Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | WD0359 |
Symbol | |
ID | 2738843 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Wolbachia endosymbiont of Drosophila melanogaster |
Kingdom | Bacteria |
Replicon accession | NC_002978 |
Strand | - |
Start bp | 341471 |
End bp | 344740 |
Gene Length | 3270 bp |
Protein Length | 1089 aa |
Translation table | 11 |
GC content | 36% |
IMG OID | 637172568 |
Product | UvrD/Rep/AddA family helicase |
Protein accession | NP_966154 |
Protein GI | 42520239 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1074] ATP-dependent exoDNAse (exonuclease V) beta subunit (contains helicase and exonuclease domains) |
TIGRFAM ID | [TIGR02697] Wolbachia palindromic element (WPE) domain [TIGR02784] double-strand break repair helicase AddA, alphaproteobacterial type |
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Plasmid Coverage information |
Num covering plasmid clones | 1 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | ATGTATAATG CTATTCTAGT CAACTTTTAT AAGGTTCTCG CACTTCTGAT GAGATCAAAT GCCATAAATC CTAATTTCTC TGTGTGGGTA AATGCGTCCG CTGGTACAGG CAAAACAAAA ATCTTAATAG ACAGAGTATT GAGACTTTTA TTAGAAAACA AAAGAAATAT TCTTTGCTTA ACATTCACCA ATGCTGCAGC AAACGAAATG GAGAATCGCA TTCACAGCAT ACTCAGTAAG TGGGCAATAT GTTCAGATAG TGTGTTGGCA GCAGATCTAG AACAACTAGA TTTCTTTCCA ATGTCATCCC AGTGCGTGAC ACTGGGATCC AGAAAAAATA AAGATTATTT AACAAGAGCA AGAAGGCTTT TCTCTGAACT GGAAAATCTT GGTCTAACTA TACAAACCAT ACACGCTTTC TGTTACAAAT TAATCTCCAG CTTTCCTATA GAAGCTGGCA TTGCTCCAAA TTGCACGCTG AGCGAATGCA AAGAATTACA TTCCATCATA TTCAATAAAG TGCTTCATAA CGAAACTGTG CAGGATGATA TCAACCTTAT TGCAACTGAA ATTGATGAAA ATAAACTACG CGATTTGCTT TATACTTTAT GTGTAAAAAG ATCAGCGTCA GCAAATGATT CGAAATATAT CAAAGATAAA TTGAGCGCCC CAGATGAAAT TCATGACTTA CAGAGTGAAA CAATTGAGCA CGTGGAAAGA CTAGCCGAGA TATTAAGTGA AGGCAGTAAA AGAGATCAGA GTTATAGTGA AATACTTTAT TCTACTGTCA TCCCAGCTGG GATCCAGAAG AAAAGAACCA GCGTCACGCG CTGGAATGAC ACTAAAGTAG AAAACCTAGC CAAGGTCTTT TTAAAATCAG AATCGCACGA AAAAAAGAGC ATATCATCCA TTGCAACAAA AAGTATTTTG GAGAAATTCA AAGATGCAGA GCAAATAATA GAGAGCGTTC AGAATGTAGT ATTTACCCAT ATAAGAGACA TGAACTCTTA TCAAATATTC AAGAGAACCA GTAGCTTACT TGGTGTATTT AAAGTATATG TTGATTTGTA TAATAGTGAA AAATCAAAAA ATGCACTGCT TGACTACAAT GATATAATCA ACTTAGCAAC AAATCTTCTT AGCAATCCAA ACTATAAAGA TTGGATATTG TTTAACTTGG ATCAAAAAAT AGATCACATC CTTGTTGACG AGGCACAAGA CAATAGCATC AGCCAGTGGA AAATTATAAC AAATCTCTGC GATGAATTTT TTGCCGGTAA TGATGAAAAG CGAACCTTAT TTGTTGTTGG TGACGTAAAA CAATCCATAT ACAGATTTCA AGGAGCAAAT CCCCATCTAT TCAACTATAT GCAACAATAC TTTCATACGA AAACTGGTGG TAGAGATTGG ATATCATGCC AACTTGAAAA GTCATTTCGC TCAACTCCAG AAGTTTTGAT GCTTGTAGAT AGAATATTTA ATAACTTCCG CGCAGAAATA TCTTTTAATG ATAATGAAAT AAAACATGTT CCACATAGAG AAAATGACCA AGGATATATT GAAATTTGGC CAGCGTTACC AAGGCGCAAA GAGAAAGAAC AGCAAGCTTT ACAAATTCCT CTGACATGCA GGGAAAATTA TATAATAGCA GACCGATTAC TTGCTCAAAC AATAGCCAAC AGAATTCACA ATTGGTTAAA TGAAGGGCGA ATTTTAGTCG CTAAAGATCG CCATATAGAG CCAAGAGACA TTATGATTTT GGTACGGCAA CGAAACGTAT TAGTTGATTA CATAATAAGC GAACTTAAAA AAGCAAACGT GCCAGTTGTA GGCCGGGATT ATTTTAGAAT TATGGACTAT ATAGCCGTGC AGGACTTAAT AGCTTTGGCC GAATTTTTAC TCCTCCAGGC AAATGATTTA GCTCTTGCAA ATGCTTTAAA ATCACCGCTA TTTAATTTCA CCGAGGATGA TTTATTTAAC ATTGCATACG ACCGTAAAGA GCATTCACTA TGGGAAAGAA TTCAGGATTA TTCTGTGGTT ATCTATAGTG AATTAAACTA TCTCATTAAC TTATCTCGCA TAGAGTCTCC TCTTGCACTA TTTACACATA TATTGCGTAC AGGTAAGAAG AAATTTGCTG CAAGGCTAGG TCTTGAGTGC TTTGAGGTTC TAGACGAATT TATGAACCTC GTGTTGCAAT TTGAAAACCC ATCTCTTCAA GCGTTTGTTC AATGGATCAA GGAGAATAAT CCGGAGATTA AGAATGATAT GCAATCAGAA CGCAATGCTG TGCGAATAAT GACAATTCAC AAATCAAAAG GTCTGCAAGC TCCCATAGTA TTTTTGGTTG ATACAAACAC AGTGCCAAGA AACAGTGAAA GCATTATCTT TGATGGAACA GAAGTGCCAT TTTGGTGTGG AAAAAACAAC AACGCTTATT GCGATCAAGT AAAAAGAGAG AAAAAACTAG AGGATTATAA TGAATATTTG CGTTTATTAT ACGTAGCACT CACGCGTGCT GAAGATGAGT TATACATCTT AAGTAAAGAG CCAGTGCAAA AGGGCTCTTG GTATGATCTA ATCACTAAGT ACGGAGAGCC ATATGAAAAG AAACAAAGGG ATTTACAGCC AATATTTAAA GAAAAAGTTG AAGTATTATG CGTGAATGCA AACTACCCTT ACATTTATAA AAAACGTGAT TATTTTGACG TTCCGGTCAT TTCCCTTCCA CCAGCTTTAG CCCACTCTTC GGTGTCATCC CAGCGCGTGA CGCTGGAATC CAGTGAAAAA GAAGGAGCAG AATGGATCCC AGTGTCAGCT ACTTGGATGA CAGATGGTTA TGCAAGAGGC CTGATTATTC ACAGCATATT GCAGTATATG CCCAAGATAG AAAAAGAAAG GAGAAAAAAT TGGGTCAGAA AATACCTTGA TAACATCAGC GAAGATAAGG ATGAAATTTA CAGTAAAATA TTAGCCTTTA ATGAAAAATA TGGCTATTTG TTTGACTTGG AAGGCAAATC AGAGATTACA CTGAGTGGAA CAATTGATGG CAAGTCAGTA TTAGTACGAC TAGATAGGCT ATGCATAACG CAAGATAAAG CAATCATAAT TGACTACAAA TCACACCGTA ACGTTTCTGT TTCCTTATTA AATGAAATAA AAAAACAGAT GTTAATCTAT AAAACCTTAG TACAAGAAAT ATATCCAAAC AAGCAAGTAG AGTGCGTGGT TATTTGGGTG GAAGATTTAA CCATTCAATC TGACTTTTAA
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Protein sequence | MYNAILVNFY KVLALLMRSN AINPNFSVWV NASAGTGKTK ILIDRVLRLL LENKRNILCL TFTNAAANEM ENRIHSILSK WAICSDSVLA ADLEQLDFFP MSSQCVTLGS RKNKDYLTRA RRLFSELENL GLTIQTIHAF CYKLISSFPI EAGIAPNCTL SECKELHSII FNKVLHNETV QDDINLIATE IDENKLRDLL YTLCVKRSAS ANDSKYIKDK LSAPDEIHDL QSETIEHVER LAEILSEGSK RDQSYSEILY STVIPAGIQK KRTSVTRWND TKVENLAKVF LKSESHEKKS ISSIATKSIL EKFKDAEQII ESVQNVVFTH IRDMNSYQIF KRTSSLLGVF KVYVDLYNSE KSKNALLDYN DIINLATNLL SNPNYKDWIL FNLDQKIDHI LVDEAQDNSI SQWKIITNLC DEFFAGNDEK RTLFVVGDVK QSIYRFQGAN PHLFNYMQQY FHTKTGGRDW ISCQLEKSFR STPEVLMLVD RIFNNFRAEI SFNDNEIKHV PHRENDQGYI EIWPALPRRK EKEQQALQIP LTCRENYIIA DRLLAQTIAN RIHNWLNEGR ILVAKDRHIE PRDIMILVRQ RNVLVDYIIS ELKKANVPVV GRDYFRIMDY IAVQDLIALA EFLLLQANDL ALANALKSPL FNFTEDDLFN IAYDRKEHSL WERIQDYSVV IYSELNYLIN LSRIESPLAL FTHILRTGKK KFAARLGLEC FEVLDEFMNL VLQFENPSLQ AFVQWIKENN PEIKNDMQSE RNAVRIMTIH KSKGLQAPIV FLVDTNTVPR NSESIIFDGT EVPFWCGKNN NAYCDQVKRE KKLEDYNEYL RLLYVALTRA EDELYILSKE PVQKGSWYDL ITKYGEPYEK KQRDLQPIFK EKVEVLCVNA NYPYIYKKRD YFDVPVISLP PALAHSSVSS QRVTLESSEK EGAEWIPVSA TWMTDGYARG LIIHSILQYM PKIEKERRKN WVRKYLDNIS EDKDEIYSKI LAFNEKYGYL FDLEGKSEIT LSGTIDGKSV LVRLDRLCIT QDKAIIIDYK SHRNVSVSLL NEIKKQMLIY KTLVQEIYPN KQVECVVIWV EDLTIQSDF
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