Levilactobacillus brevis ATCC 367: LVIS_1693
Help
Entry
LVIS_1693 CDS
T00406
Name
(GenBank) translation elongation factor 2 (EF-2/EF-G)
KO
K02355
elongation factor G
Organism
lbr
Levilactobacillus brevis ATCC 367
Brite
KEGG Orthology (KO) [BR:
lbr00001
]
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03012 Translation factors [BR:
lbr03012
]
LVIS_1693
03029 Mitochondrial biogenesis [BR:
lbr03029
]
LVIS_1693
Translation factors [BR:
lbr03012
]
Eukaryotic type
Elongation factors
LVIS_1693
Prokaryotic type
LVIS_1693
Mitochondrial biogenesis [BR:
lbr03029
]
Mitochondrial DNA transcription, translation, and replication factors
Mitochondrial transcription and translation factors
Mitochondrial translation factors
LVIS_1693
Mitochondrial quality control factors
Regulator of mitochondrial biogenesis
Ubiquitas transcription factors
LVIS_1693
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
GTP_EFTU
EFG_IV
EFG_III
EFG_C
GTP_EFTU_D2
RF3_C
MMR_HSR1
AIG1
Motif
Other DBs
NCBI-ProteinID:
ABJ64768
UniProt:
Q03PV4
LinkDB
All DBs
Position
complement(1648822..1650921)
Genome browser
AA seq
699 aa
AA seq
DB search
MANTREFPLEKTRNIGIMAHIDAGKTTTTERILYYTGKIHKIGETHDGASQMDWMEQEQE
RGITITSAATTAEWKGHRINIIDTPGHVDFTVEVERSLRVLDGAVAVLDGQAGVEPQTET
VWRQASDFDVPRIVFVNKMDKLGADFDFSVNSIHERLQANALALQMAIGAEDEFEGVVDL
VEMKAYVYDKDDLGSSWDTVEIPADMKEEAEKRHEAMIESVADVDDEIMEKYLEGEEITK
DELKAAIRRATLKLDLFPVFAGSAFKDKGVQMLMDAVVDYLPSPLDVKPYNATDPDTDEA
IQLRADDDAPFAALAFKVATDPFVGRLTYIRVYSGTLEAGSYVLNSTKDKRERVGRLLQM
HSNHRQEIPEVFSGDIAGAIGLKNTTTGDSLTDPDHPLHLESMDFPDPVIQVAVEPKTKA
DQDKMNTALQKLSEEDPTFKAETNPETGETLISGMGELHLDIIIDRMKREFKVEANIGAP
QVAYREAFTKSTSVQGKFVRQSGGKGQYGDVWIEFTPNERGKGYEFEDAIVGGVVPREFI
PSVDQGLQEAMANGVLAGYPLVDVKAKLYDGSYHDVDSSEAAFKVAASLALRNAVKSAGP
VILEPIMKVDILVPEEYMGDIMGQVTARRGKVDGMEARGNAQMIHSYVPLSEMFGYATTL
RSASQGRGTFTMTFDHYEPTPKSVQADIIKKNGGTPVED
NT seq
2100 nt
NT seq
+upstream
nt +downstream
nt
atggctaatactcgtgaatttccgcttgagaagacgcgtaacatcggtatcatggcccac
atcgatgccgggaagacgacgacgactgagcgtatcctgtattatactggtaaaatccac
aagattggtgaaacccatgatggggcttcacaaatggactggatggaacaagaacaagaa
cgggggatcacgatcacttccgctgccactacggctgaatggaagggtcaccggatcaac
atcatcgataccccaggacacgtggacttcactgttgaagttgaacgttccttacgggtg
cttgatggtgccgtagccgtcttggatggtcaagcaggggttgaacctcaaactgaaacg
gtttggcgtcaagcttctgattttgatgttcctcgtatcgtgttcgttaacaagatggat
aagctgggtgccgacttcgacttctcagttaactctatccacgaacgtctgcaagctaac
gccttggctttacaaatggctattggtgctgaagacgaattcgaaggggttgtcgactta
gttgaaatgaaagcctacgtttatgataaagatgacttaggttcttcatgggatacggtt
gaaattcctgctgatatgaaggaagaagccgaaaagcggcatgaagccatgatcgaaagc
gttgctgacgttgacgatgaaatcatggaaaagtaccttgaaggtgaagaaatcaccaag
gacgaattgaaggctgctatccggcgggcaactttgaagctggacttgttcccagtcttc
gctggttctgccttcaaggataaaggtgttcagatgttgatggatgccgttgtggactac
ttaccatccccattggatgttaagccatacaacgccactgatcctgatactgatgaagct
atccaattacgtgctgatgatgatgcgccattcgctgccttggcatttaaggtggcaact
gacccattcgttggtcgtttgacttacatccgggtttactccggtacgctggaagccggt
tcttacgtcttgaactcgacgaaggacaagcgtgaacgggttggtcgtttgctgcaaatg
cattctaatcaccgtcaagaaattccagaagtcttctccggtgatatcgctggggccatt
ggtttgaagaacaccacaactggtgattcattaaccgacccagatcacccattgcatttg
gaatctatggacttcccagatccagttatccaagttgctgtagaaccaaagacgaaggct
gaccaagataagatgaacacggctttacaaaaactctctgaagaagatcctactttcaag
gctgaaactaaccctgaaactggtgaaacgctgatttccgggatgggtgagttgcatttg
gacatcatcattgatcggatgaagcgtgaattcaaggttgaagccaacattggtgcccca
caagttgcctaccgtgaagccttcacgaagtcaacgagcgttcaaggtaagtttgttcgc
cagtctggtggtaaaggtcaatatggtgatgtttggattgaattcacccctaacgaacgt
ggtaagggttacgaattcgaagacgccatcgttggtggggttgttcctcgtgaatttatc
ccttcagttgaccaaggtttgcaagaagccatggcaaatggtgtcttagctggctaccca
ttagttgacgttaaggctaagctgtatgatggtagttaccatgatgtcgattctagtgaa
gcagccttcaaggttgccgcttcattggctttacggaatgccgttaagtctgccggccct
gttatcttggaaccaatcatgaaagttgatatcttggttcctgaagaatacatgggcgat
atcatgggccaagttaccgcacgtcgtggtaaggtcgatggtatggaagcacgtggtaac
gcacaaatgatccactcttacgtaccactttcagaaatgtttggttacgcaacgacgtta
cgttctgcatcacaaggtcgtgggacatttaccatgacgtttgatcactacgaaccaacg
cctaagagtgttcaagctgatattatcaagaagaatggcggtactccagtcgaagactag
DBGET
integrated database retrieval system