Gene Rmet_1160 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagRmet_1160 
SymbolthrS 
ID4037959 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameCupriavidus metallidurans CH34 
KingdomBacteria 
Replicon accessionNC_007973 
Strand
Start bp1270077 
End bp1271984 
Gene Length1908 bp 
Protein Length635 aa 
Translation table11 
GC content61% 
IMG OID637976543 
Productthreonyl-tRNA synthetase 
Protein accessionYP_583315 
Protein GI161621305 
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 clones14 
Plasmid unclonability p-value0.139321 
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

Num covering fosmid clones17 
Fosmid unclonability p-value
Fosmid HitchhikerNo 
Fosmid clonabilitynormal 
 

Sequence

Gene sequence
ATGATCGTAA TCACGCTGCC AGACGGTTCC CGTCGTGAGT ATCCCGGCCC CGTCACGGTG 
GCCGAAGTGG CGCAGAGCAT TGGCTCCGGA CTGGCCAAAG CAGCGCTCGC CGGCAAGGTC 
GATGGTCGCA TGGTCGATAC GAGCTTCAGG ATCGACCAGG ATGCGTCGCT GTCCATCGTC 
ACGGACAAGG ATGCAGATGG CGTCGACGTG ATTCGTCACT CGACGGCTCA CTTGCTGGCC 
TACGCTGTCA AGGAGCTGTA TCCCGACGCG CAGGTCACGA TCGGTCCGGT CATTGACAAC 
GGCTTCTACT ACGACTTCTC GTACAAGCGT CCCTTCACGC CGGAAGACCT TGCCGCCATC 
GAAAAGAAGA TGACGGAACT CGCCCGCAAG GACGAGAAGG TGTCGCGCGA GGTATGGAAT 
CGCGATGAGG CGGTGGCCCT GTTCGAGTCG ATGGGCGAGA AGTACAAGGC CGAGATCATT 
GCGTCGATTC CCGCGGATCA GGAGATCGGC CTCTATCGCG AAGGCAGCTT CGTCGACCTG 
TGCCGTGGCC CGCACGTACC GTCCACGGGA AAGCTCAAGG TCTTCAAGCT GATGAAGGTG 
GCCGGTGCCT ACTGGCGCGG CGACTCGAAC AACGAGATGC TCCAGCGTAT CTACGGTACG 
GCCTGGGCGA AGAAGGAAGA CCAGGACGCC TACCTGCATA TGCTGGAGGA GGCTGAGAAG 
CGCGATCACC GCCGCCTGGG CAAGACACTT GACCTGTTCC ATCTGCAGGA AGAGGCGCCT 
GGCATGGTGT TCTGGCACCC GAAGGGCTGG CAGGTGTGGC AGGCCGTCGA GCAATACATG 
CGCGGCCGTC TGGGTCAGGC CGGCTATGAG GAAGTGCGCA CGCCGCAGGT GATGGATCGT 
TCGCTCTGGG AGCGTTCCGG CCACTGGGAC AACTATAAAG AGAACATGTT TGTCACGGAG 
TCGGAGAAGC GCGATTACGC GATCAAGCCG ATGAACTGCC CGGGCCATGT GCAGATCTTC 
AACCACGGCC TGCGCTCGTA CCGCGACCTG CCGCTGCGTC TTGCCGAATT CGGTGCGTGC 
CATCGCAACG AGCCCTCGGG AGCGTTGCAC GGGCTGATGC GTGTGCGAGG TTTTGTGCAG 
GATGATGCGC ATATTTTCTG CACGGAAGAG CAGATCGTCG AGGAGGCCAA GGCCTTCAAC 
GAACTCGCGT TCTCGATCTA TGACGACTTT GGCTTCAAGG ATGTCGCGGT GAAGCTGTCG 
CTGCGCCCGG AAAAGCGCGC GGGTTCGGAC GCGGTCTGGG ATCACGCCGA GGATGGCCTG 
CGCCTGGCGC TGCGTGCCTG TGGCGTGGAG TGGGAGGAGC TGCCGGGCGA GGGTGCTTTC 
TACGGCCCGA AGGTCGAGTA CCACATCAAG GATGCAATCG GCCGCTCGTG GCAGTGCGGC 
ACGCTGCAGC TCGATCTGGT GCTGCCGGAG CGCCTGGGCG CCGAGTACGT CTCCGAGGAT 
AATTCCCGGA AGCGACCGGT CATGCTGCAC CGCGCGATCC TTGGTTCGTT CGAGCGCTTC 
CTGGGTATCT TGCTGGAAAA CCACGCGGGT GCGCTGCCGG CCTGGCTGGC TCCAGAGCAG 
GTGGTGGTGA TGAATATCGC CGAATCCCAG TCGGAATATG CTGAAAACGT TGTGCAACTC 
TTGCAAAAAC AAGGGTTTAG GGCCAAGGCG GATTTGCGTA ACGAGAAAAT TACGTATAAA 
ATTCGCGAGC ATTCCCTCCA GAAGATCCCT TACCTGCTGG TAATTGGCGA CAAGGAGCGG 
GATGCCAATC AAGTGGCCGT GCGTGCCCGT GGCAACGTGG ATCTGGGTGT CATGCCTGTT 
TCCGCGTTTG TGGAGCGTCT GCAACAGGAC GTTTCCAGCA AAGCCTGA
 
Protein sequence
MIVITLPDGS RREYPGPVTV AEVAQSIGSG LAKAALAGKV DGRMVDTSFR IDQDASLSIV 
TDKDADGVDV IRHSTAHLLA YAVKELYPDA QVTIGPVIDN GFYYDFSYKR PFTPEDLAAI 
EKKMTELARK DEKVSREVWN RDEAVALFES MGEKYKAEII ASIPADQEIG LYREGSFVDL 
CRGPHVPSTG KLKVFKLMKV AGAYWRGDSN NEMLQRIYGT AWAKKEDQDA YLHMLEEAEK 
RDHRRLGKTL DLFHLQEEAP GMVFWHPKGW QVWQAVEQYM RGRLGQAGYE EVRTPQVMDR 
SLWERSGHWD NYKENMFVTE SEKRDYAIKP MNCPGHVQIF NHGLRSYRDL PLRLAEFGAC 
HRNEPSGALH GLMRVRGFVQ DDAHIFCTEE QIVEEAKAFN ELAFSIYDDF GFKDVAVKLS 
LRPEKRAGSD AVWDHAEDGL RLALRACGVE WEELPGEGAF YGPKVEYHIK DAIGRSWQCG 
TLQLDLVLPE RLGAEYVSED NSRKRPVMLH RAILGSFERF LGILLENHAG ALPAWLAPEQ 
VVVMNIAESQ SEYAENVVQL LQKQGFRAKA DLRNEKITYK IREHSLQKIP YLLVIGDKER 
DANQVAVRAR GNVDLGVMPV SAFVERLQQD VSSKA