Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Fjoh_2102 |
Symbol | |
ID | 5093865 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Flavobacterium johnsoniae UW101 |
Kingdom | Bacteria |
Replicon accession | NC_009441 |
Strand | + |
Start bp | 2534015 |
End bp | 2538460 |
Gene Length | 4446 bp |
Protein Length | 1481 aa |
Translation table | 11 |
GC content | 32% |
IMG OID | 644741526 |
Product | amino acid adenylation domain-containing protein |
Protein accession | YP_001194451 |
Protein GI | 146299860 |
COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
COG ID | [COG1020] Non-ribosomal peptide synthetase modules and related proteins |
TIGRFAM ID | [TIGR01733] amino acid adenylation domain |
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Plasmid Coverage information |
Num covering plasmid clones | 9 |
Plasmid unclonability p-value | 0.73819 |
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 | ATGAAACTTA CACTTCCTCA ACAAGATGTT TATTTTGAGC AGCTTATGTA TCCTGATGAT CCTATTTATA ACATAGGGGC AAAGATTTCC ATTGATGGAG ATGTTTCCTA TGAAATATTA AATCAGGCAT ACATCGAACT AATTAACCAG CATGATTCTT ACAGAAGCAT TATACAAAAA TCTGGAGACC AGGTAACAAT TCAAACTGTT GAAAATCATG ATTCGGTTTT AGAATATCTG GATTTTTCCT GTGATGAAAA TCCAGATTTA GAAGCAAACC AATTTATGCA GGAAAAATTT CAGGTATCTG TTAAATTAGA TACCAAAGAA TTATTGCACA AATTTATTTT GATAAAAGTA AACGAAAAGC AGCACTATTT ATTTTCTGTA TATCATCATA TTATTACAGA TGGATGGGGA ACATCTCTAA TGTTTCAAAG ATTAGTGAAA AATTACAATG AAATTTCACT TTCAGGAAAT GTAACCTCTG TTTATCCTTA CTCTTATCAA GATTTTATTT TAGATGATGA AGCCTATTTG TTATCTGAAG ATTATGAAAA TGACAAAAAC TATTGGAAAA ACAGATTTAA GCAGCTTCCG GAACAATTAC TCGAAGTAAA AGAAAATACT GGTAAACCTA ATCAAAGCAA AAGAAAAGAA ATTATTATAA AACGTAACGT TTATAATCAA TTAGAGCAGA GAAGTAAAGA CTTAGGAGCG ACAACTTTTC ATGTTATTCT TGGTGTTTTA TACCTCTATT TTGGAAAAAA ACATCAAAAT ACAGATTTTA CAATTGGGCT TCCAGTCCTG AACAGAGGAA AATCGATATT CAAAAAAACC GTTGGATTAT TTATGGGAGT GTCCCCGTTA AGAGTTCAAT TTGGGTTGGA AGATAATTTT GAAGAACTTA TTAAAAATAT CAAACAACAG CTTCGTCAGG ATTATCGTCA TCAAAGATTT CCTTTAGGAA GATTAGTAAA AGAGCTGGGT TTATTTCAGG AAAATGAAAG GCTTTTTAAC ATTACATTGT CTTATGAAAA ACAAAATTAT GCAGATCACT TTGTTAATAC CATTACAAAG GTAATCCCGC TTTCTCATCA TTCTGAGCGA GTAGCTCTGG CAATCTATAT TCGCGAGTTT GATGCATTAG AAGATGTAAA GATAGATTTT GATTACAATG TCAATTATTT TAGTCAGGAA GATATTTCCC GAGTTGGATC TCATTTTGAA ACATTACTTT CTGAAATAAT AAAAAGTACA GAAAAACCGC TTTCAGAATA TGAATATATT ACGGCAATTG AGAAAAAACA ATTACTGGAA GAATTCAATG CAACAGAATT TAATTGTGAT TCAGAAACAA CATTGCTGGA TTCTTTTAAA AAGCAGGCAG CAAAAACTCC AAATAAAATT GCATTAACAG ATCAGGAAAA AACATTTACA TACCAGGAGC TGGATTTGTT TTCGGATAGG GTTGCATTCT TTTTGCAAAA AAAGATTAAA AAAGATGAGC CGGTACCTGT TGCAGTTCTT ATGAATCGTT CTGCAGATCT CGTGGCGACT TTACTAGGTG TTTTGAAATC AGGGAATGCT TATATTCCTT TAGATCCTTC ATTTCCAAAA GATCGTTTAG AATATATTAT TGATCACAGC GGTGTAGAAC AGGTAATTTC TACAGAAATT TTAAATCAAA GTATAGGTTT AAACAGGCAG ATTATAGACA TTGAATTATT GCCAGATGAG GTTTTAGATC AAAAACAAAA TGCATTAAAA ACTGTGCCTT CTGCAAATAC GGCGTATATT ATATACACTT CAGGATCAAC AGGAAATCCT AAAGGAGTTG CAATTGGTCA CAAAGCCCTG CTTAATTTTT TAATCAGCAT ACAGCAGCAG CCAAAAATTG AAGAACAAGA TTATTTGTTT TCAGTAACAA CACAGTCTTT TGATATTTCG ATTCTTGAAT TTTTTGCTCC ATTAATCAGC GGTGCTGCGC TTTATATTGC AAGTGAAGAA CTTTTAGATG ATCCTTTTGC AGTTATAACA GCTTTAGAAG ACTTAAAACC AACAATAATT CAGGCAACAC CTAGTTTCTT TCAAATGTTA TATAATGCCG GATGGAAAGG AAATAAATCG CTGAAAATTT TATGCGGAGG AGATTTGCTA AGCGAAACAT TGTCTGAAAA ATTAAGACAG ACCAACGGAG CATTATGGAA TATGTACGGA CCTACAGAAA CAACAATTTG GTCAAGCTGT AAAAATATTA TGCAGGCCAA TGAAGCTTCA AATATTGGTA AACCTATCAA TAATACCCAG CTATATATTC TTGATTCATA CATGAAGCTG CTTCCTATCG GATCTGCCGG AGCTATTTAT ATTGGCGGAG ATGGTCTGGC ACAGGGATAC TTTAAAAATG AAGAATTGAC AAATGAAAAA TTCGTTCAAA GTCCGTTTGA CCAAAATCAA AAAATATACA ATACAGGGGA TCTGGGACGA TGGAACGAAA ATGGAGAAAT AGAATTCATG GGGCGCAATG ATAATCAGGT AAAAATAAGA GGTTATCGAA TTGAACTTGG TGAAATTGAA GCCAGATTAA ATCAGATAAA AAATGTAAAA GCATCTGTTG TTGTTGCCCA AAAATCCAAA GAACAGGAAT CTTTACTTAT TGCTTATCTA ATTTTTGAAA ATGAAGAATT TAACCCTTCG TTTATTGTCA ATATTTTAAG AGAAGAATTA CCGGAATACA TGATTCCGCA TGCCATAATG CAGGTAGATG AATTTCCGCT GACTCCAAAT AAAAAAATAG ACAGAAAAGA GCTTTCATTG CGCAAAATAA CAATTGCCAA ATCTGAAGTT TCAAACGAAA TGCCTGTAAC AGCAATTGAG AAAAGCCTTT ACAAATTCTA TACAGAAGTA TTAGAAATAA AAGCAGAAAT TAGTATTACA GATAATTTCT TTGCACTGGG AGGACATTCC TTAAATGCAG TAAAACTAAT AAATCTAATT AATGAACAAC TGCATTATAG AATTACCCTA AAAGATGTGT TTGATTATCC TACAGTTCAA AAACTTGCTA AATATCTTGA TAATAAAGAA GTTGTAAAAG ATGTAAATAT CCAGACTAGT AATGAAGAGC CCTATTATAC AATAACTCCC TCTCAATACA ATATTTGGCT GGCATCGCAG CAACAAGAAA AATCGACAGC TTACAACATG TCGGCAGTAT TTAAAATTCA AGGAGAACTG AATAAAGCCC TATTCGATCA GATATTTCAT GAAATCCAAA AGAAACATGA AGTATTGAGA ACAAATTTTA TTGCGATAGG AGGGATTCCG CACCAGATAA TTACAAGTAA AAAAGAAGCG AATATCTTGA TTAATGAATT CTTTTATGAT GAAAAACACA TAACCGATGC GCTGAATGAG TATATAAATA CAGAATTTGA CCTGGAGAAA GAACCGCTTT TTAGAGTTTC ATTTTTTCAC GGAAGTGACG GGCAGTCTTA CCTTGTTTTT TCGACACATC ATATTATAAT GGATGGCTGG TCTTTGGAGA TATTAATTGA AGATTTTGTC AGCAAATACA AAGCCAGAGA AAAACAAGTT ATACAACAAG AATCAGAATT AAAATTTCAG TTTAAAGATT ATGCAGTTTG GCATGAAAAA GAGCTGAAAA GTAATCACGA AAAAAACTTT GATTTCTGGA AAAACTATCT CAAAGGATAT TCATGGAATA AAAATGTGCC TTTTGATTAT GAAAATATCG AAGAAAAAGA TTTAAAAGGC AGCCATGATT TTAGGTATGA ATCAGTTGAA AATGCACAAT TAAAAAGTTT TGTTCATCAG TATAATGTAT CACTTCACAC TTTTTTGGTT AATGCATTTA ATGTCTTGAT TTACAAAATG TATGAGAAAG ATGATTTTTG TGTAGGAACA GTTAATTCCG GAAGAACAAA TTCTGAATTG CACAATCAAT TAGGAATGTA TGTAAAAACA TTACCATTAA GAACACAAAT AAATTCAAAC CAAACTGTTC TCGAAATCAT GAATCAAATG CATCAAAATT TATTATTGAT TGATGAGCAT CAGGATATAC CAGCAGTTAT ACAGTCAAAA TTAAGGTTTG ATACTTTGTT AGTACTCCAA AATCCATCTT TTGATTATAA TAACATTTAC ATAAATAAAG ACCTTAATCT GCAGATAGCG CCAATAAAAG AAGCCTACAG CCGATTACCA TTGTTGATCA CTTTTACTGT AAACAGCAAA AAATTGACTG GAAATATAAG TTACTCGGCC TCAAGTTACA GCGCTGAAAC AATTGAATTA ATCACATTAA AATACGAAAA AATAATAGCT GAAATTATTA AAAACCCTAA CGTTCCTGTA AGCTCATTAG ATATCGAATT ATCTTTTGAA AAAGAAAGGA AAATTGAGAT TGGTTTAAAT TTCTAA
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Protein sequence | MKLTLPQQDV YFEQLMYPDD PIYNIGAKIS IDGDVSYEIL NQAYIELINQ HDSYRSIIQK SGDQVTIQTV ENHDSVLEYL DFSCDENPDL EANQFMQEKF QVSVKLDTKE LLHKFILIKV NEKQHYLFSV YHHIITDGWG TSLMFQRLVK NYNEISLSGN VTSVYPYSYQ DFILDDEAYL LSEDYENDKN YWKNRFKQLP EQLLEVKENT GKPNQSKRKE IIIKRNVYNQ LEQRSKDLGA TTFHVILGVL YLYFGKKHQN TDFTIGLPVL NRGKSIFKKT VGLFMGVSPL RVQFGLEDNF EELIKNIKQQ LRQDYRHQRF PLGRLVKELG LFQENERLFN ITLSYEKQNY ADHFVNTITK VIPLSHHSER VALAIYIREF DALEDVKIDF DYNVNYFSQE DISRVGSHFE TLLSEIIKST EKPLSEYEYI TAIEKKQLLE EFNATEFNCD SETTLLDSFK KQAAKTPNKI ALTDQEKTFT YQELDLFSDR VAFFLQKKIK KDEPVPVAVL MNRSADLVAT LLGVLKSGNA YIPLDPSFPK DRLEYIIDHS GVEQVISTEI LNQSIGLNRQ IIDIELLPDE VLDQKQNALK TVPSANTAYI IYTSGSTGNP KGVAIGHKAL LNFLISIQQQ PKIEEQDYLF SVTTQSFDIS ILEFFAPLIS GAALYIASEE LLDDPFAVIT ALEDLKPTII QATPSFFQML YNAGWKGNKS LKILCGGDLL SETLSEKLRQ TNGALWNMYG PTETTIWSSC KNIMQANEAS NIGKPINNTQ LYILDSYMKL LPIGSAGAIY IGGDGLAQGY FKNEELTNEK FVQSPFDQNQ KIYNTGDLGR WNENGEIEFM GRNDNQVKIR GYRIELGEIE ARLNQIKNVK ASVVVAQKSK EQESLLIAYL IFENEEFNPS FIVNILREEL PEYMIPHAIM QVDEFPLTPN KKIDRKELSL RKITIAKSEV SNEMPVTAIE KSLYKFYTEV LEIKAEISIT DNFFALGGHS LNAVKLINLI NEQLHYRITL KDVFDYPTVQ KLAKYLDNKE VVKDVNIQTS NEEPYYTITP SQYNIWLASQ QQEKSTAYNM SAVFKIQGEL NKALFDQIFH EIQKKHEVLR TNFIAIGGIP HQIITSKKEA NILINEFFYD EKHITDALNE YINTEFDLEK EPLFRVSFFH GSDGQSYLVF STHHIIMDGW SLEILIEDFV SKYKAREKQV IQQESELKFQ FKDYAVWHEK ELKSNHEKNF DFWKNYLKGY SWNKNVPFDY ENIEEKDLKG SHDFRYESVE NAQLKSFVHQ YNVSLHTFLV NAFNVLIYKM YEKDDFCVGT VNSGRTNSEL HNQLGMYVKT LPLRTQINSN QTVLEIMNQM HQNLLLIDEH QDIPAVIQSK LRFDTLLVLQ NPSFDYNNIY INKDLNLQIA PIKEAYSRLP LLITFTVNSK KLTGNISYSA SSYSAETIEL ITLKYEKIIA EIIKNPNVPV SSLDIELSFE KERKIEIGLN F
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