Gene GSU1515 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagGSU1515 
SymbolthrS 
ID2687721 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameGeobacter sulfurreducens PCA 
KingdomBacteria 
Replicon accessionNC_002939 
Strand
Start bp1662153 
End bp1664063 
Gene Length1911 bp 
Protein Length636 aa 
Translation table11 
GC content59% 
IMG OID637126192 
Productthreonyl-tRNA synthetase 
Protein accessionNP_952566 
Protein GI39996615 
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 clones
Plasmid unclonability p-value0.00436769 
Plasmid hitchhikingNo 
Plasmid clonabilityunclonable 
 

Fosmid Coverage information

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

Sequence

Gene sequence
ATGGGAGACA TCAGGGTAAC GCTGCCGGAT GGTTCAGAAA GAATTCTTGC CGAGGGCGCC 
ACGGTGCGCG ATCTTGCCGC CTCCATCGGG GCAGGGCTTG CCAAGGCTGC CATAGCCGGA 
AAGATCGACG GGGTTCAGGT CGATGTTACC GCCCCCCTGA CCGACGGCGC CAGGGTCGAG 
ATCATTACCG ATAAGTCTGC GGATGGCCTT GACATCATCA GGCACTCCAC CTCCCACCTC 
ATGGCCCAGG CCGTCAAGCA GCTTTTCCCG ACCGCCAAGG TTACCATCGG CCCTGCCGTT 
GAAACGGGCT TCTATTACGA TTTCGACGTA GAAACCCCAT TCAGTCCCGA AGATCTTGCC 
CGCATCGAGG AGCGGATGCG AGAGCTAGCC AAGGCCGACA TTCCTGTCGA GCGCCAGGTG 
CTTTCCCGTG ACGAGGCAGT GAAGCTTTTT CGTGACATGG GTGAAGAATA CAAGGTCGAG 
ATCATCGAGG CACTCCCCGA GGAGAGCGTT TCGCTCTATC GCCAGGGCGA TTTCGTTGAC 
CTGTGCCGCG GTCCTCACCT CCCTTCGACT TCCTTTTGCC GGGCGTTCAA GCTGACCTCT 
CTGGCCGGCG CCTACTGGCG CGGGGACGAG AAGAACAAGA TGCTCCAGCG GGTCTACGGA 
ACCGCCTTTG CGGACAAGAA GGAGCTCGAC GCCTATCTGG AGAAGATCGA GGAGGCCAAG 
CGCCGCGACC ATCGCAAGCT GGGCCGGGAG CTCGACCTCT TTTCCTTCTC TGACGATGTG 
GGGGCCGGTT TCGTCATCTG GCATCCGAAG GGTGCCATGC TTCGTACCCT GCTGGAGGAT 
TTCGAGCGTC GGGAGCATCT CAAACGCGGC TATGACATCG TGGTCGGTCC CCAGATCCTG 
AAGACCGAAC TCTGGCAGCG TTCCGGCCAC TACGACAATT ACCGCGAGAA CATGTATTTC 
ACCGAGGTTG AGGGGCAGGG GTTCGGCATC AAGCCGATGA ACTGTCTTTC CCACATGATG 
ATTTACAAGT CCCAGTTGCG CAGCTACCGG GACCTGCCGC TCCGTTTCTT CGAGCTCGGC 
ACGGTGCATC GCCATGAGCG CGCTGGCGTG CTGCACGGCC TCCTGCGGGT CCGCTGCTTC 
ACCCAGGACG ATGCCCATAT TCTCTGTACC CCCGAGCAGC TTGACGCCGA GATCAAGGGA 
GTCATCTCCT TTGTGAACGA CGTCATGGGC ATATTCGGAT TCGACTACGA GATGGAGCTT 
TCTACCCGGC CCGAGAAGTC CATCGGCTCC GACGAGGACT GGGAGCGCGC CACCGGTGCC 
CTGCTGGGTG CCCTCAAGGA TTCGGGCAGG CCCTACGAGA TCAACGAGGG AGACGGCGCA 
TTTTACGGGC CGAAGATCGA CATCAAGCTG CGCGATTCCC TTGACAGAAA GTGGCAGTGT 
GCTACAATCC AGTGCGATTT TACGCTCCCT GAACGGTTTG ACCTGACCTA TGTGGATGCG 
GATGGCGAGC GCAAGCGGCC GGTCATGGTC CATCGGGTCA TTCTCGGGTC CATCGAGCGG 
TTCATCGGTG TCCTTATTGA GCACTTCGCC GGCAATTTCC CGCTGTGGCT CTCGCCGGTT 
CAGGCCATTG TGCTGACCGT TACCGACAAC CAGCAGCCCT ACGCGGCGCA GGTGTTCGAG 
ACGCTTCGGA CAAACGGGGT GAGAGTTCAG AAGGATTTTC GCAACGAAAA GCTCGGGTTC 
AAGATCCGCG AGGCGCAGCT GCAGAAAATC CCCTACATGC TCGTCATCGG TGACAAGGAA 
GTCGAATCAG GTACGGTAAC TCCCCGGTTC CGCGACGGGT CAAACCTCGC GGCCATGAAG 
CCGGAGGAGT TTGTTGCGTT TGTAAACGAC GAAGTGAAAC GCTTCAATTA G
 
Protein sequence
MGDIRVTLPD GSERILAEGA TVRDLAASIG AGLAKAAIAG KIDGVQVDVT APLTDGARVE 
IITDKSADGL DIIRHSTSHL MAQAVKQLFP TAKVTIGPAV ETGFYYDFDV ETPFSPEDLA 
RIEERMRELA KADIPVERQV LSRDEAVKLF RDMGEEYKVE IIEALPEESV SLYRQGDFVD 
LCRGPHLPST SFCRAFKLTS LAGAYWRGDE KNKMLQRVYG TAFADKKELD AYLEKIEEAK 
RRDHRKLGRE LDLFSFSDDV GAGFVIWHPK GAMLRTLLED FERREHLKRG YDIVVGPQIL 
KTELWQRSGH YDNYRENMYF TEVEGQGFGI KPMNCLSHMM IYKSQLRSYR DLPLRFFELG 
TVHRHERAGV LHGLLRVRCF TQDDAHILCT PEQLDAEIKG VISFVNDVMG IFGFDYEMEL 
STRPEKSIGS DEDWERATGA LLGALKDSGR PYEINEGDGA FYGPKIDIKL RDSLDRKWQC 
ATIQCDFTLP ERFDLTYVDA DGERKRPVMV HRVILGSIER FIGVLIEHFA GNFPLWLSPV 
QAIVLTVTDN QQPYAAQVFE TLRTNGVRVQ KDFRNEKLGF KIREAQLQKI PYMLVIGDKE 
VESGTVTPRF RDGSNLAAMK PEEFVAFVND EVKRFN