Methanobacterium sp. BRmetb2: CIT01_08275
Help
Entry
CIT01_08275 CDS
T05692
Symbol
glyS
Name
(GenBank) glycine--tRNA ligase
KO
K01880
glycyl-tRNA synthetase [EC:
6.1.1.14
]
Organism
mett
Methanobacterium sp. BRmetb2
Pathway
mett00970
Aminoacyl-tRNA biosynthesis
Brite
KEGG Orthology (KO) [BR:
mett00001
]
09120 Genetic Information Processing
09122 Translation
00970 Aminoacyl-tRNA biosynthesis
CIT01_08275 (glyS)
09180 Brite Hierarchies
09181 Protein families: metabolism
01007 Amino acid related enzymes [BR:
mett01007
]
CIT01_08275 (glyS)
09182 Protein families: genetic information processing
03016 Transfer RNA biogenesis [BR:
mett03016
]
CIT01_08275 (glyS)
03029 Mitochondrial biogenesis [BR:
mett03029
]
CIT01_08275 (glyS)
Enzymes [BR:
mett01000
]
6. Ligases
6.1 Forming carbon-oxygen bonds
6.1.1 Ligases forming aminoacyl-tRNA and related compounds
6.1.1.14 glycine---tRNA ligase
CIT01_08275 (glyS)
Amino acid related enzymes [BR:
mett01007
]
Aminoacyl-tRNA synthetase
Class II (C/G)
CIT01_08275 (glyS)
Transfer RNA biogenesis [BR:
mett03016
]
Eukaryotic type
Aminoacyl-tRNA synthetases (AARSs)
Other AARSs
CIT01_08275 (glyS)
Mitochondrial biogenesis [BR:
mett03029
]
Mitochondrial DNA transcription, translation, and replication factors
Mitochondrial transcription and translation factors
Other mitochondrial DNA transcription and translation factors
CIT01_08275 (glyS)
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
HGTP_anticodon
tRNA-synt_2b
Glutaredoxin2_C
Motif
Other DBs
NCBI-ProteinID:
AXV38192
UniProt:
A0A347AGU5
LinkDB
All DBs
Position
complement(1666007..1667746)
Genome browser
AA seq
579 aa
AA seq
DB search
MKHENVMNIAKKRGFLWSSFEIYSGVAGFVDYGPLGAILKNNIINKWRDYYIVREGFYEI
ESPTIMPEEALKASGHVDHFNDPMIECKDCLEVYRADHIIKDSIGEEVEGLSNDELTTII
SDNQIRCPKCEGHFSHVWSYNLMFQTLIGVKGKKIGYMRPETAQGIFIPFKRLLRFYRGK
LPFGVVQIGKAYRNEISPRQGVIRLREFTQAEAEIFINPENKSHPKFSEILEEELELYSA
KNQINEENPIRITVQKAISDAIVSSETLVYQLYLARKFLLELGIPENVIRFRQHLPTEMA
HYALDCWDVEIKTKRFGWIEIIGIADRTDFDLKSHSKHSKEDLRVFIEYLEPKKIKKTVI
KPNMAKFGPVFKNNAPKILKFLEDVDIEKVENSFQEKGLFEIEIGDSIYELLPEHVNFED
VEETVRGEKIFPHVIEPSYGIDRIVYSVLLHSFKEEDERAYFKIEKSIAPVEVSVFPLVN
KEELVNTAIQIRDDLRKDGFISEYDSSGTIGRRYARSDEIGVPFAITVDHETLENNTVTL
RNRDNLKQVRIKIEEINKILDDLLKNREDFEDVSPAVIK
NT seq
1740 nt
NT seq
+upstream
nt +downstream
nt
atgaaacatgaaaatgtaatgaatatagccaaaaaaagaggatttttatggtcatcgttc
gaaatatactctggagtagcaggttttgttgattatggccctctaggagctatattaaaa
aataatattattaataaatggcgtgattactacattgtaagggaaggcttttatgaaata
gaatcccccaccataatgccagaagaagctttaaaagcttcaggacatgttgatcatttt
aatgatcctatgattgaatgtaaagattgtttggaagtttatagggcagatcatattatc
aaggattctattggagaggaagttgaaggtctaagtaatgatgaacttactacaataata
tctgataatcagataaggtgtcctaaatgtgaaggccattttagtcatgtttggagttat
aacttaatgtttcagacattaatcggagttaaaggtaaaaaaattggttatatgcgtcca
gaaacggctcaagggatattcattccattcaaacgtttattaagattttaccggggcaaa
ttaccctttggtgtggtacagataggtaaagcttatagaaatgaaatttcaccccgacag
ggagttataagacttagagaatttacccaggccgaggcagaaatatttatcaatcctgag
aataaatcacatcccaagttttctgaaattctggaagaagaattagaactttattctgct
aaaaatcagatcaatgaagagaatccaattagaataaccgtacaaaaagctatttcggat
gcgatagtttcaagtgaaacattagtttatcaattatatttggcccggaaatttttatta
gaactgggaatcccagaaaatgttataagattccggcaacaccttcctactgaaatggcc
cattatgcactggactgttgggatgtggaaataaaaacaaaacgatttggatggatagag
atcataggaatagctgatagaacagattttgacctcaaatcccatagcaagcatagtaaa
gaagatttaagagtattcatagaatatcttgaaccaaaaaagattaaaaaaactgtaata
aaacccaatatggctaaattcggcccggtttttaaaaataatgcccctaaaatacttaaa
ttccttgaagatgtggatattgaaaaagtcgaaaattcatttcaggaaaaagggttgttt
gaaattgaaataggtgattcaatctatgaattgttaccggaacatgttaactttgaagat
gtagaggaaactgttaggggagaaaagatatttccacatgtaatcgaaccatcctatggt
attgatagaatagtctattctgttctcctacattcatttaaagaagaagatgaaagagct
tacttcaaaattgaaaagtcaattgctccagtggaagtcagtgtatttccactggtcaat
aaagaagaactggtaaacactgcaatccaaataagagatgatctaagaaaagatggtttt
atctcagaatatgattcttcaggaaccattggtagaagatatgcccgatctgacgaaatt
ggagttccctttgccattaccgttgatcatgaaactctggaaaacaatacagtcacccta
agaaatcgtgacaatctaaaacaagttcgaataaagattgaagagattaataaaatattg
gatgatttactaaagaatcgtgaagattttgaagatgtaagtcctgcagtaattaaataa
DBGET
integrated database retrieval system