| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Mmwyl1_2568 |
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| Symbol | |
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| ID | 5365873 |
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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 | Marinomonas sp. MWYL1 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009654 |
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| Strand | - |
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| Start bp | 2871321 |
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| End bp | 2874572 |
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| Gene Length | 3252 bp |
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| Protein Length | 1083 aa |
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| Translation table | 11 |
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| GC content | 38% |
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| IMG OID | 640804931 |
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| Product | amino acid adenylation domain-containing protein |
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| Protein accession | YP_001341420 |
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| Protein GI | 152996585 |
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| COG category | [Q] Secondary metabolites biosynthesis, transport and catabolism |
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| COG ID | [COG1020] Non-ribosomal peptide synthetase modules and related proteins |
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| TIGRFAM ID | [TIGR01733] amino acid adenylation domain |
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Plasmid Coverage information |
| Num covering plasmid clones | 6 |
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| Plasmid unclonability p-value | 0.403624 |
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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 | 7 |
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| Fosmid unclonability p-value | 0.0000320919 |
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| Fosmid Hitchhiker | Yes |
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| Fosmid clonability | hitchhiker |
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Sequence |
| Gene sequence | ATGATAGATA CAGAATGTAA GGAAAATAAA AATGATTTTA GGTACCAGTT CCCTAAAAAT
GTGTGTGTAC ATCAGCTATT TGAGCAGCAG GTAGAAAGAA GCCCAGAAAA GACGGCTCTT
GTTTTTGGAG ATGAAGAGCT TTCATATGGT GCTCTAAACG CTTCCGCGAA TTGTTTGGCT
AGGCGCCTTC TTACTTCAGG GGTAGGTTCT GAGAACTTAG TAGGCCTTTA CGTAGATCGT
TCGTTTGAAA TGATAATTGG CCTTTTAGCC ATACTAAAAG CAGGAGCAGC GTACGTTCCA
TTGGACCCAG AATATCCTGC AGCGCGAATA GAGCAAATGT TAGAGGACTG TTTACCTAGT
AAAATATTAG TCTCTGGTTT AAATAATCAA CATTTATCAG AAGAGATAGA AACAATATCA
ATACCTGCTG TATTAGATGA ATATGCGCAG AGTTCCAATG TGAAACGAGA AGAACTAACT
AAGCCTATAA CTCAATCAAA TTTAGCCTAT GTTATTTATA CTTCAGGTTC AACTGGAAAG
CCTAAGGGAG TATTAATTGA ACATGAGGGA TTGGTTAATC TGGTTCAATA TCAAAGAGAT
GAGTTTTTGG CTGATGATAC CTGTCGCGTC CTGCAGTTTA CTTCAATCAG TTTTGATGCT
GCTGTATTTG AATGGACGTT AGCACTTTGT AATGGAGGTA CATTATTTCT AGTCTCTCGT
GATGCTACAA CAAATCCAAG AGAGCTGGAG AGAATAATAA AAGAATACGA CATAACGCAC
ACTAACTTAG TCCCTTCTGT GCTCAGGAAT ATCTCTCCAA GCTGCTTCTC CAGAACAGCT
TATGTCATAA GTGCCGGTGA GGCCCTTCCA GAAGATGTAA GGTCTAAGTT TGCTAAACAA
TGCAACTTCT ATAATGGCTA TGGCCCGACT GAAGTAACCG TGGCATCAAG TTACTGCAGA
ATAGATGATG ATAATCGATC TGTTTCTATT GGAAAGCCGC TGAGCAATAA AATAGTTTAT
GTTGTGGATG AATCAAGAAA ATTAGTTGAG TCAGGAGAAG TCGGTGAGTT ACTAATTGGA
GGCGTAGGTA TCTCAAGAGG GTATCTAGGG CGCGAAGATC TAACAAAGGA AAAGTTTATA
TCTGATCCCT TTAATGAAAG AGGAGGGCGC GTTTATTGTT CCGGTGATTT AGTTAAATGG
CTTCCGGATG GTAATCTGCA ATTTATTGGA CGAGCTGATG AGCAGGTTAA AATACGTGGA
TTCCGTATTG AATTAGGAGA AATAGAAAAA GTCATAAGAA AACAAGCAGA TGTGAAAGAT
GTAATTGTTA CTACTATTGA AGGAATAAAC GGTAGAAAAC ATCTCAAAGC TTATGTTGTG
ACTGATACTG TATTCTGTGA AGGGGGCGAA AGTCGTAGAC GAATACTGGT TGAAAACTGT
AAGGTGCAAT TGGAAAAAGT ATTGCCAGAA CATATGATTC CAGGCTTATG GAGCTTATTG
TCTGGCTGGC CTCTTCTAAT AAATGGCAAG ATCGATAGGA AAAAGCTACA AGAATTAGAA
CTGATCGATG TCAGGAAGGT AAATTATCTA GCTCCGAGTA ATGAAATTGA GCGGAGGCTG
TGTGAAATAT TCTCATCTGT TCTGAAAGTA GAGTCTGTTG GTATTAATGA CAATTTCTTT
TATCTGGGTG GAGACTCAAT AACAGCTGGT ATTATTTTAC ATGAGATAGG ACGAGAGTAT
GGAGTCGAAA TTAAACTAAA CAAGTTTTTC GAAAATCCTG AAGTTAGCGA ATTAACACTG
TTGATAAAAA ACAAATCACA AAATAATCAG TCTCCCGGAA TAGTACCAAG ACCTAACCAG
TATCGAAATA AAATAGCCCC TTCCTCATTT CAAAAACAGA TATTGTTTAT GTTTGAAATT
AACAATGATG ATAAACCATA TCATGCGAAA TCAGCTATAA ATTTTTATGG TAAGGTCGAT
TTGGAACGAC TGGATGCAAG TATAAGAAAA GTTGTAAAAA AGCATGAAAT ATACAGGACT
GGTTTTCACA ATGAAAATGA CGATTATGTT CAAAAAATAG TGCCAGAGAT TGAATTTGAT
ATACCTGTGT TTAATTTGTT GAACTTTTCT CTTGGGGAGA AACGTTTATT TGTTGAGGAT
ATTCTGAATT TAAAAAGCAT TGAAGCGTTC GATATAGAAA GAGCACCTTT AACTAGGTGG
GTGGTCTTAA AACTATCAGA AGAACTTACA TCCCTACTTT ATATCGAGCA CCATCTTGTT
CATGACGGAT GGTCGTATAA TATCTTTTTG CAAGACCTTT TTCGCGAATA TAATGATGGA
TCATTGTGTT TGCCAAGTCT GCAATACGGT GATTTTGTTT TGTCCCATGA AATGTGGATG
TATTCTGAGC AGTCAGAAGA TCAATTGAAG TTCTGGGAAG AGAACCTCAA AGATAGCCCG
CAGCAGACAA CTCTTCCTAG TGACTGGAGA AGGCAGGAAG CTGGCAGTGA AGGAAAAACA
CTGAGGATCG CGATGAATAG AAAGGCGTGG CAAAGGTTGG ATCAGCTTTC TATCGATGTT
GGTGTAACGA AATTCAATAT ACTGTTGACA GCGATGTATA TCCTGATTTT TTCTCATACA
AAAGCCAAAG ATCTATTGCT TGGAACCGGA GCTGCAAATC GAAGCTGGAA AGATTCCAAC
AATATAATTG GAATGTTCGT TAACTCCATA GTTATCAGAA ATCAACTTGA TGAGGATTGT
ACAGTCGAAG AGTTGATAAA GAAGGTTAGT CATTCATGCT TGGAAGCATT TGACAACGAT
AAGGTAGCCT TCGAAAGCGT AGTTGAGAGA ATTAACCCAT TGAGGGCTCC CAAGGTTAAC
CCTTTCTTTC AAATTATGTT GGCTTTTCAT GACTCAGTTT TTCCAGACAT AAACACTCAA
GATGCAAAGG TGAGAGTAAT CGAAGCTCTT GAGAATGGTG GTGCAAAGTT TGATATGACG
GTAGTAGTAA TTCCTAGAAA AGGACAGTAC CTTGAAAAAG ATCCTGTCCA CTTTGTCTGG
AACTACAATA CAGGATTGTA CCGAGAAAGT ACGGTTAAAG AGTATATCGA ACAATATTTC
TCAATTTTGC AGAATCTGGT GGAAATGAGA AGCGAAAGAG TGATCGATCT GCAACGTAAA
GAAATCGATA TCAACAAGAT TAAGGAAAGT TTCGAATATT TACCCGAGTC ATTTTTAGAA
TGGTGTATGT AA
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| Protein sequence | MIDTECKENK NDFRYQFPKN VCVHQLFEQQ VERSPEKTAL VFGDEELSYG ALNASANCLA
RRLLTSGVGS ENLVGLYVDR SFEMIIGLLA ILKAGAAYVP LDPEYPAARI EQMLEDCLPS
KILVSGLNNQ HLSEEIETIS IPAVLDEYAQ SSNVKREELT KPITQSNLAY VIYTSGSTGK
PKGVLIEHEG LVNLVQYQRD EFLADDTCRV LQFTSISFDA AVFEWTLALC NGGTLFLVSR
DATTNPRELE RIIKEYDITH TNLVPSVLRN ISPSCFSRTA YVISAGEALP EDVRSKFAKQ
CNFYNGYGPT EVTVASSYCR IDDDNRSVSI GKPLSNKIVY VVDESRKLVE SGEVGELLIG
GVGISRGYLG REDLTKEKFI SDPFNERGGR VYCSGDLVKW LPDGNLQFIG RADEQVKIRG
FRIELGEIEK VIRKQADVKD VIVTTIEGIN GRKHLKAYVV TDTVFCEGGE SRRRILVENC
KVQLEKVLPE HMIPGLWSLL SGWPLLINGK IDRKKLQELE LIDVRKVNYL APSNEIERRL
CEIFSSVLKV ESVGINDNFF YLGGDSITAG IILHEIGREY GVEIKLNKFF ENPEVSELTL
LIKNKSQNNQ SPGIVPRPNQ YRNKIAPSSF QKQILFMFEI NNDDKPYHAK SAINFYGKVD
LERLDASIRK VVKKHEIYRT GFHNENDDYV QKIVPEIEFD IPVFNLLNFS LGEKRLFVED
ILNLKSIEAF DIERAPLTRW VVLKLSEELT SLLYIEHHLV HDGWSYNIFL QDLFREYNDG
SLCLPSLQYG DFVLSHEMWM YSEQSEDQLK FWEENLKDSP QQTTLPSDWR RQEAGSEGKT
LRIAMNRKAW QRLDQLSIDV GVTKFNILLT AMYILIFSHT KAKDLLLGTG AANRSWKDSN
NIIGMFVNSI VIRNQLDEDC TVEELIKKVS HSCLEAFDND KVAFESVVER INPLRAPKVN
PFFQIMLAFH DSVFPDINTQ DAKVRVIEAL ENGGAKFDMT VVVIPRKGQY LEKDPVHFVW
NYNTGLYRES TVKEYIEQYF SILQNLVEMR SERVIDLQRK EIDINKIKES FEYLPESFLE
WCM
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