Aquicella siphonis: AQUSIP_11630
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Entry
AQUSIP_11630 CDS
T06267
Symbol
gdhB_1
Name
(GenBank) NAD-specific glutamate dehydrogenase
KO
K15371
glutamate dehydrogenase [EC:
1.4.1.2
]
Organism
asip
Aquicella siphonis
Pathway
asip00220
Arginine biosynthesis
asip00250
Alanine, aspartate and glutamate metabolism
asip00430
Taurine and hypotaurine metabolism
asip00910
Nitrogen metabolism
asip01100
Metabolic pathways
asip01120
Microbial metabolism in diverse environments
Brite
KEGG Orthology (KO) [BR:
asip00001
]
09100 Metabolism
09102 Energy metabolism
00910 Nitrogen metabolism
AQUSIP_11630 (gdhB_1)
09105 Amino acid metabolism
00250 Alanine, aspartate and glutamate metabolism
AQUSIP_11630 (gdhB_1)
00220 Arginine biosynthesis
AQUSIP_11630 (gdhB_1)
09106 Metabolism of other amino acids
00430 Taurine and hypotaurine metabolism
AQUSIP_11630 (gdhB_1)
Enzymes [BR:
asip01000
]
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
AQUSIP_11630 (gdhB_1)
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Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Bac_GDH_CD
GDH_C
GDH_ACT1
GDH_ACT2
GDH_HM3
GDH_HM1
GDH_ACT3
GDH_HM2
ELFV_dehydrog
Motif
Other DBs
NCBI-ProteinID:
VVC75866
UniProt:
A0A5E4PHQ7
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All DBs
Position
1:complement(1223925..1228772)
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AA seq
1615 aa
AA seq
DB search
MTGANNGECQNIINQLKTYIQDNAHEKDVRLLEIFAQRYYASSAVDDLKNRPIADLYGIL
LSHWKYIQQRAPGEAKIRIFNPDKEKDGWSSSHTIIQISHDDIPFLVDSSRMVVNRFGYQ
IHFIIHFGGFKVKRDAHHKITDIATPATMDEHTTGEAPIYIEIDRLTDKNTMMELEQEIG
SVLSDVRVSVADWRKMVNRVEECLSELENNPHTNVDQAELAESRDFLRWLINNNFTFLGA
RDYKLIGNGTNRALQIVPGSGLGVLRDETFSTTSKTYAELPPQARKMALSKNILIIAKTN
TTSTVHRQAYTDYIGVKIFNDKGELTGEHRFIGLYTSTAYHSSPRQIPFLRHKVDKVLED
LGFPPDSHDGKEAVHILETLPRDDLFQATHEELMELTLGIIQLKERKRIRLLVRRDAYYR
YFSCLVYVPREIFDTDLALAMQEILMQAFKGIDCTFTTYFSDSVLARIHFLIRVNPKIPV
EFDLAEIEKKLITVSRSWSDDLKDRLVEHYGEAEGLRYYGKYQKAFPASYIEDYSVHEAL
DDIEKIESLSDARPLGMLFSKSNDNNTLNLKLFHAEQTIVLSDVLPILENMGLKIIGERP
HELKFRDGKHIWINDFNMTYAINKDIDIDDIKDIFQDAFTKIWFGKAENDGFNRLVLEAG
LTCQQTSALRAYTKYLRQTGFTFSQNYIEKALINNAGLAMALVQLFLLRFDPACDENQRS
DPKELIDYIEKMLDSVASLDEDRIIRRLLELIQATIRTNYFQKSAEGIEKPYLSFKFDPA
KISDLPLPRPRYEIFVYSPRVEGVHLRAGKVARGGLRWSDRREDFRTEILGLMKAQQVKN
TVIVPEGAKGGFVVKTALTPEMTRDDYMKEVIHCYSIFISGLLDITDNIKEGATVPPADV
VRYDGDDPYLVVAADKGTATFSDIANGIAQKYDFWLGDAFASGGSAGYDHKKMGITSRGV
WVSVKRHFRELNIDPENDDFTVVGIGDMSGDVFGNGMLLSRHTKLIGAFNHMHIFLDPDP
DPALSYEERKRLFHLPRSSWKDYNPQLISVGGGVFDRSAKSIKLTPEIKHILNTKKDSMV
PNELIRAMIKAPVDLIWNGGIGTFVKSTQESHLDVGDRTNDGIRIDATELNARVIAEGGN
LGMTQLARIEYSLQGGIVNTDFIDNSAGVDCSDHEVNIKILLNRLMADGEMTLEQRNKLL
EKMTDEVAALVLLDNYDQTQMLSLETSVAQQTIDLFRQYMNDLEKTGRLDRKLEYLPDDK
TLLERKAGNKPLTRPEIAMLLAYCKMYLKQDILASDVPEDPYFGKFLLTAFPKPLREKYL
PQMQEHSLRREIIATQLCKSITDRMGINFVERLQRETGASVAFIIRAYSIAENIFHMEEL
WQQIMALDFKVGQHIQYRMMLQIYYLIRRATRWLLRNRKPSLDIQKTIDDFAPHINELSR
RLPQVLDGMDKEAYDAAVNYLIDQGVPDKLAKSIAGCNTLFTSLDIVEAAQKYDLDLTEV
AKTYYLIGNRLELNWLRELMNSYVVENQWDELARAGFRDDLDRVQRKLSTRILTMKSKEV
KDKSINDRIDFWIHRYQFLMERWQKLLADIKSSDAVGFVTYSVVLRELFDFAQAA
NT seq
4848 nt
NT seq
+upstream
nt +downstream
nt
atgaccggtgccaataatggcgaatgccaaaacatcatcaatcaattgaagacctatatt
caagataacgcccatgaaaaagatgtgcgtttgcttgagattttcgctcaacggtattat
gcctcgtccgctgtcgacgatttgaaaaaccggccgattgctgatttgtatggtatttta
ctgtcacattggaaatacattcagcagcgcgcgcccggtgaagccaagattcgtatattt
aatccggacaaggaaaaagacggctggtcatcgtcgcatacaatcatacagatttcacat
gatgatattccgtttcttgtcgattcatcccgcatggttgtcaaccggtttggttatcag
attcactttatcatccatttcggcggattcaaggttaaacgggatgcccatcataaaatc
acggatattgcgacgcccgccaccatggatgaacatactactggtgaggcgccaatatat
atagaaattgacaggctgactgacaagaacaccatgatggaactggaacaggaaattggc
agcgttctcagtgatgtgcgtgtttccgtcgcggactggcgcaagatggtaaatcgtgtg
gaagagtgtctgagcgaactggaaaacaatcctcacactaatgttgaccaggcagagctt
gccgaatcacgtgattttttacgctggctcatcaacaacaattttacttttctgggtgcc
cgcgactataaactgataggcaatggcaccaaccgcgccttgcaaattgttccaggttcg
ggattgggtgtgctgcgcgatgaaacgtttagcacaacatcaaaaacctatgccgaactg
ccgccgcaagcgcgaaaaatggctttatctaaaaatattctgatcatagccaaaaccaat
accacctcgacggttcatcgccaggcatatacggattacattggtgtcaaaatttttaat
gacaaaggcgaactgacaggcgaacatcgcttcatcgggttatatacctccacggcctat
cattccagtccccgtcaaattccattcctgcgccataaggttgacaaggtgctcgaagac
ctgggttttccgccggacagtcacgacggcaaggaagcggtccatattctggaaacgctt
cctcgcgatgatttgttccaggccactcatgaagaattaatggaattgacactgggcatc
atacagctgaaagagcgcaaacgcatacggctgctggtgcgccgcgatgcttattaccgt
tatttttcctgcttggtgtatgttccaagggaaattttcgacacggaccttgctttggcg
atgcaggaaatcctgatgcaggcctttaaagggattgactgcactttcacaacttatttt
tctgattcagtactggcgcgcattcactttctcatccgcgtcaatccaaaaattcccgtg
gaatttgacctggctgaaattgaaaagaaactgattacagtgtcgcgctcctggtcggat
gatttgaaagaccggctggtggagcattatggcgaagccgaaggtctcaggtattatggt
aaatatcagaaggcatttcccgccagctatattgaagattactcagttcatgaagcgctg
gatgatatcgaaaaaatcgaatccctgtctgacgcgcgtccgttaggcatgcttttttca
aaatccaatgataataacacattgaacctgaaactctttcacgccgaacagaccattgtt
ctttccgatgtccttcctatcctggagaatatgggcctgaaaattattggcgaacggccg
catgaattgaaattcagggatggcaagcatatctggatcaatgatttcaatatgacatat
gccatcaacaaagacatcgatattgacgatatcaaggatattttccaggatgctttcact
aaaatctggttcggaaaagcggaaaatgacggatttaatcgtctggtattagaagccggt
ctgacctgccagcaaacatcggcattacgcgcctataccaaatatctgcgccagacggga
tttacattcagccagaattatatagaaaaggcgctgattaacaatgccggacttgccatg
gcgctggtacagctctttttactgcgctttgatcccgcatgtgacgagaaccaacggtct
gatcccaaggagctgattgattatatcgaaaagatgctggattcggttgccagtctggat
gaggaccgcattattcgcagactgctggaattgattcaggccaccattcgcactaattat
tttcagaaatcggccgaaggcatcgaaaaaccctatctctctttcaaattcgacccggca
aaaatttcagatcttcccttgccgcgtccccgatatgaaatatttgtctattcgccccgg
gttgagggtgtgcacttgcgcgcaggcaaagtggcgcgcggcggcctgcgctggtccgac
cggcgagaggatttccgcacggaaatcctgggcttgatgaaagcccaacaggtcaaaaac
acagttattgttcccgaaggcgcgaagggcgggttcgttgtcaagacggcgctcaccccg
gaaatgacgcgcgatgattacatgaaagaagtcatacactgttattccatattcatttcg
ggactgctggatattaccgacaatatcaaggagggcgccaccgttcccccggctgacgtg
gtgagatatgatggtgatgatccttacctggttgtggcggcagacaagggcacggcgaca
ttttcggatatcgccaatggcatcgcgcaaaaatacgatttctggctgggtgatgcgttt
gcttccggcggctccgccggatatgaccataaaaaaatggggattacttctcgcggcgtg
tgggtttcggtaaaacgtcattttcgcgagctgaatatcgatccggaaaatgatgatttc
actgttgtcggcataggcgacatgagcggggatgtgtttggaaacggcatgctgctctca
agacacactaaacttataggcgcgtttaatcatatgcatatctttctggaccccgatccg
gatcctgcactgagttatgaagaacgcaaacgcttgtttcacttgccgcgatcctcctgg
aaagattacaacccccagctgatttccgtgggcggcggtgttttcgatcgttccgccaaa
tccatcaagctgacacccgaaatcaagcatattctgaacacaaagaaagactcgatggtt
ccaaacgaattaatccgcgccatgatcaaggcacccgtggaccttatctggaatggcggc
attgggacatttgtcaagtccacccaggaatcacatcttgatgtgggtgacagaaccaat
gatggcatacgcatagacgcgacggagttaaacgcgcgtgtcatcgcggaaggcggaaac
ctgggaatgactcagctcgcgcgtattgaatactcactgcaaggcggtatcgtcaacact
gattttatcgataattccgcaggcgttgactgctcggaccatgaggttaacatcaaaatc
ctgctcaaccggctgatggcggacggcgaaatgacgcttgaacagcgcaacaaactgctg
gaaaaaatgactgatgaggtcgcggcgctggttttattagacaattatgatcagacacaa
atgcttagtctggaaacctcggttgcccagcagaccatcgatttattcagacagtatatg
aatgatcttgagaaaacagggcggttggatcgcaagctggaatatttgcctgatgacaaa
accctgctggaacgcaaggccggcaataaaccgctgacacggcctgaaattgccatgctg
cttgcttattgcaagatgtatttgaaacaagacattttggccagcgatgttccggaagat
ccctatttcggcaagtttctgctgacagcttttcccaagccactgcgcgaaaaatacctg
cctcaaatgcaggaacacagcttgcgcagggaaatcatcgccactcagttatgcaagagc
attactgaccgcatgggaattaattttgtggagaggctgcagcgggaaaccggtgcttcc
gtcgccttcatcatacgcgcgtactcgattgccgaaaacattttccatatggaagaactg
tggcagcaaatcatggctctggacttcaaagtcggccagcatattcagtatagaatgatg
ctgcagatctattatctgatacgtcgcgccacgcgctggcttttacgcaatcgcaagccc
agcttggatatacaaaaaaccatagatgactttgctccgcatatcaatgaattaagcagg
cggctcccgcaagtgctggacggcatggataaggaagcttatgacgcggcggtcaattac
ctgattgatcagggcgtgccggacaagctggcaaagagcattgctggatgcaataccttg
ttcacttctctggatattgtggaagccgcgcaaaagtatgacctggacttgacagaggtg
gcaaaaacctattatctgatcggcaaccgccttgaattaaattggctgcgtgagctgatg
aattcctatgtcgttgaaaaccagtgggatgaattggcgcgcgccggttttagggatgat
ctcgatcgtgtgcagcgcaagctgagcactcgtattctgacaatgaagtcaaaagaagtg
aaagataaaagtatcaatgaccgcattgatttctggatacatcgatatcagtttttaatg
gaacgctggcaaaaacttctggcagatatcaaatcaagcgatgctgtcggatttgtgaca
tactctgttgtgctgagagaattgttcgattttgcccaggcagcataa
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