| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Swoo_2215 |
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| Symbol | |
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| ID | 6116485 |
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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 woodyi ATCC 51908 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010506 |
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| Strand | + |
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| Start bp | 2719763 |
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| End bp | 2723095 |
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| Gene Length | 3333 bp |
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| Protein Length | 1110 aa |
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| Translation table | 11 |
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| GC content | 43% |
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| IMG OID | 641633723 |
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| Product | non-specific serine/threonine protein kinase |
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| Protein accession | YP_001760592 |
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| Protein GI | 170726566 |
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| COG category | [K] Transcription
[L] Replication, recombination and repair |
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| COG ID | [COG0553] Superfamily II DNA/RNA helicases, SNF2 family |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 9 |
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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 | 6 |
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| Fosmid unclonability p-value | 0.00386976 |
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| Fosmid Hitchhiker | Yes |
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| Fosmid clonability | hitchhiker |
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Sequence |
| Gene sequence | ATGGTGCAAG AGTGCTATAG TTCTCGCTTT GGGTTTAATT CTTTTGTCGC TCTAGGGCGA
CATAAGATAG GTAAACAACG AGAACGAAAG GCAAACTCAT TGGTCAAGCT AGAAGCGTAT
TTTAGTCAAG CAACAATCTT TAATGGCATG CAGCTTCTGT TAGCTGAGCA GCTAGTCCAT
GTTGATCACT CCTCATGGCT ACTGTCCGGC GAGTTTAAAT TTGACAATAA GCATGACGGG
CTAGAAAGTG GCAAGTGTAT TGAGTTGATT GATACTCAGC TTGATTGGAC TGCTGGCCCG
ATAGTTGGTT CTGAACATAG TCGCTGCTCA TGTGTGCAAC AAACTCCCTG TGAACATCTT
GCGGCATTAG CCATTGACTA TATCGCTAAA CAAGATGCGA TAACGCCCTA CCCAAGCGAG
AAAAAGCGTG CTGATACTGC GATTCGTTTG CTTAAAACTG AGTTTAACCA GCGCTTCGAT
CCCTATCCTA ATATGGCGCG TCACCGTATT GTTTACCTGC TCTCCTTAAG CAATGAGGGC
GTTTTACATC TTACAGCCCA TAAAGGTTAT ATCAGTAAGA AAGGCAGATA CTCCATCAAA
CGGGATATGG GCTTTGCGTT TTCAGCTAAA TCTGCACAAC CTAAATATAT CACCCAAGCC
GATCTTTACC TGTTGGCAGA GCTTAAAGCT TTATCTTTAA CTTTGGATGA ACAGCAAAAA
GCAGCTCAAC AGGAGGCTAT TTCACTTGAT ATCCAAGCGC TTAGCACGCT GACATTCATT
AAAACATTAT GTGCGACTCA GCGCTGCTTT TGGATGGATT GTGAGCAGGT TCCTTTAACA
ATAGAGACTC AATATCCGTA CGATTTTTTT GATCCCGACG CCTTTATCGC AATTGATGAG
CGAGCCTACC TAGATCTAGC AAGCATGAGC TTAGTTTTAC TCCCTACAGA GGGGCTTGAT
AAGCCTGTAG TTAATAACGA TATTGACTGG TCACCTAGCT TGACGATTCG TCGACATCAA
ATTGAATTTT CATGGTCTGA GCAGGCTGAG CTTGCAGTAG AGGTCGCAAA TTTCTCGCTA
GTCCACGCAG AGCAGAGCAT CAGTTTAGAT GAGATATTTT CCTGCGCCTA TGATGCTCCT
GATGTGATGA AGCAAACGGC TGAGCTTAAT GTGCAACTTG CTGACTTTCC GCTACTAACC
TCAGCTTTTG AATCACCTGT ATGGGATTTG TTTCCTATTG GTACCCGGAT ATTACCTCCA
CAGTTAAGTG AGCAGATGAT CTTACTTCGC CGGTTATCTC TTGCGGGATG GCAGATAAAT
TATGGGCTTA AAAATCGCTT TGAATTGATA CATGCAGAGC GTTGGTATGG GGATGTACAG
AGTAGGGGAG ATGATAAAAG TTGGTTTGAT TTAGAGATAG GCGTCGAGGT TAACGGTGAG
AAAGTGAATC TGTTGCCCTA CTTAGTTAAA GCTATTCGTC AGGGGGGAGT TGAAGAGCTT
GATAGTCAAT CCCTATTCTT GATGGATCTT GATAGTGGGG AGCGCCTTGC ATTACCTGCA
GCAAGGATTA AAAAAATCTT AACCGTATTG GTCGAGCTAT ATGATAAAAA GCCTCTATCT
CTTGATGATA CGGTAAGTTT GCCATTGCAT CAGTTAACTA GAGTAGCAGA GTTATCCTCC
ATTAAAGTGG GTGGTGAGTT TGAGTGGTTA GGTAGTGACT CACTCAGAAA GAAAGCTGAA
AAAATCTATG CCTATCTGGA CAAGAGTGGC ACTAAAGCTC ATTTTACTAA GCCACCTAAA
GGGCTTAATG CCCAGCTGAG AGAGTATCAG CAAGAGGGAG TTAATTGGCT ACAGTTTCTG
ATGAAACAAG GCTTTTCTGG TATTTTAGCC GATGATATGG GGCTAGGAAA AACAATTCAA
ACTTTGGCCA GTATACTGAT TGAAAAAGAG TCAGGTCGAT TAACTAAGCC TTGTTTTATC
GTAGCGCCAA CCAGTTTACT CGCCAACTGG CTGCATGAAG CTCAGAGCTT TGTACCAGAT
TTAGCCGTGC TTTTATGGTC AGGGACCAAG CGGCATAAAA ACGCTGAGCA GATAGATCAA
GCCGATATTG TGATCACGAG TTACGGCACT CTTCAGCAAG ATGCACTATT TTGGGCCGAT
ACGCACTTTC ATCTTGTGGT ACTGGATGAG GCTCAGAATA TTAAAAATGC CCGCAGCCGC
ATAGCCAGAG TCGTGGGCAG TTTGTCATCG TCCCATAAAC TGTGTTTGAC GGGGACTCCA
CTTGAAAACC ATTTAGGTGA GCTATGGTCT CAGTTTAACT TTTTAATGCC AGGTTTTTTG
GGCAGTGCAG CTCAGTTTAA TCGCTTATAT CAAACGCCAA TAGAGAAGGA GGAAGATGAA
GAGGTTCGTG GCGCTTTAGT ACGGAGAATT AACCCCTTCC TATTAAGAAG AATGAAAGCG
GATGTTGCAA AAGAACTTCC TGAGAAGACA GTTATTAATG AGTATATTAG CTTGACTCAG
GTACAGGGGG ATCTCTATGA AACGATCCGA TTAACCATGT CTGAGGAGCT AAGAAAGGCT
GTTTCACTCT CAGGTATGAA GCGTAATCGT CTAGCTATCA GTAATGCTTT ACTGAAGTTA
CGTCAGGTAT GTTGTCATCC CGATCTGCTT AAGATAACCC AAATTGCAGA CAGAACTGAT
AAAGAGGGGC AAAGAGTTGA GCATTTAGTG GCTAATTCTT CGATGAATGT AAGGCAGAAG
CTTGTCGCTA AGATGGAGAA CCAATCGCCT AATAGCACAG GTGTGACACA CTCTGGTAAG
CTAAATTGGC TTGCAGATAA ACTTCCTGGC ATGCTTGAAG ATGGAAGACG TATACTTATC
TTCTCCTCCT TTACCAGTAT GTTAACTTTA ATCTCCGAGC TACTTGAGAG TTTAAGTATT
CCCCATGTTG AACTTACAGG TAAAAGCCGA GATCGGGCGA ATTTAGTTAA CCGCTTTCAA
AATTGTGAGG TTCCAGTTTT TCTAATTAGC CTAAAAGCAG GGGGAGCGGG ATTGAACCTG
ACTGCCGCCG ACGTGGTTAT TCATACCGAT CCTTGGTGGA ACCCTGCCGC AGAGCAACAA
GCAAGCGATA GAGCTTACCG AATTGGGCAG GATAAATCTG TGTTTGTGTA TAAGCTTATC
TGTAAAGATA CGGTTGAAGA GCGGATTCAG AGGTTGCAAG AGAGCAAGTA TAATCTGGCT
CAAAGTATCT ATGACAGTGA AACACAGCAT CTAACAGAGA TGACAGGGGA TGATTGGCTT
GAGCTGTTAA AGCCTTTAGC CATTGATGAA TAA
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| Protein sequence | MVQECYSSRF GFNSFVALGR HKIGKQRERK ANSLVKLEAY FSQATIFNGM QLLLAEQLVH
VDHSSWLLSG EFKFDNKHDG LESGKCIELI DTQLDWTAGP IVGSEHSRCS CVQQTPCEHL
AALAIDYIAK QDAITPYPSE KKRADTAIRL LKTEFNQRFD PYPNMARHRI VYLLSLSNEG
VLHLTAHKGY ISKKGRYSIK RDMGFAFSAK SAQPKYITQA DLYLLAELKA LSLTLDEQQK
AAQQEAISLD IQALSTLTFI KTLCATQRCF WMDCEQVPLT IETQYPYDFF DPDAFIAIDE
RAYLDLASMS LVLLPTEGLD KPVVNNDIDW SPSLTIRRHQ IEFSWSEQAE LAVEVANFSL
VHAEQSISLD EIFSCAYDAP DVMKQTAELN VQLADFPLLT SAFESPVWDL FPIGTRILPP
QLSEQMILLR RLSLAGWQIN YGLKNRFELI HAERWYGDVQ SRGDDKSWFD LEIGVEVNGE
KVNLLPYLVK AIRQGGVEEL DSQSLFLMDL DSGERLALPA ARIKKILTVL VELYDKKPLS
LDDTVSLPLH QLTRVAELSS IKVGGEFEWL GSDSLRKKAE KIYAYLDKSG TKAHFTKPPK
GLNAQLREYQ QEGVNWLQFL MKQGFSGILA DDMGLGKTIQ TLASILIEKE SGRLTKPCFI
VAPTSLLANW LHEAQSFVPD LAVLLWSGTK RHKNAEQIDQ ADIVITSYGT LQQDALFWAD
THFHLVVLDE AQNIKNARSR IARVVGSLSS SHKLCLTGTP LENHLGELWS QFNFLMPGFL
GSAAQFNRLY QTPIEKEEDE EVRGALVRRI NPFLLRRMKA DVAKELPEKT VINEYISLTQ
VQGDLYETIR LTMSEELRKA VSLSGMKRNR LAISNALLKL RQVCCHPDLL KITQIADRTD
KEGQRVEHLV ANSSMNVRQK LVAKMENQSP NSTGVTHSGK LNWLADKLPG MLEDGRRILI
FSSFTSMLTL ISELLESLSI PHVELTGKSR DRANLVNRFQ NCEVPVFLIS LKAGGAGLNL
TAADVVIHTD PWWNPAAEQQ ASDRAYRIGQ DKSVFVYKLI CKDTVEERIQ RLQESKYNLA
QSIYDSETQH LTEMTGDDWL ELLKPLAIDE
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