Alteromonas macleodii Black Sea 11: AMBLS11_09380
Help
Entry
AMBLS11_09380 CDS
T02260
Name
(GenBank) NAD-specific glutamate dehydrogenase
KO
K15371
glutamate dehydrogenase [EC:
1.4.1.2
]
Organism
amk
Alteromonas macleodii Black Sea 11
Pathway
amk00220
Arginine biosynthesis
amk00250
Alanine, aspartate and glutamate metabolism
amk00430
Taurine and hypotaurine metabolism
amk00910
Nitrogen metabolism
amk01100
Metabolic pathways
amk01120
Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:
amk00001
]
09100 Metabolism
09102 Energy metabolism
00910 Nitrogen metabolism
AMBLS11_09380
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
AMBLS11_09380
00220 Arginine biosynthesis
AMBLS11_09380
09106 Metabolism of other amino acids
00430 Taurine and hypotaurine metabolism
AMBLS11_09380
Enzymes [BR:
amk01000
]
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
AMBLS11_09380
BRITE hierarchy
SSDB
Ortholog
Paralog
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:
AFT78453
LinkDB
All DBs
Position
2228625..2233463
Genome browser
AA seq
1612 aa
AA seq
DB search
MTVTSQRHSVLLDNVFALIDKKVDTKQKSLVQQFGRLLYKNISSDDLENRNDSDLYGATL
SLWNGLAKFEHTTPYIRVFNPEIAKHGWHSSHTIVEIIVSDMPFLVDSVRMLLNRLNITA
HLFLHSPIGIKRDGSNKVEAFAEPGKSIEGAKKETVIFIEIDTQTSKKDIDALTQELHSV
VDEVSLAVQDWQGMTNTLQDVIKNNAKFNWPVSAEAKKQTKAYLEWLGDHNFTMMGYRYY
DVKAIEGDHRWIPQNDTSLGLLKNSVNDRERLLSRLPASARAEALSKNPLILTKTNSRAR
VHRPAYMDYVGVKVFNKEGQVVGEHRFLGLYSASFYNNSVTQLPILREKIKRICELSGFE
PGTHAYKAFANIIETYPRDELLQTPAEELAQIVMGIFQMQERGISRLFIRKDIFGRFFSC
MVFVPRERYNTQLRKETQALLKASLGATEEVEFTTFFSESVYARTHYIARVNDNNAEFDV
KEIEQNIIELTKTWNDRLASAISAAHGEASGKALERKYNNAFSRSYMEHNLPSAALVDIG
KLETLDDNHTLDMLFYRPQEEDADSQVVKLKLFHRAEPIHLSDVLPMLENFGLRVIDESP
YKVTCSEGERNWVMDFTMLHKSGQHFDMENAQILFQDAFAKVWYKTLEDDAFNRLILGAN
MTGRKVTVLRAYAKYMRQTGSSFSRDYIANTLANYPDIARLLVDFFDQRFNPKKKRNEKK
EEALLETIKEQLDNVSNLDDDRIIRRYLDMMSATLRTNFYQADSAGNEKSYVSFKMMPEL
IPDMPLPLPKFEIFVYSPRVEGVHLRGGKVARGGLRWSDRQEDFRTEVLGLVKAQQVKNT
VIVPVGAKGGFVCKNLPVGEGRAAIQAEGQACYRTFITSLLDITDNIVNGEIVPPKDVVR
LDDDDPYLVVAADKGTATFSDIANGIAEEFGFWLGDAFASGGSIGYDHKKMGITARGGWE
SVKRHFREIGIDCQTTDFTCVGVGDMAGDVFGNGMLLSKHTRLIAAFNHLHIFFDPNPDA
AASYKERQRLFENPSLSWEDYDSKLISKGGGVFSRASKSIKLTPEMKKWLGTRQLTMTPN
ELIHNILKMPVDLLWNGGIGTYIKSKKESHSDVGDRANDDLRVNGRDVQAKIVGEGGNLG
LTQLGRIEYASNGGRVNTDFIDNVGGVDCSDNEVNIKILLNSLVNDGELTLKQRNKLLYD
MTDDVSRIVLKDCYRQTQSISITELAGVKQLKEQLRFIHGLEREGQLNRELEFIPSDDEI
SDRVATDQGLTRPELSVLIAYGKMVLKDALNIPEITDNPYHGKLLVEAFPKVLREKFATH
MQQHPLRSEIIATKLTNNMVNDMGLNFVFRMQEETGASVSEIADAYAIVHGIFNMKTLWE
RIEQLDNVIPAQLQLKMLDEARRIMRRASRWYIRHGNKAQSIEEAIASYRGTFDILSKNL
QNYLVKSEYAQLEAVTQKYIDKGVPEDIAYQVASFSNMFSSFDLAQIVESDKHDTDVVAK
LYYQLGSRLELHWFLDQINNQAVSNHWQALARASYREELDWQQRSIAANLLASREDINNA
DQILDEWIESNQVLLKRWYRMMSEFKTSTTHEFAKFSVALRELMLLSVKSNH
NT seq
4839 nt
NT seq
+upstream
nt +downstream
nt
atgacagtcacctcacagcgacactcagtactgctagacaatgtatttgcacttatcgac
aaaaaggtagataccaagcagaagtctcttgtgcagcaattcggacgtctgttgtataaa
aatatatcaagcgatgacttagaaaatcgcaacgacagcgacctttatggtgcaacactt
agtttatggaatggtttggcgaagtttgaacatacaacgccatacattcgcgttttcaac
cctgaaattgccaaacacggctggcactcaagccacacaattgtagaaattattgtgtcg
gacatgcctttcttggttgattctgtgcgcatgttgctaaaccgattaaacatcaccgca
cacttgttccttcatagtcccattggcattaaacgcgacggttcgaataaagttgaagcg
tttgcagagccaggtaaatctatcgaaggtgctaaaaaagaaacggttatctttatcgaa
attgatacacaaacatcgaaaaaagatattgatgcattaactcaagagctccattctgtc
gttgatgaagtctctttagcagtgcaagactggcaaggtatgacgaacaccctacaggac
gtcattaaaaacaacgcaaaatttaactggccagtatctgcagaagcgaaaaaacaaact
aaagcgtatcttgaatggttaggcgatcacaactttacaatgatgggttaccgttattat
gacgttaaagcgattgagggtgaccatagatggatccctcaaaacgataccagtttgggt
ttgcttaagaactcagtaaacgatcgtgagcgtttattatctcgcttgcctgcgtcggcc
cgagccgaggcgttgagcaaaaacccattaattctgaccaaaacaaattcacgcgcgcga
gtacaccgtcctgcatatatggactatgtaggcgtgaaggtgtttaacaaagaaggtcag
gttgttggtgagcaccgcttcttaggcctttactctgcttctttttataacaacagcgta
actcagcttccgattttacgtgaaaagatcaaacgcatttgtgaactgtctggttttgag
ccaggaactcacgcttataaagccttcgcgaatattatcgaaacttacccgcgtgacgag
ttattacaaacgccagcggaagagctagcgcaaatcgtgatgggtattttccaaatgcaa
gagcgaggtatttctcgtttattcattcgaaaagatatctttggtcgctttttctcttgt
atggtatttgtaccaagagaacgctataacacccagttacgcaaagagacccaagcgcta
cttaaagcgtcattaggcgcaacagaagaagttgaatttactacgttcttctcagagtct
gtgtatgcccgaacgcattacattgccagagtcaacgacaacaacgcggaattcgatgtg
aaggaaatagagcaaaacattattgagttgacgaaaacctggaatgacagactggcgtca
gctatttcagcggcgcatggtgaagcatcaggtaaagcgttggagcgtaaatataacaac
gctttttctcgcagctacatggagcacaacctgccatcagcagcgcttgtagatattggt
aaattagaaacgttagacgacaaccacacactggatatgttgttctatcgccctcaagaa
gaagacgcagacagccaagtcgttaagcttaagcttttccaccgtgcagagcctattcat
ttgtcagacgtgttacccatgcttgaaaattttgggttacgcgtaatcgatgagagccct
tataaagtcacgtgttcagagggtgaacgcaattgggtaatggacttcaccatgttacat
aaaagtggccaacactttgacatggagaacgctcaaatcctcttccaagatgcctttgct
aaggtatggtacaaaacgctagaagacgacgcatttaaccgtcttattcttggtgcaaat
atgactggccgtaaggtaacggtattgcgcgcctatgctaaatatatgcgccagactggt
agttcatttagtcgtgactatatcgcgaacacgcttgcgaactatccagacattgctcgt
ttacttgtagactttttcgaccagcgctttaaccctaagaaaaagcgtaatgagaaaaaa
gaagaggctttactggagaccatcaaggaacagttagataacgtaagcaaccttgatgac
gaccgaattatccgtcgttacctagacatgatgtctgcaacgctacgtacaaacttctac
caggcggactccgcgggcaacgagaagtcatacgtatcgtttaagatgatgcctgaactc
atcccagacatgccgctgccgttaccaaaattcgaaatctttgtgtacagccctcgcgtt
gaaggtgttcaccttcgcggcggtaaagttgcacgtggtggtctgcgttggtctgaccgt
caggaagactttagaacagaagtgcttggcttggtgaaagcgcagcaggttaagaatacg
gtaattgttccagtaggcgccaagggtggattcgtttgtaagaatttaccagtgggtgaa
ggccgcgcggcgattcaagctgaaggtcaagcgtgctaccgcacctttatcacaagcttg
ttagacattactgacaacatcgtaaatggcgagattgttccaccgaaagatgtggttcgc
ttggacgatgacgacccttacttggttgttgctgcagataaaggcacggcgactttctct
gatattgcaaatggtatagcagaagagtttggtttctggctaggtgatgcatttgcatct
ggcggaagcattggttacgaccataagaaaatgggtattactgcacgcggcggatgggaa
tcagttaagcgtcacttcagagaaattggcatcgattgtcaaaccactgatttcacttgc
gtgggtgtgggcgacatggccggtgacgtatttggtaacggtatgctgctttcaaagcac
acccgactcattgcggcattcaaccacttacacattttctttgacccaaatccagacgcg
gcagccagttataaagagcgtcaacgtctgtttgaaaatcctagcctaagctgggaagac
tacgacagtaagcttatttcaaaaggcggcggcgtatttagtcgcgcgtcaaaatctatc
aagcttacgcctgaaatgaaaaagtggttgggtacacgtcagttaaccatgacgcctaac
gagcttattcacaatatattgaaaatgcctgtcgacctactgtggaacggcggtattggt
acgtatatcaagagcaagaaagaatcgcactcagacgtaggcgaccgcgctaacgatgat
ctacgcgtaaatggtcgtgacgtacaagctaaaatcgtaggcgagggcggtaacttaggt
ctaactcagttaggtcgtattgagtatgcatctaacggtggccgtgttaacactgacttt
attgacaacgttggtggtgttgattgctcggataacgaagttaacatcaaaatcttgctt
aacagtttagttaacgacggtgagcttacgcttaaacaacgtaacaagctgctttacgat
atgactgacgatgtaagtcgcattgtactgaaagactgctaccgtcaaacccagtctatc
tctattacggagctagctggcgtgaagcaacttaaagaacagcttcgctttattcacgga
cttgagcgtgaaggtcagttaaaccgagagcttgaatttataccgagcgacgatgaaatt
tctgatcgcgtggccacagatcaaggtttaacgcgcccagaattaagcgtacttattgcc
tatggcaagatggtgcttaaagatgcgcttaatatcccggaaattactgataacccttac
cacggtaagttgttggtagaagcgttccctaaagtgcttcgcgaaaagttcgcaacacat
atgcaacagcacccgcttagaagtgaaattattgctactaagttaaccaataacatggtt
aatgacatgggccttaacttcgtgttcagaatgcaagaagaaacgggcgcaagtgtgagc
gaaattgctgacgcctatgcgattgttcacggtatcttcaatatgaagacgctgtgggag
cgcatcgaacagcttgataatgtaattccagcgcagctacaacttaaaatgctggatgaa
gcgcgcagaattatgcgacgagcgtcccgttggtacattcgccacggcaataaagcacag
tcgattgaagaagctatagcaagctatcgcggcaccttcgatatcttatcgaagaacctg
caaaactatcttgttaaaagtgaatatgctcagcttgaagctgtaacgcagaaatatatc
gacaagggcgttcctgaagatatcgcttaccaggtagcaagcttctctaatatgttctca
agcttcgaccttgcgcaaattgtagagtctgataaacatgatactgatgttgttgctaag
ctttactatcagctaggttctcgtttagagctacactggttcctagatcagataaacaat
caagcggtaagcaaccactggcaagcacttgctcgtgcttcataccgtgaagagttagat
tggcagcagcgttcaattgcggcaaaccttttagcttctcgtgaagacattaataatgca
gatcaaattctggatgagtggattgaaagcaatcaagtactgcttaagcgttggtatcgc
atgatgtcagagtttaagaccagcacaacacacgaatttgcgaaattttctgtcgcttta
cgtgaattgatgcttttaagcgtgaagtctaaccattag
DBGET
integrated database retrieval system