Gene MARTH_orf536 details

Gene Information       Plasmid Coverage information       Fosmid Coverage information       Sequence       

Gene Information

Locus tagMARTH_orf536 
Symbol 
ID6418078 
TypeCDS 
Is gene splicedNo 
Is pseudo geneNo 
Organism nameMycoplasma arthritidis 158L3-1 
KingdomBacteria 
Replicon accessionNC_011025 
Strand
Start bp482989 
End bp486525 
Gene Length3537 bp 
Protein Length1178 aa 
Translation table
GC content26% 
IMG OID642715620 
Producthypothetical membrane protein 
Protein accessionYP_002000056 
Protein GI193216814 
COG category 
COG ID 
TIGRFAM ID 


Plasmid Coverage information

Num covering plasmid clones
Plasmid unclonability p-value0.00000000137476 
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
ATGAAAAAAA ATTACAAAAT TATTAGTGTT TTATTAGGCT CTTTACTACC GATTACTATT 
ATCCCTAGTG TTCTTGGGAT AGCAATTTCA AGCAAAAAAA ATTTGGTAGA TAAGGGGCTT
TATTTTAAAA ATGAGTATTT TACTAATTAC TCAAACTTTG AAAATCATAT TAGAAACGAA
ATTAAAGAGA CGCAACAATA TGACGAAAAA ACTATTTATT ATGCTAGCAA CATCAATAAA
CAATTTGATT CAGAACTAAG TTTAAATAAG TTTCTATACA ACAACATCAA AAGTCATGAT
GTTAGTTTAT CCAAAGATAA TAAATTGTAT GCAAATAATT CTAATTTGCC CCTAACAAAT
CAACAAATAA ACGAACTTGA TTTTAATAAT TCCAATTCCA ACACTAGAGT GTATTTGGGC
AAAGACAATG TCGCTTATGA AACCGAAGAA GAAGCGAAAC TTTCATATTT CAATAGTGCA
CAGTTTTATA AATTTAATAA TAAATTCTAT AAAAATAAAG AAAGTATTAT TAACGAGCTT
ATTTTAGAGT ACAACAAAAT TAAAAGTAGT AGCGCTAATG ATGAAAATAA ACAATTAGAA
GAATTAAAGA AAATTTATAA ACTAGAAGAC ACTAGCTTCA TGAGATTTAA TGCCCCTAAC
GGTGTAATTT CTAACGTTGA TTTTACTAAA AATGGAGCTT TAGATCAAAA TTTAGTTAAA
AAATTTATTA ATAGTAATGT CAAAAGATAT ATTAAATGAA AAGATAAAAT CTATGGAATA
GAAGATTTTA TTCAAAACCA TTTTAATAAA TTAGCATGAA AAGACTCCTC AATTATTAAA
GTCAAATCAA CTAAGGCAAA TAAGAAATAT TTAGTTGATG TTGATAAAAC AGAAGACGCA
AATTTTTATG GCGATTACAT TTTAACTTCG CCAAGTGATG ATATTAAAGA TTTTAAAAAC
TATAGTAAAT GATCTAAACG AAAAAGAAAT GAAAATATTA TTGATTATCA TGAATCTATT
TATAAAGAAA TTGTTAATAA GTTTGTCTCT AATTTAATGA TGACAGTCAA CAATTATTTA
TTAGATAAAA AAATTGAAGA AAATAAAGAT GGCAAAGCTG AATTATTAAA AAAATTTCAT
GAAAATTTTT CAATTTTCAA TTTTTTACCT TTGTCAGAAG AAGCTCAAAA TTTGATAAAC
CATTTACAAA CACTTCGTAT TGATGATTCT AAGCATGCAA ATCTTTGAGA GAAATTTGAA
GACATTCTTA AACTTATGAA AAATGGTAAA AGAGGAAGTT TTTTTAATCA ATTAAATATT
ATATATTTTT CTGGCTTGGC GTATTTTGCT AAATACAATG CTTCTAGTGT TATTGTTTCG
TTATTTAAGA AATATTTCAG AAATTTAATT AGCAAAATGA ATGAGTATTT AAGCGAAGCT
TTAGGTGATT TATATACTGA TAAAGACGGT AAGAAAATTA ACTTATTAGA CGCGTACAAT
TTGGGTGACT ATTCTTTAGA TTTAGATGTG AATAATGATT TTTTCATTAG TCATTTAGCG
AACAATGACA ACATTATTAA TGCAATAAGC ACTATTAATT TAGCGTCTTT AAACGCAATG
AACACTTCTT CATTGTTGCC TTTTGATGAT TCAGGCCTAT TAAAAAAAGA TAGCGCCAGA
CACAATTATG ATAAATTAGA AAAACTATAT GATAAATATT CTTTAAGATC CAAAAAAGAA
TCAAATTATA TTTTTGATAA CAATAAAGGT GATTATGAGG TTAATAAGGA TATTAAGGGA
AATCATATAG CTTCAAATGC CTTGCAATAC TATAACTATC AATCTGCCCA ATCCCTTAAC
AATTATTTAA GAGATGAATT TTTAAATAGT TTGGCCAATA TTGACTATTC AAGATATGCA
AGTAATAATA GGATTATGAA AAATTGCGAA TTTGGTTTTG ATTATTATAA AAAAGTAACT
ATCGAATATC ACAAGGAGCA CAACTTTGCT TCAACAGTAA TAAGCCAACT TGAAAATTTG
AGTTACAAAA ACCAAGACGA TATAAAATCA TTGCAAGACA CAATTAAAAA TCTAAAAAAA
GACGATTTAA AAAAATATAT TAATTCCAAA ACAATGACTG GTCATAAACT CGAGTTAAAT
AAATTAGTAT ATGAAGATCA AAAAACTGAT GTAGTAGATA AAATTAATTC CGCAGTACAA
GTTGCTGGTG GAATTATTCA AACTGCAGGA GCAATTAGTC AGTTATATTT TTCTATTCAA
GCATCGGGAA TTAACCAACC ATTAAATATC GTTAAATCTG TGCAAGGATT AGTGGGTTCG
GTAATGGGGA CACTTTCAAG CGTTCCTGGA CTTGCTATAG CAGCTGCCGC CATTGATATT
GTATTTACGA TTATTACTCA ATTAATTGGT GAAAAAACTC AAAGCGATTA CGTTTATAGT
CAAACGGGTA ATCCCAAGTC GCAATATATA TGAGATGGTG GAATCACCAC CTCTAGACTT
TGAGGTTTTT GACAAACCGA AGATGCCACT ATTAGTAAAG CAAAATTATT AGAACCAATT
CAATTCATGC CTGAATTTAG CACTGATTTT TATTACTATG ATGGTAAAAG ATATCAAGAT
CACCAAACTA GTGTTTTAGA AAAAGACTTA ATTTGTGATG TCTTAACTAA CAATGATCAA
GAATTTATGA AAGCCAATAA TTTAGAGTAT CTCTATTCAT TCGAAAGCAC CGCACAGGGG
GAAAACAATC GCTATTTTAC TAAAATGGCG GATCTAGAAA ATGAGCTACT TGCTAACAAT
GCTCAAAAAT TAAAAGATTG ATATAAATCG TCATCGGGGA CTATAAATAT ATTAGATAAA
AGTAAAAATA TTACTAACGT TAAGGATTTA TTTGAAAAAT TGAAAGAAAT AATTTCCAAT
GATCTTAGAG CAACGCTATT AGTACAACTA CCAAAATTAA ATTCTGAAAA TATTCCTTTA
GATCAAATAT CGGATCAATC TAAGCGTGAA AAATTTTCAT TAGAAAAATT AATCACATTA
ATTAATAATA TTAACAAAAA TCATGACTTA TTAGAATCAA AAGATTTACT ACTATTTGAT
GGTAATTTGA AAGATGAAAA TAAAAAATCA TACTTGTATG ACATAAAAAA TTTAGAAAAA
ATAACGAAAA TATTTATTAA TAAATTTAAT GTAACATCCA AAATAGTTTC AAAAATAATG
TTTAGTTTTA ATAATAAATA TGACGAATTA AATGAAGCTA TTAAAACAAA AATTTATAGC
ATTTTAAATA ATCAAAAGGA GCGAATTTAC TTTGCTTCAT ATGATGACGC TTTTAAACAT
TTAATGCAGC TACAGTATCT TGCCATTGAT AAGAAAATCA TTAAAGAAAA TGAAATGCAT
AAATTTATTT ATCAAGATAA AGAATTTACA ACAATAGAAG AAGCAATTGA ATATTGCAAA
AAGTTTATTA AATCGGCTGA CGAATATGTA AAAACTAAAG GAGAAGAAAA TGAATAG
 
Protein sequence
MKKNYKIISV LLGSLLPITI IPSVLGIAIS SKKNLVDKGL YFKNEYFTNY SNFENHIRNE 
IKETQQYDEK TIYYASNINK QFDSELSLNK FLYNNIKSHD VSLSKDNKLY ANNSNLPLTN
QQINELDFNN SNSNTRVYLG KDNVAYETEE EAKLSYFNSA QFYKFNNKFY KNKESIINEL
ILEYNKIKSS SANDENKQLE ELKKIYKLED TSFMRFNAPN GVISNVDFTK NGALDQNLVK
KFINSNVKRY IKWKDKIYGI EDFIQNHFNK LAWKDSSIIK VKSTKANKKY LVDVDKTEDA
NFYGDYILTS PSDDIKDFKN YSKWSKRKRN ENIIDYHESI YKEIVNKFVS NLMMTVNNYL
LDKKIEENKD GKAELLKKFH ENFSIFNFLP LSEEAQNLIN HLQTLRIDDS KHANLWEKFE
DILKLMKNGK RGSFFNQLNI IYFSGLAYFA KYNASSVIVS LFKKYFRNLI SKMNEYLSEA
LGDLYTDKDG KKINLLDAYN LGDYSLDLDV NNDFFISHLA NNDNIINAIS TINLASLNAM
NTSSLLPFDD SGLLKKDSAR HNYDKLEKLY DKYSLRSKKE SNYIFDNNKG DYEVNKDIKG
NHIASNALQY YNYQSAQSLN NYLRDEFLNS LANIDYSRYA SNNRIMKNCE FGFDYYKKVT
IEYHKEHNFA STVISQLENL SYKNQDDIKS LQDTIKNLKK DDLKKYINSK TMTGHKLELN
KLVYEDQKTD VVDKINSAVQ VAGGIIQTAG AISQLYFSIQ ASGINQPLNI VKSVQGLVGS
VMGTLSSVPG LAIAAAAIDI VFTIITQLIG EKTQSDYVYS QTGNPKSQYI WDGGITTSRL
WGFWQTEDAT ISKAKLLEPI QFMPEFSTDF YYYDGKRYQD HQTSVLEKDL ICDVLTNNDQ
EFMKANNLEY LYSFESTAQG ENNRYFTKMA DLENELLANN AQKLKDWYKS SSGTINILDK
SKNITNVKDL FEKLKEIISN DLRATLLVQL PKLNSENIPL DQISDQSKRE KFSLEKLITL
INNINKNHDL LESKDLLLFD GNLKDENKKS YLYDIKNLEK ITKIFINKFN VTSKIVSKIM
FSFNNKYDEL NEAIKTKIYS ILNNQKERIY FASYDDAFKH LMQLQYLAID KKIIKENEMH
KFIYQDKEFT TIEEAIEYCK KFIKSADEYV KTKGEENE