Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Fjoh_0704 |
Symbol | ileS |
ID | 5090738 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Flavobacterium johnsoniae UW101 |
Kingdom | Bacteria |
Replicon accession | NC_009441 |
Strand | - |
Start bp | 772646 |
End bp | 776047 |
Gene Length | 3402 bp |
Protein Length | 1133 aa |
Translation table | 11 |
GC content | 36% |
IMG OID | 644740105 |
Product | isoleucyl-tRNA synthetase |
Protein accession | YP_001193058 |
Protein GI | 146298467 |
COG category | [J] Translation, ribosomal structure and biogenesis |
COG ID | [COG0060] Isoleucyl-tRNA synthetase |
TIGRFAM ID | [TIGR00392] isoleucyl-tRNA synthetase |
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Plasmid Coverage information |
Num covering plasmid clones | 10 |
Plasmid unclonability p-value | 0.352515 |
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 | ATGAGTACAA AATTTACTGA ATACAAAGGA CTTGACTTAC CAGCGGTAGC GTCTGAAGTT CTTGATTTTT GGAAGAAAGA AAATATATTT GAAAAGAGTG TAACAACTCG CGAAGGTGCT GAGCCTTTCG TATTTTTTGA AGGTCCGCCT TCAGCAAACG GATTACCGGG AATTCACCAC GTAATGGCAC GTGCGATTAA AGATATTTTT TGCAGATATA AAACTCAAAA AGGTTTTCAG GTTAAAAGAA AAGCCGGATG GGATACTCAC GGTTTGCCTG TAGAATTGGG TACCGAAAAA GAATTAGGAA TTACAAAAGA AGATATTGGT AAAACAATTT CTATTGAAGA ATATAACGAA GCGTGTAAAA AAACCGTTAT GCGTTATACA GACGTATGGA ATGATTTGAC CGAAAAAATG GGATATTGGG TAGATATGGA TGATCCGTAT GTGACTTATA AACCAAAATA TATGGAGTCT GTTTGGTGGC TTTTGAAACA AATCTACGAT AAAGGTTTGT TGTATAAAGG ATACACAATT CAGCCATATT CTCCAAAAGC AGGAACTGGA TTATCTTCTC ACGAAGTAAA CCAACCTGGC GCTTATAGAG ATGTAACTGA TACTACAATT GTAGCGCAAT TCAAAACTTT GCCAGAAACG CTTCCGAGCT TTTTACAAGG TTTTGGAGAT ATCCACATTT TAGCTTGGAC GACAACTCCT TGGACATTGC CATCAAATAC AGCTTTAACA GTTGGTCCAA AAATCGATTA TGTTTTAGTT AAAACATTCA ATCAATATAC TTTTGAGCCG ATTAATGTTA TTTTGGCCAA AAACTTAGTT GGAAAACAAT TCGGAAAAGG ATATTTCGTA AGTGAAGACG ACGCTGATTT TGACAATGTG AAAAATGGCG ACAAAAAACT TCCATACAAA ATCTTAACTG AGGCAAAAGG AGCAGATTTA GTAGAAATTC GTTACGAGCA ATTATTGCCT TACGTATTGC CATATCAAAA TGCTGAAAAT GCATTTAGAG TAATTTCTGG AGATTTTGTT ACAACAGAAG ATGGAACAGG AATTGTGCAT ACGGCTCCAA CTTTTGGTGC AGACGATGCT AAAGTAGCAA AAGAAGCAAA ACCAGAAGTG CCGCCAATGT TGGTTCTTGA CGAAAACGGA ACAGCAGTTC CTTTAGTTGA TTTACAAGGA AAATTCACTT CTCATGTAGG TGATTTGGCT GGTAAATATG TTAAAAACGA ATATTACGAT GCAGGACAAG CTCCAGAGAA ATCTGTAGAT GTTGAAATTG CTATTCGTCT TAAAGAAGAA AACAAAGCAT TTAAAGTTGA AAAATACGTG CACAGTTATC CACACAGCTG GAGAACTGAT GAGCCGTTAT TATATTATCC TCTAGATTCA TGGTTCATCA AAGTAACCGA TGTAAAAGAT AGAATGTTCG ACCTGAACGA AACTATCAAT TGGAAACCTA AATCTACTGG TGAAGGACGT TTTGGAAACT GGCTTAAAAA TGCCAACGAC TGGAACTTAT CTCGTTCTAG ATATTGGGGT ATTCCTTTGC CAATTTGGAG AACAGAAGAT AAAACAGAAG AAGTTATTAT CGGTTCTGTT GAAGAATTGT ACAATGCAAT CGAAAAATCA ATCGAAGCAG GTTTTCAAAA AGAAAATCCG TTTAAAGATT TTGAAATCGG AAACATGTCT GAATCAAATT ATGATTTAAT TGATTTGCAC AAAAATGTTG TTGATGCTAT CACTTTGGTT TCAGCTTCAG GGAAGCCAAT GAAGCGCGAA AGTGATCTAA TCGACGTTTG GTTTGATTCT GGAGCAATGC CTTATGCACA ATGGCATTAT CCTTTTGAAA ACAAAGAAAA AATTGATGAT AACAAAGATT TTCCAGCAAA TTTCATTGCA GAAGGAGTAG ATCAAACACG TGGATGGTTC TATACTTTGC ATGCAATCGG AACTTTGGTT TTTGATAAAG TAGCCTATAA AAACGTAGTT TCTAATGGTT TGGTTTTAGA TAAAAATGGA ATTAAAATGT CTAAGAGTAA AGGAAATACC ATAGACCCAT TTAAAACCAT TGCAGAAAAC GGTCCAGATG CTACACGCTG GTATATGATT ATGAATGCAA ATCCGTGGGA TAACTTGAAG TTTGATCTTG AAGGAATTGC TGAGGTTAAA CGTAAATTCT TCGGAACACT TTACAATACC TATTCATTCT TCTCGTTATA TGCAAACATC GACGGATTTA AATACGAAGA AGCTGAAATT CCGTTAAACG AAAGACCAGA AATCGATCAA TGGATTATTT CTGAATTACA TTCGTTAATC AAATTTGTTG ACGAATGTTA TGAAGATTAC GAGCCAACAA AAGCGACAAG AGCAATTTCT GACTTCGTTC AGGAAAACTT AAGTAACTGG TACGTTCGTT TATGCCGTCG TCGTTTCTGG AAAGGGGAAT ATGCAAAAGA TAAAATTGCG GCTTACCAAA CGCTTTATAC TTGTTTGCTT ACGATCAGCA AATTAAGCGC TCCAGTAGCT CCATTTTTTA TGGATAAATT ATACCGTGAT TTAACAACTT CGACGGGAAG CGAGGATTTT GCTAGTGTTC ACTTGGCTGA ATTCCCGAAA TTTGTCGAAA ACTTTGTTAA TAAAACGTTG GAAAGCAAAA TGCAGAAGGC GCAAACGATC TCATCTTTGG TTTTATCACT GCGTAAAAAA GAGATGATTA AAGTTCGCCA GCCTCTGCAA AAGGTAATGA TTCCGGTACT TGACGACAAT CAGCGTGCTG AAATCGAGGC GATTTCTGAC CTTGTAAAAG CCGAAGTAAA CGTGAAAGAA ATCGAACTTT TAGATGATGC TTCAGGTATT TTAGTGAAAC AGATTAAGCC TAATTTTAAA GCTCTTGGGC CGCGTTTTGG AAAAGACATG GGCTTGATTT CTAAGGAGAT ACAAGGTTTT TCTGCAGATC AGATTAATCA ATTAGATAAG CAGGGAACGT TAGATATTGT TATTTCTGGA AATAATGTAA CTTTATCATT AGAAGACGTC GAAATAACAT CACAGGATAT CGAAGGATGG CTGGTTGCAA ATTCAAATGG AATTACAGTT GCACTTGACA TCACAATATC TGAGGAATTG AAAAATGAAG GTATCGCGAG AGAATTAGTA AACAGAATTC AGAATATCCG TAAAGATTCA GGATTTGAAG TTACTGATAA GATTAAAGTT CAAATAAAAA GAGACGGTAA TTTAGAAGAG GCCGTTCTAA AAAATGAAGA CTATATTAAG TCTGAAACAT TAACAGATGA TTTGGTTTTT GCAGACGCTT TAGAAAACGG CACAGAAATT GAGTTTGATG ATATTAAAAC AATGATATTA ATTTCAAAAT AG
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Protein sequence | MSTKFTEYKG LDLPAVASEV LDFWKKENIF EKSVTTREGA EPFVFFEGPP SANGLPGIHH VMARAIKDIF CRYKTQKGFQ VKRKAGWDTH GLPVELGTEK ELGITKEDIG KTISIEEYNE ACKKTVMRYT DVWNDLTEKM GYWVDMDDPY VTYKPKYMES VWWLLKQIYD KGLLYKGYTI QPYSPKAGTG LSSHEVNQPG AYRDVTDTTI VAQFKTLPET LPSFLQGFGD IHILAWTTTP WTLPSNTALT VGPKIDYVLV KTFNQYTFEP INVILAKNLV GKQFGKGYFV SEDDADFDNV KNGDKKLPYK ILTEAKGADL VEIRYEQLLP YVLPYQNAEN AFRVISGDFV TTEDGTGIVH TAPTFGADDA KVAKEAKPEV PPMLVLDENG TAVPLVDLQG KFTSHVGDLA GKYVKNEYYD AGQAPEKSVD VEIAIRLKEE NKAFKVEKYV HSYPHSWRTD EPLLYYPLDS WFIKVTDVKD RMFDLNETIN WKPKSTGEGR FGNWLKNAND WNLSRSRYWG IPLPIWRTED KTEEVIIGSV EELYNAIEKS IEAGFQKENP FKDFEIGNMS ESNYDLIDLH KNVVDAITLV SASGKPMKRE SDLIDVWFDS GAMPYAQWHY PFENKEKIDD NKDFPANFIA EGVDQTRGWF YTLHAIGTLV FDKVAYKNVV SNGLVLDKNG IKMSKSKGNT IDPFKTIAEN GPDATRWYMI MNANPWDNLK FDLEGIAEVK RKFFGTLYNT YSFFSLYANI DGFKYEEAEI PLNERPEIDQ WIISELHSLI KFVDECYEDY EPTKATRAIS DFVQENLSNW YVRLCRRRFW KGEYAKDKIA AYQTLYTCLL TISKLSAPVA PFFMDKLYRD LTTSTGSEDF ASVHLAEFPK FVENFVNKTL ESKMQKAQTI SSLVLSLRKK EMIKVRQPLQ KVMIPVLDDN QRAEIEAISD LVKAEVNVKE IELLDDASGI LVKQIKPNFK ALGPRFGKDM GLISKEIQGF SADQINQLDK QGTLDIVISG NNVTLSLEDV EITSQDIEGW LVANSNGITV ALDITISEEL KNEGIARELV NRIQNIRKDS GFEVTDKIKV QIKRDGNLEE AVLKNEDYIK SETLTDDLVF ADALENGTEI EFDDIKTMIL ISK
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