| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Sbal223_2583 |
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| Symbol | |
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| ID | 7086149 |
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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 | Shewanella baltica OS223 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_011663 |
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| Strand | - |
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| Start bp | 3073280 |
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| End bp | 3076648 |
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| Gene Length | 3369 bp |
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| Protein Length | 1122 aa |
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| Translation table | 11 |
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| GC content | 47% |
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| IMG OID | 643461473 |
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| Product | phage tail tape measure protein, lambda family |
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| Protein accession | YP_002358497 |
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| Protein GI | 217973746 |
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| COG category | [S] Function unknown |
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| COG ID | [COG5281] Phage-related minor tail protein |
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| TIGRFAM ID | [TIGR01541] phage tail tape measure protein, lambda family |
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Plasmid Coverage information |
| Num covering plasmid clones | 10 |
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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 | 23 |
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| Fosmid unclonability p-value | 0.887267 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGGCAAATA AGTCACTCGG CACACTAACG CTAAACATGG TTGCCGAAAC GGGCAGCTTT
GTTGAAGGTA TGAGTAAAGC TGAGCGTGCA TCATTAAAGG CTGAAAATGC GACAGCCAGA
ATGGTGAAAC AGATTGATCC GCTGATATCA CAGCTATCTA GCCTAGAAGT TCAGCAGCGC
CGTCTTGCAG AGTTAAATGA TAAGGGAATA TTTAATGGTC GTGAGTTCGA GATCTTATCG
GAACGCTTAG AACAAACTAA AAATGCCACG TATGAGGCAA ACTCGGCTTT TGCAGATCAA
TACAAGCAGA TCAACCGAGT CGTCAGCCAG CTAGACCCTG CAATCGCTAA ATATGCCGAA
TTAGACAACA TGCAAGCGCG GTTATCTGAA GGCGTAAAAG TGGGCGTTAT CAGTGGCGAA
GATTTCACAA AATATAACGC TCAGCTAGCG ACAATGCGTG AAGAGTATGA CAGGGCATAT
ACCGCATCAG GTCGGCTGCA ATCTGCTCAG CAAAAAGAAC AAGCGGAACT GCAAGGGCTA
TTGCGCCAGT TAGATCCAGT AACAGCAAAA CTGGCAGAGT TAGAATCTCA AAATACTAAA
CTATCAGCGG CCTTCGCTGC AGGAAATATA GATAAGGGAC AATACGATAG CGCAATAGTA
AAACTTAACC AAATGCGATC GGCCATTGAT GGCACAACAG AAGCGCAAAT GAAGGCTGAG
GCGGCAACCA AGCAACAACA GTCAGAATTA CAACGGCTGC AGCAAAGACT TGATCCTGTC
ATCTTTGAAA TTAGAGAGCT CGATAAAGCA CAAGAGTTAT TAAGATCTAG CTCAGCTAAA
GGCTTAATAA ATTCATCTGA ATATGACCTT TACTCTAAAC GTTTAGCAAA AATGCGGAGT
GAAGTTGGAA ATACAAGCAT TGAGTTTGAT AAAAATGGTT TGTCAGCTAA GCAAATGTCA
TTCGCTTTGC GCGGTATCCC TGCTCAGTTT ACCGATATAG CCGTATCGCT CCAAGGTGGT
CAAAATCCAT TAACGGTATT CTTACAGCAA GGCGGTCAGC TAAAGGATAT GTTTGGCGGC
GTGGGCCCAG CGGCTAAAGC CATGGGCGGC TACATACTGG GATTAATTAA CCCATTCACC
ATTGCAGCTT CTGCTGCTGG CGTAATGTCG CTGGCGTATT ACCAAGGCAG TGTTGAGGCA
GATAGGCTAC GTAATGCATT AATACTGACA GGTAACTCTG CAGGATCTAC ATCAAGCGAA
TTGATGGAGT CAGCCAAACG TATTGATGCC ATTAGCGGCA CTCAGCGCCA AGCAGCCGCA
GCGCTGGCAG AAGTTGCCAA TACAGGCAAG TTTACCGCCA GCCAAATCGA ATTAGTTGGA
CGTGCCGCAG TGCAAATGGA TAACGTCACC GGCAAAGCGG TCGCCGATAC GGTAGCCGAG
TTTGCCAAAC TTGCGGATGA TCCGGTCAAA GCGGCTGAAG AACTCAACAA AAAGTATCAC
TTCCTCACTG CATCTGTGTA TGAGCAGATT GTCGCGCTTA AGGAAGCAGG TAAAAGCACA
GAAGCATCAG AGTTAGCCTT TAGAGCTTAT GGCGATGCTA TTAGCCAAAG AACGAAAGAG
ATCACCAGCA ATCTAGGCAA TATTGAAAAA GCATGGAAGG CGATCAAATC GGGCGCTTCT
GAGTCTTGGG ATCAACTGCT TAATATTGGC CGCATAGACA CGCTAAAAGA AAGGCTCGCT
GATAACGCTA AAGAGATTAA TAAGTTAGTT TCACTCGGCA AAGGGTCTGG CTTTGAATCA
ACCCGCCGCG AAAATTTATT AGCTAAGCTG CAGGCAGAAG GAAATGAGCT CGTTAAGCAA
ATTCAGCTAG AAGATAAATT AGCTGAGGAA CAAGCAAAAC GCGCCAAAAT CAACCAAGAC
TCCATCGAGG CTCAGCGTGC CATTGCTAAA GTGACCGATG AAACCCTTAC CAATGAGCAA
AAGCGCACTA AGGCGATAAA GGAATATAAC GACAATATCG AAAAGGTGCG TAAAGGTAAT
GCGAATAGTG CCTTGCTGGA CCCTGAAAAA ATTAAACGTG ATCTCGCCTC GATAGAAGAA
AAGTTTAAAG ACACCGCTAA AAAGACCAAA GCCTTTGCTG ACGACGCGGC CACTACGTAT
CTCATGCGTT TGCGCGAAAC TCAAGCAGGC TTGCAAGGTC AGCTAGAGTC AAATATCAAG
CTTACTCAGT CGCAAAAAGA GTTAGTGCAG TTTGAGCAGC AAATCGCCGA TATCAAAAAC
AAAGATGTAC TGACCGCACA ACAAAAAAGT TTGTTGGCGG AACAATCGGT GATCCGCGCT
CAACTTGAAA AGAACGTTGG ACTAGATGAT GAAATTAAAA AGCGCAATGA ATCCATCCGC
CTGCAAAGCT ACAGCGCCAA TCTCACTGCT AACCTTGCAG CAGAACAACA GCGCAACGCC
GACAAACTTG CCACCTTTGG CCTTGGTGAC AAAGCACAGC AACGCCTAGG CGATCGCCAA
GGGATTGAGC GTGATGTAGA ACGCGCTCAG GGCAAAGCGT TATCAGATAA CCTCGCAGGT
AAAACTACCG ACGATGAATA TCAGCAACAA CTTTCTATGC TCAAGGATAA CCTCACCGAA
CGCTTGGCCG TTCAGGATGA ATACTATTCT GCCCTCGATG CCAAGCAATC CGATTGGACT
AATGGCGCCC GTTCATCAAT GCAAAATTAC ATTGATGCTG CGGCTGACAT GGCAGGCCAA
ACCAAAACCC TCATGGATGG GGCTTTTGGT GGTATGACAG ACGCGCTTAC TGATTTTGTC
ACCACAGGTA AGGCCGACTT TGCCGGGCTT GCAAAATCGA TATTGGCGGA CATTGCCAAG
ATTGCCATGC AAAAAGCCAT TGCTGGTCTA GTGGGAAATA TGTTTGGTGG TTTCGCAGAT
GGAGGAGCGG TTGGCGATAC TGGATTCTCA TCCGGCGGCT TTACTGGCTT TGGTGGAAAA
TATGAGCCTG CAGGCATTGT TCACAAAGGC GAGGTCGTTT GGTCGCAGCG TGATGTAGCG
GCTGCTGGCG GTGTGGCTAC AGTAGAAGCC ATGCGCAAAG GCAATAAAGG CTATGCCAAT
GGCGGCATAG TTGGCGGCGC AGCTTATAAC GGCGTGCCAG CCTCGGCAAC GGCTGGCGCT
GGCGTGGTGC ATGTTGAGGT CAACATAGAT CAAAGTGGCA ATGCCACAAC CAAAGCCGAT
ACCCCTGCCT TAAATCAGTT CGGCAGCGAA CTGGGTAAAT TTGTCGAGCA AAAATATCGG
CAATTACTCG CTAATGATTT AAAACCTAAC GGCCAAATTG GTCGCACGAT AGCGGGAGGT
TATCGCTAA
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| Protein sequence | MANKSLGTLT LNMVAETGSF VEGMSKAERA SLKAENATAR MVKQIDPLIS QLSSLEVQQR
RLAELNDKGI FNGREFEILS ERLEQTKNAT YEANSAFADQ YKQINRVVSQ LDPAIAKYAE
LDNMQARLSE GVKVGVISGE DFTKYNAQLA TMREEYDRAY TASGRLQSAQ QKEQAELQGL
LRQLDPVTAK LAELESQNTK LSAAFAAGNI DKGQYDSAIV KLNQMRSAID GTTEAQMKAE
AATKQQQSEL QRLQQRLDPV IFEIRELDKA QELLRSSSAK GLINSSEYDL YSKRLAKMRS
EVGNTSIEFD KNGLSAKQMS FALRGIPAQF TDIAVSLQGG QNPLTVFLQQ GGQLKDMFGG
VGPAAKAMGG YILGLINPFT IAASAAGVMS LAYYQGSVEA DRLRNALILT GNSAGSTSSE
LMESAKRIDA ISGTQRQAAA ALAEVANTGK FTASQIELVG RAAVQMDNVT GKAVADTVAE
FAKLADDPVK AAEELNKKYH FLTASVYEQI VALKEAGKST EASELAFRAY GDAISQRTKE
ITSNLGNIEK AWKAIKSGAS ESWDQLLNIG RIDTLKERLA DNAKEINKLV SLGKGSGFES
TRRENLLAKL QAEGNELVKQ IQLEDKLAEE QAKRAKINQD SIEAQRAIAK VTDETLTNEQ
KRTKAIKEYN DNIEKVRKGN ANSALLDPEK IKRDLASIEE KFKDTAKKTK AFADDAATTY
LMRLRETQAG LQGQLESNIK LTQSQKELVQ FEQQIADIKN KDVLTAQQKS LLAEQSVIRA
QLEKNVGLDD EIKKRNESIR LQSYSANLTA NLAAEQQRNA DKLATFGLGD KAQQRLGDRQ
GIERDVERAQ GKALSDNLAG KTTDDEYQQQ LSMLKDNLTE RLAVQDEYYS ALDAKQSDWT
NGARSSMQNY IDAAADMAGQ TKTLMDGAFG GMTDALTDFV TTGKADFAGL AKSILADIAK
IAMQKAIAGL VGNMFGGFAD GGAVGDTGFS SGGFTGFGGK YEPAGIVHKG EVVWSQRDVA
AAGGVATVEA MRKGNKGYAN GGIVGGAAYN GVPASATAGA GVVHVEVNID QSGNATTKAD
TPALNQFGSE LGKFVEQKYR QLLANDLKPN GQIGRTIAGG YR
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