggaacgcaaatacaacaat
gctttctctcgcagctatatggagcataacctaccgtcagcagcgcttgtagatattggc
aaattagagatgttagacgacaaccacacactggatatgttgttctatcgtccacaagaa
gaagacgctgacagccaagtagttaagcttaagcttttccaccgtgccgagcccatccat
ttgtctgacgtgttgccgatgcttgagaattttgggttacgcgtaattgatgaaagccct
tataaagtcacgtgttcagaaggtgaacgtaactgggtcatggacttcaccatgttacat
aaaagtggtcagcactttgacatggaaaacgcccagattctctttcaagatgccttcgcc
aaagtatggtataagacactagaagacgacgcgtttaaccgtcttatccttggcgcgaat
atgactggccgtaaagttacggtactccgtgcttatgctaaatacatgcgccagaccggc
agttctttcagccgtgactacatcgcaaacacactagctaactatccagacattgctcgt
ttactcgtagactttttcgaccagcgttttaatcctaagaaaaagcgcaatgagaaaaaa
gaggaaggtattcttgagactattaaggaacagttagacaacgttagtaacttggatgac
gaccgaattattcgtcgttatctggatatgatgtctgcaacgttacgtacaaacttctat
caggcagacgatgccggcaatgagaaatcatatgtatcatttaagatgatgccggaactc
attcctgacatgccattaccactgcctaaatttgaaatttttgtttacagtcctcgcgtt
gaaggtgtgcacttgcgtggcggcaaagttgcccgcggcggtcttcgttggtctgataga
caagaagacttcagaacagaagtactcggcctagtaaaagcgcaacaagttaaaaacacg
gtgatcgttccggttggtgcaaaaggtggtttcgtttgtaagaacctacctgtaggcgaa
ggtcgcgcagctattcaggctgaaggccaagcatgctatcgcactttcatcaccagcttg
ttagatattactgacaacattgtaaatggtgaaattgttcctcctaaggatgttgttcgc
cttgatgatgacgacccttatttggttgttgctgcagataaaggcaccgccacgttctct
gatatcgcaaacggtattgcggaagagtttgggttttggctgggcgatgcatttgcatct
ggcggtagtattggatatgaccataagaaaatgggtattactgcacgcggcggatgggag
tcggttaaacgtcatttcagagaaattggtattgactgtcagaccactgactttaccgct
gttggtgtgggcgacatggcaggtgacgtattcggtaacggtatgttgctatcagagcat
acgcgactaatcgctgcgtttaaccatttacatattttcttcgatccaagccctgatgca
gcagcaagttataaagagcgtcaacgcctgtttgagaacccaagcctaagctgggaagac
tatgacagtaagctgatttcaaaaggtggtggcgtatttagccgcgcgtctaaatctatc
aagcttacacctgaaatgaaaaagtggttaggtacgcgtcagctaacgatgacgcctaat
gagctaattcacaatatattgaaaatgccagtcgacctactgtggaacggtggaatcggt
acgtacattaagagcaagaaagagtctcactcagacgtaggtgaccgtgctaatgacgac
ttacgcgtcaatggtcgtgacgtacaagctaaaattgtgggcgagggcggtaatttaggt
ctaacgcagttaggtcgtattgagtatgcgtctaacggtggccgagttaacactgacttc
atcgataacgtaggtggggttgattgctcggataacgaagtaaacatcaaaatcttgctt
aacagcctagttaacgacggtgaacttacgcttaaacagcgtaataagttgctttacgat
atgaccgacgatgtaagtcgaattgtactgaaagactgctaccgtcaaactcagtctatc
tctattactgagttagctggcgttaagcaacttaaagaacagcttcgctttatccacggt
cttgagcgtgaaggtcagctaaaccgtgagttggaatttattccaagtgacgatgagatt
tctgatcgcgtagccacggatcaaggtttaactcgcccagagttaagcgtattgattgcg
tacggcaaaatggtacttaaagatgcgcttaatattccggaaattactgacaatccttac
cacggtaagttgttagtagaagccttccctaaagtgctccgcgaaaaattcgcaacacac
atgcaacagcatccgcttagaagcgaaattattgcgactaagttaaccaacaacatggtt
aacgacatgggccttaacttcgtgtttagaatgcaggaagaaactggcgcaagtgtgagc
gaaattgctgacgcatacgcaattgttcacggtatctttaatatgaagacgctgtgggag
cgcatcgaacaactggataacgttattcctgctcagctacagcttaaaatgttggatgaa
gcacgtagaattatgcgtcgcgcttcgcgctggtatattcgccacggcaataagacgcaa
tccattgaagaagccatcgcgagctaccgtggtaccttcgatattttatcgaagaacctg
caaaactacttggttaaaagcgaatttactcagcttgaaaacgctacgcagaaatacatt
gataagggtgtaccagaagacatcgcttatcaggttgcaagcttctctaacatgttctct
agctttgaccttgctcaaatcgttgaagcagataagcacgataccgatgtagtcgctaag
ctttactatcagctaggttctcgtttagaacttcactggttcttagatcagataaacaac
caggcggtaagcaaccactggcaagcgttagctcgcgcctcgtatcgtgaagagttagat
tggcagcagcgttccattgcagctaacctgctagcttctcgcgaagacgtaagtagtgca
gatcaaattcttgatgagtggattgaaagcaatcaggtcctacttaagcgctggtatcac
atgatgtctgagtttaagaccagtacaacgcacgaatttgcgaaattttctgtcgcttta
cgtgaattgatgcttttaagcgtgaagtctaaccattag |