Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Xfasm12_2280 |
Symbol | |
ID | 6120044 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Xylella fastidiosa M12 |
Kingdom | Bacteria |
Replicon accession | NC_010513 |
Strand | + |
Start bp | 2421821 |
End bp | 2425255 |
Gene Length | 3435 bp |
Protein Length | 1144 aa |
Translation table | 11 |
GC content | 59% |
IMG OID | 641650218 |
Product | hypothetical protein |
Protein accession | YP_001776758 |
Protein GI | 170731325 |
COG category | [S] Function unknown |
COG ID | [COG4913] Uncharacterized protein conserved in bacteria |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 17 |
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 | ATGCGTGAGA CCTCCACACT CGGCCTAAAT TTCGTTGCCG ATGACAAGCG CGTCGGCTTC CGGCTACAGC ACCTAGAAGT AGTGAACTGG GGCACCTTCA ACACCCGGGT GTGGTGCTAC ACCCTGGGCG GGCGCAGCGG CCTGCTCACC GGCGACATCG GTTCGGGCAA GTCCACGCTG ATTGACGCAA TCACCACCCT GTTGGTGCCA GCGCAGCGCG TGGCCTACAA CAAGGCCGCT GGGGCCGATG CCCGCGAACG CTCGTTGCGC TCCTACGTGT TGGGCTACTA CAAGAGCGAA CGCAACGATG CCACCGGCAC CGCTAAGCCC GTAGCACTGC GCGGTACGTC GGACTACTCC GTCATCCTCG GCGTCTTCCA CAACGTCGGC TATGACAAGG TCATCACCCT GGCCCAGGTC TTCTGGCTGA AGGACTCGCA AAGCCAGCCT GCCCGACTGT TCGTGGTGGC AGAACGCGCC CTTGGCATCG CCACGGACTT CAACAACTTG GGCGGCGACA TCAAGACCCT ACGTAAGAAG CTTCGTGGTG CAGGGTGCGA GCTGTTCGAC AGCTTCCCAC CCTACGGGGC GTGGTTTCGC CGACGCTTCG GCATCCAACA CGAGCAAGCG TTGGAGCTGT TCCACCAGAC CGTCTCAATG AAGTCCGTGG GCAATCTCAC CGACTTCGTG TGCAGCCACA TGCTAGAACC CTGTGATGTG GGCAGCCGCA TTGAGGCGTT GATCTGCCAC TTCGACGACC TGGACCGGGC GCATCAAGCC GTGCTCACAG CCAAGCAGCA GGTGAAGTTG CTCCTCCCCC TGGTCGACGA CGGCCAGAAG CACCAGACGC AGCTAGCCAA CATTCAAACC TTGGAAGCTG GACGCGACAC ACTGCGGCCC TACTTCGCAC AGCTCAAGGG TGAACTGCTG AAGCACCGCC TGGACGCACT AGCAGCCGAA GCGGACCAGC TAGCTGTGGA GATCCAGCAG CTGAAAGAAC AGCGCAAGAC CGCAGACAGT AAAGTCACCC AACTGCAACA GGATCTGCGA GACAACGGCA GCGACCGCCT GGAAACGCTG GCGGCAGAGA TCCAGCAACT GGAGCAAACC AAGGCACAAC GCCAAAAGAA GTCCGACCGC TACCAAACGC TACTGACCAA GATTGACGAG ACAGCGCCAG CCGATGCAAT AGGCTTCTTC ACCCAGCAAC AGCGCTTTGC GCAACATACC GAGGAATTAA ACGCAGCCAT TGCGACGTTG CATAACGACA AGAGCGAGAA GGACTTTGCG CTCCGCAATG CTCGGAAAGA TCACAACACC CTATTGGCAG AAATCAACAG CCTGCAACAG CGCCAGAGCA ACATCAGCGC CATCCAGATC CGCATCCGTC ATGATCTGTG TGCGGCATTG TCCATTGATG CGGAGGAATT GCCTTTCGCG GGCGAACTCA TCCAGGTGCG TGAGGACGCA CGCGATTGGG AAGGCGCCGC CGAGCGGTTG CTACACAGCT TTGGCCTCAC CCTGCTGGTT CCGGACGCGT ACTACAAGGC TGTGGCCACG TGGGTGAACC ACAAACAGTT GACGGGCCGA CTGGTGTATT TCCATATGCG TCCACGTAAT ACGACGCAGG ATGCAGCGTT ACATGCGCAG TCGCTGGTAC ACAAACTCAT CATCAAACCG GAGTCACCAC ACTACACGTG GCTGCAACAG GAACTTCAGC GGCGCTGCAA CGTCGTCTGC TGTGACACCA TTGAGCAGTT CCATCGTGAG GTCCGCGCCA TCACGCAGGC CGGCCAGATC AAAGACCCCA GTGGCCGCCA TGAGAAGGAC GACCGCCATC GCATTGACGA CCGCAGCCGC TACGTCCTCG GCTGGAGCAA TGCCGACAAG CTGCACACTT TGAACGAGCA ACGGCAACAC CTGGAAGACA GCATACGCAT GTTGGGAGAA GACCTCGGCA CCATTCAGCA GGAATGCCAG AAACAACAGG AACGGCTGGA TGCACTCAAC AAGCTGGGGG AATACCCGGA CTTTGCGGAC ATCGACTGGA TGAGCCTGGT CCGCCAGATT GCCGGACTCA AAGAGGAACA GGCACAGCTC CAAGCCACAT CTAACATTTT GCAAATCCTG CAACAGCAAC TCACAGAGGC GCAGACGCAA GTCAAGCTGC TGCATGGCAA GTGGGAAAAC GCGTTGCGCG AACAGGGCGA GGTCAATAGC AAACAAAAAA CGGCGCAGCA GATGTGGAAT CAGGCCCGTA ACGTTTGGGA TGATGCGCCA CTGAGCCAAG CGCAGATCGC GCTATTGGCT TGCTGGCGCC AGCAAGCGCT GGGGGAGCAC CTGCTATCGG TCGAATCTTG CGACAACCAC GAGCAGCAAG TTCGCCAATG GCTACAAAAA CGTATCGATG CGGAGAACGC TCACCTGAGA CAACTAAATG ACCGTATTAC AGGCGCCATG CACCGCTTCA AAGATCAGTT CAAGGCCGAG ACCGTGGAGA TGGACGCAGA CCTGGCGGCG CTGCCAGAGT ATGAACGGAT GCTCAACGGC TTGCAGGAGG ACGACCTGCC CCGATTCGAG GCGCGCTTCA AAGAACTGCT GAACGTCAAC ACCATCAACG AGATCGCCAG CTTTAACGCC CAACTCAACC GTGAGCGGGA GACGATCACC GAGCGCATCA AGGACATCAA CCAATCGCTG CACGGCATTG ACTACAACCA GGATCACTAC ATCAACCAAT CACTGCACGG CATTGACTAC AAAAGGGGGC GCTACATCAC GCTGCTGGCA CAACCCAGCC CGGACGCTGA GATCCGCGAC TTCCAGCAGG ATCTACGGGC ATGTACCGAA GGCACGTTGA CCGGTTCGGA CGATGAACAG TATTCGGACG CGAAATTCCT CCAGGTCAAG CGCATCATTG ACCGCTTCCG GGGCCGTGAA GGGCTGTCGG ATGCCGACCG GCGCTGGACG GCCAAGGTGA CCGACGTGCG CAACTGGTTT GTGTTTTCGG CCAGCGAGCG CTGGCGCGCC GATGAGAGCG AGTACGAGCA CTACGCCGAC TCGGGCGGTA AATCTGGCGG CCAGAAAGAA AAGCTGGCCT ACACCGTGTT GGCGGCAAGC CTGGCCTACC AGTTTGGGCT GAAGTGGGAT GAGGTGCGTT CAGAATCGTT CCGCTTCGTG ATTATTGATG AGGCGTTCGG GCGCGGCTCG GACGAGTCAG CCGAGTACGG GCTGCGCCTA TTCGAAAAGC TCAACCTGCA ATTGTTGATC GTGACGCCGC TGCAGAAGAT TCACATCATT GAGCCGTTCG TCTCCAGCGT GGGATTCGTG CACAACAAGG GCGGGTGCGA CTCGCAGCTA CGCTGCCTGT CGATTGAGGA GTACCAGGCG GAGAAAACAA ATGGAAGCGG GCCGGGAGGC GGCACCGCCC CATGA
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Protein sequence | MRETSTLGLN FVADDKRVGF RLQHLEVVNW GTFNTRVWCY TLGGRSGLLT GDIGSGKSTL IDAITTLLVP AQRVAYNKAA GADARERSLR SYVLGYYKSE RNDATGTAKP VALRGTSDYS VILGVFHNVG YDKVITLAQV FWLKDSQSQP ARLFVVAERA LGIATDFNNL GGDIKTLRKK LRGAGCELFD SFPPYGAWFR RRFGIQHEQA LELFHQTVSM KSVGNLTDFV CSHMLEPCDV GSRIEALICH FDDLDRAHQA VLTAKQQVKL LLPLVDDGQK HQTQLANIQT LEAGRDTLRP YFAQLKGELL KHRLDALAAE ADQLAVEIQQ LKEQRKTADS KVTQLQQDLR DNGSDRLETL AAEIQQLEQT KAQRQKKSDR YQTLLTKIDE TAPADAIGFF TQQQRFAQHT EELNAAIATL HNDKSEKDFA LRNARKDHNT LLAEINSLQQ RQSNISAIQI RIRHDLCAAL SIDAEELPFA GELIQVREDA RDWEGAAERL LHSFGLTLLV PDAYYKAVAT WVNHKQLTGR LVYFHMRPRN TTQDAALHAQ SLVHKLIIKP ESPHYTWLQQ ELQRRCNVVC CDTIEQFHRE VRAITQAGQI KDPSGRHEKD DRHRIDDRSR YVLGWSNADK LHTLNEQRQH LEDSIRMLGE DLGTIQQECQ KQQERLDALN KLGEYPDFAD IDWMSLVRQI AGLKEEQAQL QATSNILQIL QQQLTEAQTQ VKLLHGKWEN ALREQGEVNS KQKTAQQMWN QARNVWDDAP LSQAQIALLA CWRQQALGEH LLSVESCDNH EQQVRQWLQK RIDAENAHLR QLNDRITGAM HRFKDQFKAE TVEMDADLAA LPEYERMLNG LQEDDLPRFE ARFKELLNVN TINEIASFNA QLNRERETIT ERIKDINQSL HGIDYNQDHY INQSLHGIDY KRGRYITLLA QPSPDAEIRD FQQDLRACTE GTLTGSDDEQ YSDAKFLQVK RIIDRFRGRE GLSDADRRWT AKVTDVRNWF VFSASERWRA DESEYEHYAD SGGKSGGQKE KLAYTVLAAS LAYQFGLKWD EVRSESFRFV IIDEAFGRGS DESAEYGLRL FEKLNLQLLI VTPLQKIHII EPFVSSVGFV HNKGGCDSQL RCLSIEEYQA EKTNGSGPGG GTAP
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