Alteromonas mediterranea DE1: amad1_10745
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Entry
amad1_10745 CDS
T02340
Name
(GenBank) NAD-specific glutamate dehydrogenase
KO
K15371
glutamate dehydrogenase [EC:
1.4.1.2
]
Organism
amaa
Alteromonas mediterranea DE1
Pathway
amaa00220
Arginine biosynthesis
amaa00250
Alanine, aspartate and glutamate metabolism
amaa00430
Taurine and hypotaurine metabolism
amaa00910
Nitrogen metabolism
amaa01100
Metabolic pathways
amaa01120
Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:
amaa00001
]
09100 Metabolism
09102 Energy metabolism
00910 Nitrogen metabolism
amad1_10745
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
amad1_10745
00220 Arginine biosynthesis
amad1_10745
09106 Metabolism of other amino acids
00430 Taurine and hypotaurine metabolism
amad1_10745
Enzymes [BR:
amaa01000
]
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
amad1_10745
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Gene cluster
GFIT
Motif
Pfam:
Bac_GDH_CD
GDH_C
GDH_ACT1
GDH_ACT2
GDH_HM3
GDH_ACT3
GDH_HM1
GDH_HM2
ELFV_dehydrog
Motif
Other DBs
NCBI-ProteinID:
AFV85656
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All DBs
Position
2406170..2411008
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AA seq
1612 aa
AA seq
DB search
MTVTSQRHSVLLDNVFALIDKKVDTKQKSLVQQFGRLLYKNISSDDLENRNDSDLYGATL
SLWNGLAKFDNTSPYIRVFNPEIAKHGWHSSHTIVEIIVSDMPFLVDSVRMLLNRLNITA
HLFLHSPIGIKRDNSNKVEAFAEPGKTINGARKETVLFIEIDTQTSKKDIDALTQELYSV
VDEVSLAVKDWQGMTNTLQEVIKKSATFNWPVSADAKKQTKAYLEWLGDHNFTMMGYRYY
DVKAIEGDHRWIPQNDTSLGLLKNSINDRERLLSRLPASARAEALSKNPLILTKTNSRAR
VHRPAYMDYVGVKEFNKDGQVVGEHRFLGLYSASFYNNSVTQLPILREKIKRICELSGFE
PGTHAYKAFANIIETYPRDELLQTPAEELAQIVMGIFQMQERGISRLFIRKDTFGRFFSC
MVFVPRERYNTELRKETQALLKASLGAAEEVEFTTFFSESVYARTHYIARVNDNNAEFDV
KEIEQNIIELTKTWNDRLASAISAAHGEASGKALERKYNNAFSRSYMEHNLPSAALVDIG
KLETLDDNHTLDMLFYRPQEEGADSQVVKLKLFHRAEPIHLSDVLPMLENFGLRVIDESP
YKITCSEGERNWVMDFTMLHKSGQHFDMEKAQVLFQDAFAKVWYKTLEDDAFNRLILGAN
MTGRKVTVLRAYAKYMRQTGSSFSRDYIANTLANYPDIARLLVDFFDQRFNPKKKRSEKK
EEALLDTIKAQLDNVSNLDDDRIIRRYLDMMSATLRTNFYQNDEAGDEKSYVSFKMMPEL
IPEMPLPLPKFEIFVYSPRVEGVHLRGGKVARGGLRWSDRQEDFRTEVLGLVKAQQVKNT
VIVPVGAKGGFVCKNLPVGQGREAIQAEGQACYRIFITSLLDITDNIVNGEIVPPKDVVR
LDDDDPYLVVAADKGTATFSDIANGIAEDFGFWLGDAFASGGSIGYDHKKMGITARGGWE
SVKRHFREIGIDCQTTDFTCAGVGDMAGDVFGNGMLLSEHTRLIAAFNHMHIFFDPNPDA
AASYKERQRLFENPRLSWEDYDSKLISKGGGVFSRASKSIKLTPEMKKWLGTRQLTMTPN
ELIHNILKMPVDLLWNGGIGTYIKSKKESHSEVGDRANDDLRVNGRDVQAKIVGEGGNLG
LTQLGRIEYAANGGRVNTDFIDNVGGVDCSDNEVNIKILLNSLVNDGELTLKQRNKLLYD
MTDDVSEIVLKDCYRQTQSISITELAGVKQLKEQLRFIHGLEREGQLNRELEFIPSDDEI
SDRVATDQGLTRPELSVLIAYGKMVLKDALNIPEITDNAYHGKLLVEAFPKILREKFATH
MQQHPLRSEIIATKLTNNMVNDMGLNFVFRMQEETGASVSEIANAYAIVHGIFNMKTLWA
RIEELDNAIPAKLQLKMLDEARRIMRRASRWYIRHGNKSQSIEEAIESYRGTFDILSKNL
QHYLVESEYKQLEAATQQYIDKGVPQDIAYQVASFSNMFSSFDLAQIVEADKHDTDVVAK
LYYQLGSRLELHWFLDQINNQAVSNHWQALARASYREELDWQQRSIAANLLASRGDISDA
DQILDEWIESNQVLLKRWYHMMSEFKTSTTHEFAKFSVALRELMLLSVKSNH
NT seq
4839 nt
NT seq
+upstream
nt +downstream
nt
atgacagtcacctcacagcgacactcagtactgctagacaatgtatttgcacttatcgac
aagaaagtagataccaagcagaagtctcttgtgcagcaattcggacgtctgttgtataaa
aatatatcaagcgatgacttagaaaatcgcaacgacagcgacctgtatggtgcaacactt
agtttatggaacggactagcaaagttcgataatacatcgccttatattcgcgtttttaat
ccagaaatagcaaagcatggatggcactctagtcatacgattgttgaaattatcgtttcg
gatatgccatttttagttgattctgtgcgtatgttgctgaaccgactaaatattaccgct
catttatttcttcatagccccattggcattaaacgagacaactcaaacaaagtcgaagcg
tttgcagagccggggaagactattaatggcgcgagaaaagaaaccgttctgtttattgaa
attgatacacaaacgtcgaaaaaagacattgatgcattaacgcaagagctttattcagtg
gttgatgaagtgtctctagccgtcaaagactggcagggaatgactaacacactacaagaa
gtgataaaaaagagcgctacgtttaattggcctgtttctgcagacgcgaaaaagcagacg
aaagcgtatttagagtggctgggcgaccataacttcaccatgatgggctatcgttattac
gacgttaaagctattgaaggtgatcatagatggataccgcaaaacgatactagtcttgga
ttgctaaaaaactcgattaatgaccgagaacgtttgttgtctcgcttgcctgcttcagca
agagccgaagctcttagcaagaatccattaattctaactaaaaccaattcacgcgctcgc
gtacaccgacctgcctacatggattacgtgggtgttaaagagtttaataaagatggtcaa
gttgtgggagagcatcgtttcctaggtttgtattcggcttctttttacaataatagcgtt
acccaactacctattcttcgagagaaaattaagcgaatctgtgagctctcaggttttgaa
ccaggtacccatgcctacaaggccttcgcaaacattattgagacgtatcctcgtgatgag
cttcttcaaacgccggcagaagaacttgctcaaattgtaatgggcatctttcagatgcaa
gagcgcggtatttctcgtctgtttattcgaaaagatacatttggccgctttttctcatgc
atggtttttgttcctagagagcgctacaacactgagctaagaaaagaaacacaagcgctt
ttaaaagcgtccttaggtgcagcagaggaagtggaatttactactttcttctcagagtct
gtatatgcccgtacgcactatattgcgagagtcaacgacaacaacgcggaattcgatgtg
aaggaaatagagcaaaacattattgagttgaccaaaacgtggaacgacagactagcgtca
gcaatttcagccgcccacggtgaggcgtcaggcaaagcgctagaacgcaagtataacaac
gcgttctctcgaagctacatggaacacaaccttccatcggctgcactggttgatatcggc
aaacttgagacccttgacgacaaccatacccttgatatgctgttctatcgaccgcaagaa
gaaggcgccgacagccaggtagttaagcttaagcttttccatcgcgcagagcctattcac
ttgtcagacgttttgcctatgctagagaattttgggttacgcgtaatcgacgagagccca
tataaaatcacatgttcagaaggtgaacgtaattgggtcatggatttcaccatgctgcac
aaaagcggccagcattttgacatggaaaaggcgcaagtcctgttccaagacgcgtttgca
aaggtgtggtacaaaacgttagaagacgacgcattcaaccgccttattttaggcgcgaac
atgacggggcgtaaggtaaccgtattgcgcgcttatgctaagtacatgcgtcaaaccggt
agctccttcagtcgtgactatattgctaatacgttagctaattacccagacattgcccgt
ttactggtggactttttcgaccagcgcttcaatccgaagaaaaagcgtagtgagaaaaaa
gaagaggcacttttagacaccatcaaggcacaactagacaacgttagtaacttagatgac
gaccgtataattcgtcgttaccttgatatgatgtctgccactttgcgcacgaacttctat
cagaatgatgaagcaggcgatgagaaatcttatgtctcatttaagatgatgcctgaactt
attcctgaaatgccgctgcctttaccgaaatttgaaatttttgtttacagcccgcgggtt
gaaggtgtgcaccttcgaggcggtaaagttgcacgcggtggcctacgctggtcagaccgt
caagaagacttcagaaccgaagtacttggcctggtaaaagcacagcaagttaaaaatacg
gttatcgtaccggttggcgcaaaaggtgggttcgtctgtaagaatctacctgtaggccaa
gggcgcgaggctattcaagcagaaggtcaagcgtgttatcgcatctttatcaccagctta
ctggatattaccgataacattgttaacggtgaaattgttccacctaaagatgtagttcgc
cttgacgatgacgacccttacttggtggttgcggccgacaaaggaacggctacgttctct
gatattgctaacggtatcgcagaagactttggcttttggttaggtgatgcgtttgcctct
ggtggtagcattgggtacgaccataagaaaatgggtatcactgctcgtggcggctgggaa
tcagttaaacgccactttagagagattggcatagactgccagaccactgatttcacctgc
gcgggtgtgggtgatatggcgggcgatgtgtttggcaacggtatgctgctttcagagcac
acccgtttgattgctgcatttaaccacatgcacattttcttcgatcccaacccggatgca
gctgcgagttacaaagaacgccaacgcctgttcgaaaacccacgccttagctgggaagac
tacgatagcaagctgatatcgaaagggggcggtgtatttagtcgtgcgtcaaaatctata
aaactaacgcctgaaatgaaaaagtggttaggcacacgtcagttaacgatgacccctaat
gaacttattcataacattctaaagatgccagtagatcttctttggaatggcggtattggt
acctacattaagagcaaaaaagaatcgcattctgaagtaggcgatcgcgccaacgacgac
ttacgcgttaatggccgcgatgttcaagcgaaaattgtaggcgagggtggcaaccttggc
ctaacccaattaggtcgaattgaatatgccgcaaacggcggtcgtgttaataccgacttt
attgacaacgtaggtggcgtcgactgctcagataacgaagtaaatattaaaatattgctt
aatagtttggttaacgacggtgagctaacccttaagcagcgcaataagttgctttacgat
atgaccgacgatgttagcgaaattgtacttaaagattgctatcgccaaacccagtctatc
tccattaccgagctagctggcgttaagcagctaaaagagcaacttcgcttcatccacggc
ttagagcgcgaaggccagttaaaccgcgaactagagtttattccaagtgatgatgaaata
tcagaccgcgtggcgaccgatcaaggtttgacgcgccccgagctgagcgttttgattgct
tacggaaaaatggtgcttaaagacgcactcaatattcctgaaattactgacaatgcttac
cacggcaagctattagtagaagcgttccccaaaatactgcgtgagaagttcgctacacac
atgcagcaacacccgcttcgaagcgaaatcattgcaacgaaattaaccaacaatatggtt
aatgacatgggccttaactttgtatttagaatgcaagaagaaacgggtgccagcgtcagc
gaaattgccaatgcctacgctattgtgcacggtatcttcaacatgaagaccttgtgggcg
cgtatagaagaattagacaatgcaattccagcaaaacttcagcttaaaatgctagatgaa
gcgcgcagaataatgcgtcgcgcgtcgcgttggtacattcgacacggcaataagtcgcaa
agtatcgaagaggcaattgaaagctatcgcggcacctttgatattctttctaagaatttg
cagcactatttagtggaaagtgagtacaaacagcttgaagctgccacccaacaatatatt
gataagggtgtgccacaagatatcgcctatcaagtggcgagcttctcgaatatgttctct
agtttcgacctggctcaaattgtggaagcagacaagcacgatacggatgttgttgctaag
ctttattatcaactgggctctcgtttagaactgcattggttcttagatcagattaacaat
caggctgtaagtaaccattggcaagcgttagcacgtgcctcatatcgagaagagcttgat
tggcaacagcgctctatcgccgctaacttattagcatcacgtggggatataagcgacgct
gatcaaattttagatgaatggattgaaagcaatcaggtactacttaagcgctggtatcac
atgatgtcagagtttaagaccagtacgacacacgaatttgcgaaattttctgtcgcttta
cgtgaattgatgcttttaagcgtgaagtctaaccattag
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