Gene VIBHAR_02079 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagVIBHAR_02079 
Symbol 
ID5554783 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameVibrio harveyi ATCC BAA-1116 
KingdomBacteria 
Replicon accessionNC_009783 
Strand
Start bp2078209 
End bp2080137 
Gene Length1929 bp 
Protein Length642 aa 
Translation table11 
GC content44% 
IMG OID640907566 
Productthreonyl-tRNA synthetase 
Protein accessionYP_001445271 
Protein GI156974364 
COG category[J] Translation, ribosomal structure and biogenesis 
COG ID[COG0441] Threonyl-tRNA synthetase 
TIGRFAM ID[TIGR00418] threonyl-tRNA synthetase 


Plasmid Coverage information

Num covering plasmid clonesn/a 
Plasmid unclonability p-valuen/a 
Plasmid hitchhikingn/a 
Plasmid clonabilityn/a 
 

Fosmid Coverage information

Num covering fosmid clonesn/a 
Fosmid unclonability p-valuen/a 
Fosmid Hitchhikern/a 
Fosmid clonabilityn/a 
 

Sequence

Gene sequence
ATGCCTATTA TTACTCTTCC TGACGGCAGT CAGCGTCAAT TTGACAACCC AGTTTCTACT 
ATGGAAGTTG CGCAATCGAT CGGTCCTGGT CTTGCAAAAG CAACTATCGC TGGTCGTGTA
AACGGTAACC GCGTTGATGC GTGTGATCTG ATTGAAGAAG ACGCAAGCCT AGAAATCATC
ACAGTAAAAG ATGAAGTAGA CGGTCTAGAA ATCGTTCGTC ACTCTTGTGC TCACCTTCTT
GGTCACGCTC TTAAGCAGCT TTACCCTCAA GCTAAAATGG CGATCGGTCC AACCATCGAC
AATGGCTTCT ACTACGACAT CGACCTAGAC GAGTCTCTAA CGCAAGACGA TCTTGAAAAG
ATTGAAAAGC GCATGAAAGA GCTAGCGAAA ACCAAGTACG AAGTTGTTAA GAAAAAAGTA
AGCTGGCAGG AAGCACGTGA TACGTTTGAA TCACGTGGCG AACCATACAA AGTGGAAATC
CTAGACGAAA ACGTATCTCG TGATGATCGT CCAGGTCTTT ACCACCATGA AGAATACATC
GACATGTGTC GCGGTCCTCA CGTTCCTAAC ATGGGCTTCT GCCAACACTT CACTCTAATG
AATGTTGCGG GTGCTTATTG GCGTGGTAAC AGCGACAATA AAATGCTTCA ACGTATCTAC
GGTACTGCTT TCCACGATAA GAAAGCACTT AAGGCGCACC TAACTCGCTT GGAAGAAGCG
GCAAAGCGTG ACCACCGTAA GCTTGGTAAG CAACTAGACC TATTCCACAT GCAACAAGAA
GCACCGGGTA TGGTGTTCTG GCATCACAAT GGTTGGTCTA TCTTCCGTGA CCTTGAAGTA
TTCGTACGCT CTAAGCTAGA TGAATACGGT TACCAAGAAG TAAAAGGTCC ACTAATTATG
GATCGCGTTC TTTGGGAACG TTCTGGTCAC TGGGACAAAT ACGCAGATGC GATGTTCACA
ACTTCTTCTG AGAACCGTGA GTACGCACTG AAGCCAATGA ACTGTCCAGG TCACGTACAG
ATCTTCAACC AAGGTCTAAA ATCGTACCGT GATCTACCGT TACGTATGGC AGAGTTTGGC
TCATGTCACC GTAACGAACC ATCTGGTGCA TTACACGGCA TTATGCGTGT ACGTGGCTTT
ACTCAGGATG ACGCTCACAT TTTCTGTACA GAAAGCCAAA TTCAAGAAGA AGTAACAAAT
TGTATCAAGA TGGTGTACGA TACGTACCAA ACATTTGGTT TCGACAATAT CGTAGTGAAA
CTGTCTACTC GTCCAGAAAA ACGCGTAGGT TCAGACGAAA TTTGGGATCA ATCTGAAGAA
GCATTGAAAC AGTCTCTAGA ATCAATGGAA ATTCCATACG AGATTCAAGA GGGCGAGGGT
GCATTCTACG GTCCTAAGAT TGAATTCACG CTATACGACT GTCTAGACCG TGCGTGGCAG
TGTGGTACTG TTCAGCTAGA CTTCAACCTA CCAGGTCGCC TAGGTGCAAC TTATGTAGGT
GAAAACAATG AACGTCTTGT ACCGGTAATG ATTCACCGTG CAATTCTAGG TTCACTAGAG
CGTTTCATTG GTATCCTTAT CGAAGAATAT GCTGGTTTCT TCCCAACTTG GTTGGCACCA
GAACAGGTAA TTCTTATGAA CATTACTGAT AAACAGTCAG ATTATGTTCA GGAAGTAGTA
CAAAAACTGC AAAAAAGTGG AATTAGAGCC AAAGCGGACT TGAGAAATGA GAAGATTGGC
TTTAAAATCC GCGAACATAC TTTGAAGCGT GTACCGTATA TGCTTGTTGT TGGTGACCAA
GAGATGGAAG CTGGCGAAAT CGCAGTACGT ACTCGTAAAG GTAAAGATCT CGGTAAATTT
AAAGTGGATG ACTTTATCGC ATACATCCAA GACGAGATCT CTATCCGTAA GCTCAATCTG
GAGGAATAA
 
Protein sequence
MPIITLPDGS QRQFDNPVST MEVAQSIGPG LAKATIAGRV NGNRVDACDL IEEDASLEII 
TVKDEVDGLE IVRHSCAHLL GHALKQLYPQ AKMAIGPTID NGFYYDIDLD ESLTQDDLEK
IEKRMKELAK TKYEVVKKKV SWQEARDTFE SRGEPYKVEI LDENVSRDDR PGLYHHEEYI
DMCRGPHVPN MGFCQHFTLM NVAGAYWRGN SDNKMLQRIY GTAFHDKKAL KAHLTRLEEA
AKRDHRKLGK QLDLFHMQQE APGMVFWHHN GWSIFRDLEV FVRSKLDEYG YQEVKGPLIM
DRVLWERSGH WDKYADAMFT TSSENREYAL KPMNCPGHVQ IFNQGLKSYR DLPLRMAEFG
SCHRNEPSGA LHGIMRVRGF TQDDAHIFCT ESQIQEEVTN CIKMVYDTYQ TFGFDNIVVK
LSTRPEKRVG SDEIWDQSEE ALKQSLESME IPYEIQEGEG AFYGPKIEFT LYDCLDRAWQ
CGTVQLDFNL PGRLGATYVG ENNERLVPVM IHRAILGSLE RFIGILIEEY AGFFPTWLAP
EQVILMNITD KQSDYVQEVV QKLQKSGIRA KADLRNEKIG FKIREHTLKR VPYMLVVGDQ
EMEAGEIAVR TRKGKDLGKF KVDDFIAYIQ DEISIRKLNL EE