| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | XfasM23_1489 |
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| Symbol | |
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| ID | 6202498 |
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| Type | CDS |
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| Is gene spliced | No |
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| Is pseudo gene | No |
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| Organism name | Xylella fastidiosa M23 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010577 |
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| Strand | + |
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| Start bp | 1645307 |
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| End bp | 1648522 |
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| Gene Length | 3216 bp |
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| Protein Length | 1071 aa |
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| Translation table | 11 |
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| GC content | 56% |
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| IMG OID | 641703002 |
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| Product | acriflavin resistance protein |
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| Protein accession | YP_001830174 |
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| Protein GI | 182682014 |
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| COG category | [V] Defense mechanisms |
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| COG ID | [COG0841] Cation/multidrug efflux pump |
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| TIGRFAM ID | [TIGR00915] The (Largely Gram-negative Bacterial) Hydrophobe/Amphiphile Efflux-1 (HAE1) Family |
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Plasmid Coverage information |
| Num covering plasmid clones | 23 |
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| Plasmid unclonability p-value | 1 |
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| Plasmid hitchhiking | No |
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| Plasmid clonability | normal |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | GTGGGCTTTT CGACGATCTT TATCCGCCGC CCAATCGCCA CTTCACTGCT GATGTTCGGC
GTACTCCTAC TTGGGATCCT GGGCTACAAG AAATTACCGA TGTCGGCACT CCCTGAGGTC
GATGCACCTA GCCTGGTCGT CACCACCCAG TATCCGGGTG CCAACGCCAA GACAATGGCC
GCATTGGTGA CCACCCCACT AGAACATCAG CTCGGGCAGA TTTCTGGCTT GGACATGATG
AGTTCTGATT CCTCGGCTGG CTTATCAACA ATAACCCTGC AATTCTCAAC ACACAAAAAT
CTCGACATCG CCGCACAAGA CGTACAAGCA GCGATCCATC AGGCCACCCT GCCCTCAACA
TTACCTCACC AACCGATCTA CAACCGGGTG AATCCAGCTG ACGCGGCCAT CATCACCCTC
AAGCTCACCT CTGATACCCT GCCACTACGC GAACTCAATA CATACGCAGA CGCTATCCTG
GCACAACGCC TCTCACAAAT ATCAGGCGTT GGTGTGGTCT CGATTGCTGG CAACGTCCGA
CCAGCGGTGC GGATCCAAGT GAATCCGGCA CAGCTATCCA ACATGGGCCT GACCATGGAA
TCGCTGCGCA ATACACTGAC CCAAGCCAAC GTCAACGCAC CTAAAGGCTC GCTCAATGGC
AAGAACCAGT CCTACAGCAT CGGTACCAAC GATCAACTGA AAGATGCTTC GCAATATCGG
GACACCATCA TCCATTACCA AAATGGACAT CCGGTTCGCC TCTCAGAGGT CGCCAATGTG
GTGGACGGCG TCGAAAATGA CCAGATCTCC GCTTGGGCCA ACGCAAAACC AGCCGTGCTG
CTGGAGATTC GCCGCCAGCC CGGCGCCAAC ATTATTAAGA CCGTCGAACA AATCCGCGCG
ATCCTGCCGC AGTTGCGTGC GGTGCTGCCC ACGGATGTAC ATCTTGACGT CTTTTCCGAC
CGCACCGAAA CCATCCGCGC TTCCGTGCAT GAAGTAAAAT TCACCCTGCT ACTGACCATT
GGTCTGGTGG TCGCGGTGAT CTTTGTATTC CTGCGCCGAC TATGGGCCAC GCTCATTCCA
TCGGTAGCGG TCCCCCTATC ACTGGCCGGC ACCTTCAGCG TGATGGCATT TAACGGGATG
TCACTAGACA ACCTCTCCCT GATGGCACTG GTCGTCGCCA CCGGCTTTGT CGTTGATGAC
GCGATTGTGA TGATCGAAAA CATCGTCCGC TACATTGAAC AAGGCAAGAG CGGACGCGAA
GCAGCGGAGA TTGGAGCACG TCAAATTGGT TTCACCATAC TCTCGCTCAC CATTTCGCTG
GTCGCCGTGT TTCTCCCCCT GCTGTTGATG CCTGGCGTCA CCGGCCGACT GTTCAACGAG
TTCGCCTGGG TCCTGTCGAC CGCCGTCGTC ATCTCGATGC TGGTATCACT GACCCTGACA
CCGATGATGT GTGCCTACCT ACTCAAACCC GATACTCTGC CCGAAGGCGA TAGCCCAACA
CAAATCACCA AGATCACCCT GTGGACACGC ACTGTCGCAC TATACGAACG CACCTTAGAC
TGGGTGCTGA TGCACCAACA ACTGACCTTA GTTGTAGCGC TAGTGACAGT AGCACTCACC
ATCGTGCTGT ATGTAACGAT CCCCAAGGGG CTACTGCCAG AACAAGACAC TGGACTCATC
ATCGGCGTTG TGCAAGCCGA CCAGGACATC GCATTCTCAC AGATGGAACA GCGTACACGG
GCCGTGGCCG ATGCACTGCG CAAGGATCCC GCCGTGACAG GCGTCTCCGC ATTTATCGGT
GCCGGCACCA TCAACCCCAC ACTCAATCAT GGCCAACTAT CGATCGTTCT CAAGCCACGC
AACCAACGTG AGGGGCTAAA CACCATACGC CCACGACTAC AACGCGCCGC AGCCGGCATC
CCAGGCATCG TCCTCTATCT AAAGCCGGTA CAGGATGTGA CTCTGGATAC CCACGTCGCT
GCAACCGAAT ACCAATACTC ACTCTCAAAC GTCGATGCAA CGGAGCTGGC TACCTGGGCC
ACACGCATGA CCGAGGCAAT GCGCCAGATT CCGGCACTGG CCGACGTAGA CAACAACTTG
GCCGACCAAG GGCGTGCCTT ACAGATCACT GTTGATCGTG ATAAAGCCAG CCTCCTTGGC
GTACCGATGC AGACTATCAA CGACACCCTA TATGACGCAT TCGGCCAGCG CCAAATCTCC
ACGATTTTCA CCGAACTCAA CCAATATCGG GTCGTCCTGG AAGTGGCCCC ACACTTTCGC
ACCAGCACCG CACTGATGCA GCAACTGGGA GTCGCCAGCA ACGGCAGCGG CGCACTGACT
GGCAGCAATG CCACGAGCTT CGGCCAAGCC GTCTCATCAA ACTCTTCCAC GGCCACAGGT
ATTGGCAACC TCAACACCGG AATGACCGTC GGTACTGGCC GTATCATCCC GCTGTCAGCC
CTTGCCGATG CTAAGGTCAC CAACGCTCCT CGCGTTATCA GCCATCAGCA GCAACTTCCC
TCCGTAACGA TCTCATTCAA CCTGGCCCAG GGGTATTCCC TCTCCCATGC CGTGAAAGCC
ATCGAACAGG CACGTACCCA ACTACAGATA CCTGCCCAGG TACGCGCCCA GTTCATCGGT
AAAGCCGTCG AATTCACCAG TAGCCAGAGT GACATCGTGT GGTTGCTGCT CGCTTCGATT
GTGGTGATCT ACATCGTGCT GGGGGTGCTA TACGAAAGTT ATATCCATCC GCTGACGATC
ATCTCCACAC TACCGTCGGC AGGCGTTGGC GCATTGCTGG CACTGATGCT CTGCGGACTG
AGCCTGTCGG TGGATAGCAT TGTCGGTATC GTGCTGCTGA TTGGTATCGT CAAGAAAAAC
GCAATCATGA TGATTGACTT CACCATCGAA GCACGCAGCA CCGGGAGCAG CGCCCACGAT
GCGATCCGCC GCGCCTGTCT GTTGCGCTTC CGTCCGATCA TCATGACTAC TGCCGCCGCA
CTGCTCGGCG CATTACCGCT AGCACTGAGC GACGGCATCG GCTCGGAATT GCGCCGTCCA
CTGGGCATTA CTATTGTCGG TGGCTTGCTG CTATCGCAGT TGATCACCTT GTACACCACG
CCTGTCATCT ACCTGTTCTT CGAACGGTTA TCCGAGCGCC TACGCCTCCG GCGTACACAC
CGTACCTCGG TCCAGGCCAC ACCACAGCGC GTATGA
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| Protein sequence | MGFSTIFIRR PIATSLLMFG VLLLGILGYK KLPMSALPEV DAPSLVVTTQ YPGANAKTMA
ALVTTPLEHQ LGQISGLDMM SSDSSAGLST ITLQFSTHKN LDIAAQDVQA AIHQATLPST
LPHQPIYNRV NPADAAIITL KLTSDTLPLR ELNTYADAIL AQRLSQISGV GVVSIAGNVR
PAVRIQVNPA QLSNMGLTME SLRNTLTQAN VNAPKGSLNG KNQSYSIGTN DQLKDASQYR
DTIIHYQNGH PVRLSEVANV VDGVENDQIS AWANAKPAVL LEIRRQPGAN IIKTVEQIRA
ILPQLRAVLP TDVHLDVFSD RTETIRASVH EVKFTLLLTI GLVVAVIFVF LRRLWATLIP
SVAVPLSLAG TFSVMAFNGM SLDNLSLMAL VVATGFVVDD AIVMIENIVR YIEQGKSGRE
AAEIGARQIG FTILSLTISL VAVFLPLLLM PGVTGRLFNE FAWVLSTAVV ISMLVSLTLT
PMMCAYLLKP DTLPEGDSPT QITKITLWTR TVALYERTLD WVLMHQQLTL VVALVTVALT
IVLYVTIPKG LLPEQDTGLI IGVVQADQDI AFSQMEQRTR AVADALRKDP AVTGVSAFIG
AGTINPTLNH GQLSIVLKPR NQREGLNTIR PRLQRAAAGI PGIVLYLKPV QDVTLDTHVA
ATEYQYSLSN VDATELATWA TRMTEAMRQI PALADVDNNL ADQGRALQIT VDRDKASLLG
VPMQTINDTL YDAFGQRQIS TIFTELNQYR VVLEVAPHFR TSTALMQQLG VASNGSGALT
GSNATSFGQA VSSNSSTATG IGNLNTGMTV GTGRIIPLSA LADAKVTNAP RVISHQQQLP
SVTISFNLAQ GYSLSHAVKA IEQARTQLQI PAQVRAQFIG KAVEFTSSQS DIVWLLLASI
VVIYIVLGVL YESYIHPLTI ISTLPSAGVG ALLALMLCGL SLSVDSIVGI VLLIGIVKKN
AIMMIDFTIE ARSTGSSAHD AIRRACLLRF RPIIMTTAAA LLGALPLALS DGIGSELRRP
LGITIVGGLL LSQLITLYTT PVIYLFFERL SERLRLRRTH RTSVQATPQR V
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