Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Mmwyl1_3233 |
Symbol | |
ID | 5368260 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Marinomonas sp. MWYL1 |
Kingdom | Bacteria |
Replicon accession | NC_009654 |
Strand | - |
Start bp | 3666145 |
End bp | 3669540 |
Gene Length | 3396 bp |
Protein Length | 1131 aa |
Translation table | 11 |
GC content | 48% |
IMG OID | 640805602 |
Product | exodeoxyribonuclease V, gamma subunit |
Protein accession | YP_001342074 |
Protein GI | 152997239 |
COG category | [L] Replication, recombination and repair |
COG ID | [COG1330] Exonuclease V gamma subunit |
TIGRFAM ID | [TIGR01450] exodeoxyribonuclease V, gamma subunit |
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Plasmid Coverage information |
Num covering plasmid clones | 13 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 24 |
Fosmid unclonability p-value | 0.911528 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGTTTCAAC TTTACACAAG TAACCGTCTA GAAGATTTGG CTGTGTTGCT TGCGAAGATT TTGGCTGTTT CACCGCCAGA AAATCCGTTT GATGATGAAT TTATCTTGGT GCAGAACCCC GGTATGGCGC AGTGGTTGAA GATGTTTCTG GCCGAGTCTC ATTCTATTGC TGCGGGTTTG GTGTTTCCTT TGCCTTCTAC CTTTGTTTGG CAAACTTTTG CGCAAAGCCT AGACGATATT CCGGCGCAAA GTGAATTTAA CAAGCCTTTC TTAGTATGGC GCTTAATGCG TTTGCTGGAC TCTCGTCTTG GTGACCCAGA ATTTCAGGCG TTGAGTTGGT ATCTTGAAGA AGACGATACC CAAATCCGCC GCTTTCAGTT ATGTAGTAGC ATTGCCGATA TTTATGACCA ATATCTGGTG TATCGCCCTG ATTGGATTAA GTCTTGGGAA GGTGGCGAAG CACAAGACCC CAAGTTGACA GCCATCTTTG AGCAACAACC TTGGCAAGCC ATTTTGTGGC GAGACTTGGT CGCTGATGTC AGCCAGCGGG GCACGTCGCT TTATCATCGT GGCAATCTTA TTGAAGCCTT GCATGACAAA ACTCAATCCT CTGCGCGACC AGTTGGTGTT CCTGAGCGAA TTTTCATTTT TGGCGTGTCT TCGCTACCAC CCAATACTCT TGAGTCTCTT CGAGTTCTGG CCGCGTCTGG CTGGATTGAT GTGCACTTGT TTTTGCAGAA CCCTTGCCGT TTTTACTGGG GCGATGTGGT TGATAAACAT TACTTAGGTC GAGAAATAAA ACGCCAAACC CTTAAACCAG GACTGAGTAC CGATACCTTG CATTTGGACG CAAACCCATT GTTGGCAAGC TGGGGGCGAC TAGGTCGTGA TTATATTGCC CAGTTACAAG AAATGGCCGA TAACGAGCTG GTAGTATTCG AAGATTATCG TACTGAGCAA TCGACAGGGC TACTACAATG GATTCAGCAA GATGTGCTGA CCCTAGAAAA CCATGGCTCG CAACAAGAGC GAGACGCCAA GATTCGCGAT GCGAGCTATC GACATCCTAT CGCTGCGGAC GATCAAAGTA TTCGTGTGCA TTTGTGCCAC AGCCCATTGC GCGAAGTGGA AGTGCTGCAC GATCAGCTTT TGCAAATGTT CGAGAGCGAT CCGAGCCTGA CGCCAAAAGA CATTATCGTC ATGTTGCCCG ACGTGAATAC TTACAGTCCG TTTGTTAAGG CGGTCTTCGG TTCTGTTAAA GGTAGCGCAC AGGGCAGAAA ACACATTCCA TTTGCTTTGA TTGACCAATC TGGCGGCATG GAAAACCCAA TTGTTGATGC CTATTTGTAT TTGCTCGGTT TGGGGGAAAG CCGTTTTACC TTATCTGAAT TGATCAGTGT ATTGGAAGTT CCTGCTGTGT TGGCGCGTTT TGAGCTAACC GCTGACGAGT TAGAGCGTAT TCGACAGTGG TCGACAGAAG TCGGCATTCG CTGGGGATTG GATGGCAAAA CCGCTCAACA GCATGATTTA CCGATGCAAG AATCTCATAC TTGGCTGAAT GGCGTGCGCC GCATGTTATT GGGTTATGCC ATGGGACATG ACCATATTTG GGAAGGCACG TTAAGTTATG GTGATGTGGA AGGTTTGGAA GCGTCTGTGG CCGGTAAACT CGCCGAGTTT TTAGTTGCCA TTAACGATGC TCAAGCGAAA TTGATGGAAT CTCTCGCCCC GAAAGAATGG ATTTCGACCT TGTATTATTT GGCGGAACGA TTCTTTTTGG TAGATGAAGA CGATGCGTTT CCCGCCTTGT TGAGTAAGCA GCTAGACGCG TTAACGCTGC AATGGCAGCA AGCGCATTTT GATGCACCAT TGGATCAGCA AGTGTTACGT CAGCTGCTGT CGCCGTTATT GCAAGAATCC CAAGGCGGTC AACGATTCCT AGCGGGACGA GTGAATTTTT GTACCTTGAT GCCAATGCGC TCGGTGCCGT TTAAAGTGAT TTGTGTGTTG GGTTTAAACG AGGGTGATTA TCCACGTAGC GTGGCGCCGA TGGGCTTTGA CCTGATGGTC GGACAATATC GCAGCGGCGA CCGAAGCCGA CGTGAAGACG ATAAATATTT GTTCCTTGAA GCCTTAATGT CAGCCCGAGA TTGTTTCTAT ATCAGTTATG TTGGTCGCAG CATTCAAGAC AACAGCGAAA AGAATCCGTC GATCTTAGTA AGCGAGTTAT TGGAATACAT CGGCCAGAGT TGCGTGTTTG AAGGTGATCA AGCATTAACG CCAGACGACG CACAGAAAGC CTTGTTAGAA AAATTGATTC TCGAACATCC TTTACAGCCT TTCAACGCGG CTTATTACTT TCAGCCACAA GGCTCGTCGC ACGAATCTAC TGATCAATTT GATAAGCGCT TGTACAGCTA CGACGAGCAG TGGTTGCCCG CTTTGCTTAG CGTTCCAGTA GACGAGGAGG CTCAGGCGTT TTCTCCGTTG GAAGGCTTGG AGCAACCAAG GATAGATTTA GCACTGGATG AATTGTCACG ATTCATCGGG CATCCGACTC GTTACTTTAC CCAGCGTCGA TTGAAAGCCT ATTTAAGCCT GCAAGAAGAG GAAGAAAAAG AAGATGAGCC GTTTGCTTTA GATGGCTTGG CGGGCTACCA ATTACGCGAA GGCTTGCTGC AAGCCATGCT AAAAGGCGAT GAAGATCAGT TCGTTGAGCG TTTGTCTCTA ATGGGGGCTT TGCCTTACGG CGCGTTAGGA CGTTTGTCTT TGCAGCAGAG CCGTGGTCAA TGCCGTCAGT TATTGTCTGT GTTGCAAGGT TACGCTTTGG AAGAGTGCGA GCCTATTGAG GTGAATTTGG CAATGGGGAG CATTGTGCTG CAAGCCTGGT TGGATTTGCC AACCGCGACG ACGCGCTTAT CTTATCGCAT TGGTGATTTA TCGGCACATC AAAAAATGCA GATGTGGATC GAGCACTTAG CCTTGTGCGC GCAAGGTACA CCCAAAGAGC ATCACCTAAT TAATTTGACT AAAACCGGCA AGTTGCTACA GCACAGTTTT ATTATCATTC CACCGAACGA CGCTCAAGAT TATCTGAATA CTATGCTGGC TTTGTTGCAA CAAGGCTTGT GTCAGCCGAT TGCTTTGCCG GCGAAAAGCG CGGACGCATG GTGCAAGAGT TATTGTTCCA GCAAGACCCT TGAAGATGCC GATATCGCTT GGGAGCAGGC GTTGAAACTT TATCAAGACA ACAGCTCTGC GTTTACTCGC AGTGAAGTCG ATGATGCCTA TTGGCAGCGT TATTTTCCGG ATTTGAATCG TCAAAAGGCG CAGTTTGTCT CCTTGTGTGA GCAAATTTGG TTGCCCATGC ATCGTCACTT GGAGGTCATA GAATGA
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Protein sequence | MFQLYTSNRL EDLAVLLAKI LAVSPPENPF DDEFILVQNP GMAQWLKMFL AESHSIAAGL VFPLPSTFVW QTFAQSLDDI PAQSEFNKPF LVWRLMRLLD SRLGDPEFQA LSWYLEEDDT QIRRFQLCSS IADIYDQYLV YRPDWIKSWE GGEAQDPKLT AIFEQQPWQA ILWRDLVADV SQRGTSLYHR GNLIEALHDK TQSSARPVGV PERIFIFGVS SLPPNTLESL RVLAASGWID VHLFLQNPCR FYWGDVVDKH YLGREIKRQT LKPGLSTDTL HLDANPLLAS WGRLGRDYIA QLQEMADNEL VVFEDYRTEQ STGLLQWIQQ DVLTLENHGS QQERDAKIRD ASYRHPIAAD DQSIRVHLCH SPLREVEVLH DQLLQMFESD PSLTPKDIIV MLPDVNTYSP FVKAVFGSVK GSAQGRKHIP FALIDQSGGM ENPIVDAYLY LLGLGESRFT LSELISVLEV PAVLARFELT ADELERIRQW STEVGIRWGL DGKTAQQHDL PMQESHTWLN GVRRMLLGYA MGHDHIWEGT LSYGDVEGLE ASVAGKLAEF LVAINDAQAK LMESLAPKEW ISTLYYLAER FFLVDEDDAF PALLSKQLDA LTLQWQQAHF DAPLDQQVLR QLLSPLLQES QGGQRFLAGR VNFCTLMPMR SVPFKVICVL GLNEGDYPRS VAPMGFDLMV GQYRSGDRSR REDDKYLFLE ALMSARDCFY ISYVGRSIQD NSEKNPSILV SELLEYIGQS CVFEGDQALT PDDAQKALLE KLILEHPLQP FNAAYYFQPQ GSSHESTDQF DKRLYSYDEQ WLPALLSVPV DEEAQAFSPL EGLEQPRIDL ALDELSRFIG HPTRYFTQRR LKAYLSLQEE EEKEDEPFAL DGLAGYQLRE GLLQAMLKGD EDQFVERLSL MGALPYGALG RLSLQQSRGQ CRQLLSVLQG YALEECEPIE VNLAMGSIVL QAWLDLPTAT TRLSYRIGDL SAHQKMQMWI EHLALCAQGT PKEHHLINLT KTGKLLQHSF IIIPPNDAQD YLNTMLALLQ QGLCQPIALP AKSADAWCKS YCSSKTLEDA DIAWEQALKL YQDNSSAFTR SEVDDAYWQR YFPDLNRQKA QFVSLCEQIW LPMHRHLEVI E
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