| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Cyan8802_1865 |
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| Symbol | |
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| ID | 8391180 |
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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 | Cyanothece sp. PCC 8802 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013161 |
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| Strand | + |
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| Start bp | 1898874 |
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| End bp | 1903286 |
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| Gene Length | 4413 bp |
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| Protein Length | 1470 aa |
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| Translation table | 11 |
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| GC content | 47% |
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| IMG OID | 644979851 |
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| Product | amino acid adenylation domain protein |
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| Protein accession | YP_003137597 |
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| Protein GI | 257059709 |
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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 | 8 |
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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 | 1 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGTTTCAAG ACAGGTTGAG AAACAAGGAT ATTGCTGACT GGCGAACTGA GTTAGCACAG
AACATAGAAC AATCAGGAAA TTGCGGCGAT CGCCTATTGT CGAATCCTTC TAGTATTAGG
GTAGGTGTTG AAAAAATCAT CATACCAGCC CCATTGTCCC AGGAATTGCG TTACTTAGCC
GAGGCTGAAA ACGTAGACTT AGGCATTATT TTTTTGGGGA TCTTTCAAGT ACTCTTGCAT
CGGCATACCA GTGATGATGA AGTACCTGTA GGTGTCATGA TTCCTGTTGA GGATAAAGAG
GGATCAACTT CTAGGGGAGA CTTGGTAAAA CCGCTTGTTT TTCGGTCAAA ATTCTCGCCA
AAGCTCACCC TTAGCCAGCT TTGGCAGCAA ATTTTACATA ATCACTCGCA TTTTCTGCAA
CAGGCAACCT CGATCCAAGA CTGTTACGAA GGGAAGCAAA GCAAGGAAGA AGAAACCCCC
CTGAATTACC CCAACCCCTT GCGAGCGGCA TTCTCGATGG AAGAAATGCC GCTAATTAAG
CCAAGCTTTT CTGACTTAGT GTTAACTCAG GTTACCCTCA ACGAACCGAT TTTACCTTGC
GATCTTGTCC TGAGTGTTAG GACTGAGGGG GAAGAAATTA CCCTCAAGCT TCTCTATGAT
AGCAACCTCT TTTCTGCCGA CTTTGCCGAA CGGATATCAC GACATTTACT CAACGCTTTA
AACGCGACTG TTGAAAAACC GAACTGCTTA GTAGAAAAGT TACCCCTGAT GGATCAAGAA
GAATACCAAC AACTAATACT AGAGTGGAGT GGGACTGATG CAGACTTTCC GCCAGAAATC
TGTCTTCACC AGCTTTTTGA AGCACAAGTT AAGCGAACCC CCGACGCTTG TGCGGTCATC
CATAACCAAG AACAGATATC CTACCAAGCA CTGGATCAAC GAGCCAATCA GTTAGCCAGA
TATCTACAAC AATTTGAGGT TAAACCAGAT ACCAAGGTAG CTCTCTACTT AGATCCGTCC
ATTGAATTAC TCATAACCAT CTTGGCTATT TGGAAAGCCG GGGCAGCCTA TGTTCCGATT
TCTCCGTCAA TGCCAAGGGA ACGGGTGCAT TTTATGCTCT GTGATATCCA AGCTCCAGTC
TTGATCACCA AAGAACCCTT TATCAACAAT GATCTAGCAT TTCCTTGTCA GGTGATCCGA
CTCGATGCCG ATGCTGCCCA GATTGACGGT CAGCCAAACA CTCCGCCCCT CCATCAAGCA
ACGCCAGACA ATCTAGCTTA TGTTATTTAC ACCTCTGGGT CAACGGGGGA ACCGAAAGGC
GTAATGGTTC CCCATCGAGG GATTGCTAAT ACCCTATTGA GGCGACAAGA GGCTTTTCCC
TTCCATCAGA CAGATCGACT GTTGCTCACC TTCTCCTTTG TCTTTGATGC CTCAATCTTC
CAACTTTTCC AACCCCTACT ATCGGGAGCT TGTTTGGTGA TTCCTGAACG GGAACATGGG
GGTGATCCCA TGCGCATCAT CAACGCTATC CGTCGTTATC AAATTACCGT ACTGGGGTTA
AATCCTTCCT TATTGGCTCT GTTAGTCAAA GAGCAAGGGT TTGAGCAATG TGATTCTGTG
CGAATGATGT TTTGTGGTGG GGAATCGGTA TCTGAGAGCC TTCTAGAGAA AATCAACGAG
GTTACAGGCA TTAACGTCCA TAATATGTAC GGACCCACAG AAGCCTCCAT GGAAGCTACC
TATTGGACCT ATGAACCCCA AATGCGAGTT TCTATTGGAC GACCCATCAA GAATACAAGA
GCTTATGTTC TTGATGAGCA ATTACAACCT ACACCCATTG GAGTCCCCGG AGAATTATAC
CTTGGAGGTG TAGGATTGGC TTGGGGCTAC TTAAATCAAC CCCAACTGAC CGCAGAAAAA
TTTTTACCCG ATCCCTTTAG TTCCGTACCC AGTCGGCGAA TGTATCGAAC AGGGGATAGG
TGTCGCTGGT TGCCTAACGG GTATCTTGAG TATTTAGGTC GCCAAGATGA GCAGGTGAAG
CTGAACGGCT ATCGCATCGA ACTCCAAGAA ATAGAAGCTT GTCTGCAAAA GAATACAACG
GTGCGAGAAA ATGTCGTTCT CCTGCGCGAA GATCAACCAG GAGATAAGCG ACTGGTTGGT
TATGTAGTCC CCAAGAACAT TGAGCAAAGT AACCCCGAAG AGTTACGAAG TTACCTGCGG
AGTCATCTTC CCACCTATAT GATTCCGTCT ACCTTTGTTT TTTTGGAATC CTTGCCTCGC
ACTGCGGGGG GCAAGGTGAA CCGCCGAGCG CTAAAAGCTC ATCCCCTGAC CCCCTCTTCA
CGAAGGATTG CTGATTGGTC AGAGCAACCG TTAGAAGCTT TTCTGGCGGG GTTGTGGCAG
GAAGTCTTAG GACTTGATGG CATTGGGGAA GGGGAAAATT TCTTTGAGTT AGGAGGTAAT
TCTCTAAGGG CTGCTATTTT AGCCCATAAG CTTGAGGAAA CCTTGAATGA GTTTGTTTAT
CCGATCGTTT TGTACGATGC TCCAACTCTC GAAAAACTTG CCCACTATTT ACGCCTCAAT
TATCCTCAGT CAGTGGTTCG CTTGTTTGGA CAAGAGGCCT TGAAGGGCGT AGAATCTCCT
CGTAGCAGTG CCATTACTGA AGCGAGTATC ACTACCCTTA GAGAATTAAT CCGCCCACTT
CCTACACGGG AGTCTATCCC CGATAGTCCG AAAAATCCGG AGGCAATCTT TATTCTGTCT
CCCCCTCGTT CGGGTTCAAC CCTGTTGCGG ATTATGTTGG GCGGCCATCC GGCACTGTTT
TCTCCACCAG AATTGCAGTT ACTCAACTAC AACACCCTAG GGGAACGAAA AGCGGCCTTA
TCTTCTGAAC GGGATAATTT TTGGCTACAG GGGACGATTC AAGCCCTGAT GCAAATTCAG
GGGTGGAGTG TTGAGGAAGC TACCGAAAAG ATGCAGCAGT TGGAAACGGA GAATCTCTCG
GTTAAAGGGT TCTATCGGCT GATGCAAGAG TGGCTAGGGG AGGTCAAACT GGTGGAGAAA
ACCCCCACTT ATGCGCTGGA TTTACAGACT TTAAACAGGG CAGAGGAAGA TTTTGAAAAT
GCCTTGTATA TTCATCTGAT TCGCCATCCT TCGGCTGCGA TCGCCTCTTT TGAGGAAGCC
AAGCTCGATG TCTTTTTCCC GCCCTTTTTT AAGGGAGCTC ATCATTTCAC CGTTTGGCAG
TTGGCTGAAC TGGTCTGGAC GATTTGTCAC CAAAATATTC TTGATTTCCT CACGACGATT
CCTCCAGAGC GAAAACACGC TGTTAGATTT GAGGATCTCG TCTCGAACCC CAAAGAAACC
ATGGAAAAGG TCGCCAAATT TCTCGATTTG CCCTTTCATC CCAACATGAT TAATCCTTAT
GAGCAAGATC GGGCGGCACA GATGACCGAT AAAATCCATT CTATGGCTCG GATGCTAGGG
GATGTCAAGT TTCACCAACA CGGTCAGATT AAAGCTGAAG CGGCCAAGCG TACCTATGGG
CGTTATCCTG AAGAGAAACT CGCAGATGTT ACGCGCCAAC TCGCGGGTAA ACTTGGGTAT
GAGCTATACC AGCCTTTGGA TAAATCCTTA GTCAGTTTAG AAACACGCGG GGAGTCGTCA
CCCTTTTTTG GGGTGCATCC CATGGCAAGC GAGGTATCCT ACTATCAGCC TCTAGTGAAT
CAACTGGGCT CAAATCAGCC TTTCTATGTC TTCCGAATGC AGACACTCAA TGGTGCAGCC
ACTGTGCCTC AATCCATCCC TGAATTAGCG GCTGCCTACG TCCAAGAACT GCAAACTTTT
CAGCCAGAAG GTCCCTATCG CTTAGGAGGT TGGTCTTTTG GTGGCCTGGT TGTTTTTGAA
ATGGCTTGCC AACTAGCGGC AAAGGGCGAA GAGATTGCAC TCCTTGCCTT GTTTAGTAGC
TATATTGGTG AATTTAGGCT AGAGTGGCCA GCCCCGCGAT TTCATGACTT TTTGACAGGG
GTTTTTTACG AATATGGGTT AGATCTTGGA CAGATCGACG TTGATCACCT TAGCCGAGTT
CAATTCTTAG AATTAGCCTT TGTTCAAGCT AAACAGTCAG GAGTCATCTC ACCGGATTTG
GCGTTTTCTG ATTTTTATCG AGTTATACGG CAAAACTGGC GTGTTTATCG TCGAAACGTG
CAACTAGGTC GTGGCTACAT TCCCCAAACG CAACTTAAAC ACCTAGTCCT TTTTGAAGCC
GAAGATCGAT CTTTAGATGG ACACGGACCG TTTGAGAATT GGGAGAGATT TGCCACTAAA
GTCTCTTATC ATGAGGTACC GGGCAATCAC TTTACCATGC TCCGCGAACC TAATGTAAGT
TATCTGGCTG CATCCTTGAA GCAATATCTC TAA
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| Protein sequence | MFQDRLRNKD IADWRTELAQ NIEQSGNCGD RLLSNPSSIR VGVEKIIIPA PLSQELRYLA
EAENVDLGII FLGIFQVLLH RHTSDDEVPV GVMIPVEDKE GSTSRGDLVK PLVFRSKFSP
KLTLSQLWQQ ILHNHSHFLQ QATSIQDCYE GKQSKEEETP LNYPNPLRAA FSMEEMPLIK
PSFSDLVLTQ VTLNEPILPC DLVLSVRTEG EEITLKLLYD SNLFSADFAE RISRHLLNAL
NATVEKPNCL VEKLPLMDQE EYQQLILEWS GTDADFPPEI CLHQLFEAQV KRTPDACAVI
HNQEQISYQA LDQRANQLAR YLQQFEVKPD TKVALYLDPS IELLITILAI WKAGAAYVPI
SPSMPRERVH FMLCDIQAPV LITKEPFINN DLAFPCQVIR LDADAAQIDG QPNTPPLHQA
TPDNLAYVIY TSGSTGEPKG VMVPHRGIAN TLLRRQEAFP FHQTDRLLLT FSFVFDASIF
QLFQPLLSGA CLVIPEREHG GDPMRIINAI RRYQITVLGL NPSLLALLVK EQGFEQCDSV
RMMFCGGESV SESLLEKINE VTGINVHNMY GPTEASMEAT YWTYEPQMRV SIGRPIKNTR
AYVLDEQLQP TPIGVPGELY LGGVGLAWGY LNQPQLTAEK FLPDPFSSVP SRRMYRTGDR
CRWLPNGYLE YLGRQDEQVK LNGYRIELQE IEACLQKNTT VRENVVLLRE DQPGDKRLVG
YVVPKNIEQS NPEELRSYLR SHLPTYMIPS TFVFLESLPR TAGGKVNRRA LKAHPLTPSS
RRIADWSEQP LEAFLAGLWQ EVLGLDGIGE GENFFELGGN SLRAAILAHK LEETLNEFVY
PIVLYDAPTL EKLAHYLRLN YPQSVVRLFG QEALKGVESP RSSAITEASI TTLRELIRPL
PTRESIPDSP KNPEAIFILS PPRSGSTLLR IMLGGHPALF SPPELQLLNY NTLGERKAAL
SSERDNFWLQ GTIQALMQIQ GWSVEEATEK MQQLETENLS VKGFYRLMQE WLGEVKLVEK
TPTYALDLQT LNRAEEDFEN ALYIHLIRHP SAAIASFEEA KLDVFFPPFF KGAHHFTVWQ
LAELVWTICH QNILDFLTTI PPERKHAVRF EDLVSNPKET MEKVAKFLDL PFHPNMINPY
EQDRAAQMTD KIHSMARMLG DVKFHQHGQI KAEAAKRTYG RYPEEKLADV TRQLAGKLGY
ELYQPLDKSL VSLETRGESS PFFGVHPMAS EVSYYQPLVN QLGSNQPFYV FRMQTLNGAA
TVPQSIPELA AAYVQELQTF QPEGPYRLGG WSFGGLVVFE MACQLAAKGE EIALLALFSS
YIGEFRLEWP APRFHDFLTG VFYEYGLDLG QIDVDHLSRV QFLELAFVQA KQSGVISPDL
AFSDFYRVIR QNWRVYRRNV QLGRGYIPQT QLKHLVLFEA EDRSLDGHGP FENWERFATK
VSYHEVPGNH FTMLREPNVS YLAASLKQYL
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