Gene XfasM23_0109 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagXfasM23_0109 
SymbolargS 
ID6203394 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameXylella fastidiosa M23 
KingdomBacteria 
Replicon accessionNC_010577 
Strand
Start bp147632 
End bp149320 
Gene Length1689 bp 
Protein Length562 aa 
Translation table11 
GC content54% 
IMG OID641701639 
Productarginyl-tRNA synthetase 
Protein accessionYP_001828840 
Protein GI182680680 
COG category[J] Translation, ribosomal structure and biogenesis 
COG ID[COG0018] Arginyl-tRNA synthetase 
TIGRFAM ID[TIGR00456] arginyl-tRNA synthetase 


Plasmid Coverage information

Num covering plasmid clones20 
Plasmid unclonability p-value
Plasmid hitchhikingNo 
Plasmid clonabilitynormal 
 

Fosmid Coverage information

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

Sequence

Gene sequence
GTGAAAGCCC CAGTCCGCGC CCTGATTTGC CAAGGCATCG AAGCATTGCG TAGCAATGGC 
ACCTTACCTA CTAATACTCT GCCTCCAGAT TTCGTAGTGG AACGTCCAAA GACGCGCAAA
CATGGCGACT TTGCGACCAA CGTAGCAATG CTGCTCAGCA AAGCGACTGG CAGCAATCCC
CGCCTACTGG CACAGACTCT GGTTGCAGCA CTGCCAACCA GCGCCGACAT TGCACGGATA
GAAATCGCCG GCCCAGGCTT CATCAACTTC CACCTGCATC CAGTCGCGTA CCAGCGTGAA
ACAATCAACG TGCTTAAACA GGATAACGAC TACGGTCGGA ACCTGTCCGG CCAAAGTCGC
ACCGTCGGAG TGGAATACGT CTCAGCCAAT CCGACAGGTC CACTGCATGT CGGTCACGGA
CGCGCCGCAG CCATCGGTGA CTGCCTTGCG CGTTTACTGG AAGCCAATGG CTGGAACGTC
AAACGCGAGT TCTATTACAA CGACGCCGGC GTACAAATCG AGAATCTTGT CCGCTCAGTG
CAGGCACGCG CACGCGGACT GAAGCCTGGA GACGCCCTTT GGCCAACAGA TGCCTACAAC
GGCGAGTACA TCGCCGACAT TGCCAAAGCC TATTTGGCTG GCGACAGCAT CAACATGGTA
GATACCATCA TCACCAGCAC CAAAAACGTC GACGACACAG CAGCAATCCA CCACTTCGCC
GTCAACTACC TACGTAACGA ACAAAACCAC GACCTGGCCG CATTTAACGT CGATTTCGAT
ATCTACTTTC TGGAAAGCTC GCTTTACAAA GATGGCAAAG TCGAAGAAAC AGTCCAGAAA
CTGATCAATT CCGGCCACAC CTATGAGGAG GGCGGCGCAC TGTGGCTGAA GTCAACCCAT
TTCGGTGACG ACAAAGATCG GGTCATGCGC AAATCCGACG GTAGCTACAC CTACTTCGTA
CCAGACATCG CATACCATTT AAGCAAATGG CAACGTGGCT ACGAACGCGC AATCACCGAA
CTAGGAGCCG ACCATCACGG TTCACTGGCA CGCGTCCACG CTGGACTACA AGCATTAGAA
ATAGGCATCC CGCCCGGCTG GCCAGAATAT GTGCTGCACC AAATGGTCAC TGTCATGCGT
GGTGGCGAAG AAGTGAAGCT CTCCAAACGT TCTGGAGGCT ACGTCACGCT ACGTGACCTG
ATTGAGGAGA CCAGCACCGA TGCAACACGC TGGTTTCTGA TCGCACGCAA ACCCGATTCA
CAACTTACCT TCGACATCGA CCTGGCCCGT CAAAAGAGCA ACGACAACCC TGTATTCTAC
GTACAGTACG CATACGCCCG CGTCTGTAGC CTGATGCACC AAGCCCATGA AAAGAACTTA
AATTACGATC AAACCAGCGG CATGGCGTCC CTTGATCAAC TTTCAGACAA CACCTCACTG
TGTCTGATGA TCGAGATATC ACGCTATCCT GAAATCGTGC AAATCGCCTG CGAACTGCTG
GAACCTCACC TGATCGCACA ATACCTGCGT GAATTAGCGC ATGCATTCCA TACCTGGTAT
CACAACACAC CCGTACTGGT AGAGAACGCA GTAGAACGCA ACGCAAAGCT GACACTGGCC
TGCGCAACCA GGCAAGTCCT CGCCAACGGC CTGAACCTAC TCGGCGTCGG CACCCCGGAA
AAGATGTGA
 
Protein sequence
MKAPVRALIC QGIEALRSNG TLPTNTLPPD FVVERPKTRK HGDFATNVAM LLSKATGSNP 
RLLAQTLVAA LPTSADIARI EIAGPGFINF HLHPVAYQRE TINVLKQDND YGRNLSGQSR
TVGVEYVSAN PTGPLHVGHG RAAAIGDCLA RLLEANGWNV KREFYYNDAG VQIENLVRSV
QARARGLKPG DALWPTDAYN GEYIADIAKA YLAGDSINMV DTIITSTKNV DDTAAIHHFA
VNYLRNEQNH DLAAFNVDFD IYFLESSLYK DGKVEETVQK LINSGHTYEE GGALWLKSTH
FGDDKDRVMR KSDGSYTYFV PDIAYHLSKW QRGYERAITE LGADHHGSLA RVHAGLQALE
IGIPPGWPEY VLHQMVTVMR GGEEVKLSKR SGGYVTLRDL IEETSTDATR WFLIARKPDS
QLTFDIDLAR QKSNDNPVFY VQYAYARVCS LMHQAHEKNL NYDQTSGMAS LDQLSDNTSL
CLMIEISRYP EIVQIACELL EPHLIAQYLR ELAHAFHTWY HNTPVLVENA VERNAKLTLA
CATRQVLANG LNLLGVGTPE KM