| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Amir_2966 |
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| Symbol | |
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| ID | 8327155 |
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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 | Actinosynnema mirum DSM 43827 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_013093 |
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| Strand | + |
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| Start bp | 3428249 |
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| End bp | 3431500 |
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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 | 76% |
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| IMG OID | 644943491 |
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| Product | hypothetical protein |
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| Protein accession | YP_003100732 |
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| Protein GI | 256377072 |
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| COG category | |
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| COG ID | |
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| TIGRFAM ID | |
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| 
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Plasmid Coverage information |
| Num covering plasmid clones | 3 |
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| Plasmid unclonability p-value | 0.00498883 |
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| Plasmid hitchhiking | Yes |
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| Plasmid clonability | hitchhiker |
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Fosmid Coverage information |
| Num covering fosmid clones | n/a |
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| Fosmid unclonability p-value | n/a |
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| Fosmid Hitchhiker | n/a |
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| Fosmid clonability | n/a |
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Sequence |
| Gene sequence | GTGGCAGAAC CGGGCAACCC GCCCCAGCGG GCGTTCACCG TTCCCAAGCC GTGGTGGAAG
CACGTCCACC CGCGCCGGGG TGGGGGCGTG CCCAGCAAGG TCAAGGTCAC CGAGGCCGGC
GCCGCCGAGG GCAGGGCGAT GCTGGCGACC GCGCTGGGGC GCACCGAGGG CGCCTTCGCG
CACCCCGTCA GCGACCCGGC GCTCGTGCGC GCCGCCCGCG AGCACCTCGG CGGCGCGTCG
AACCCGGTCG GCGCGGCGGC GGTGGCCGCG CTGGCCGCCG ACGGCGTGCA GGCGCACGTG
GTCGACGCCT GGGTCCACGA CCACGGGCTC GCGTTCGCGG CCTGCGCCGC GCTGGAGTCG
GGCGACCTGG CCGCCGTGGC GCAGCGCTAC GGCGACGAGT CGGCCGCGCT CGTCCGCCTC
GGCGTCGACG ACTCCGGCCA CAGCGGCTCG CTGCACGACC GCAAGCCGCT GCGGTGGCAC
GGCGAGGTGT TCCCCGAGCG CGTCCGCAGG CTGCTCGCCA CGGCTTCGGA CGCCGACCAC
GCGCTCGCCG AGGCCGCGCT GTCCGAGCGC CGCGCCACCG AGCGCGCCAA GGCGGCCTCC
GCCTACCTCG TGCCCGCGCG GGCGGACTGG GTCGACGAGG CGATCACCGC GCTGGCCACC
CACCGCGGCA GCCAGTGGCC CCGGCTCCTG CAGTCGGTCG GGTCCCTCGA CCAGCTGCGC
GCCCTGCTCG ACGCGGGCGC GCCCCGCTTC CTCCTCCAGT ACCCCTGGAT CAGCGCCACC
CTCGCCGACG CGATCGGCCC CGACTTCGCC CCGGAGATGG CCGAGCTGCT GGGCAAGGGG
CCGGAGTCGT TCGTGTTCGA CCGGGTCATC GAGGTCTTCC AGCAGGTCAC CACCCCGGCC
GTGGTCGACG CGCTCCTGGC GCACCGGGAC GTCAAGCGGG TCGGGACCGC CCTGCTGGAG
CTGGGCCGCA AGCACCCCGA GCTGCTGCTC GACCGGCTCG CCGCCTCCCC GCACGCCGAC
CTGCTGGAGG GGCACCTGCG GCGTCACCAC GACCTCGCCG CCCGCGCCGA CCTGCCGGAA
CCGGCCGCCC GGATCGCCGA GCGGGTGCTC GCCGAGCACG CCGCCGTGCC GGTCGCGGAC
CCGGCCGACC TGCCGCCGTT CCTGGTCGAC CCGCCCTGGC GGGCCGGGCG CGCGTCCGCC
GCGCTCCCGG TGGTCGCGCT GCCCGAGCCG ACGCACCGGG CCGTGCGGTG GCGCGACGGC
GAGCGGGAGA GCTGGGGCGC GCCCACCCGC TTCCTGCCCT CCGGACCCCG CGACTGGCCG
GTGGAGCTGA AGGCGTTCCT GGCCGGTGGG ATGCCCGAGT ACCGCAGGCA GGAGCTGTTC
GCGGCCGGGC CGGTGGACGA GCTGCGCCCC CTGCTGCCGG ACCTGGTGCT CGACCCGAAG
CGGTGGGACA CGGACGAGTT CGGCATGTTC CTGGTGGCCC GCTTCGGCGT CGACGCCGTC
CCGCCCGTGC TGACGCTGGT GGGCGCCGAG GCAAAGTACG CCGACGCGCT GCTGCCGCTG
GAGTCCGTCG AGGTGGCCCG GCTGGTCGCG GCCCGCCTGC AGCGGCCCAG GAGCACCGCC
GCCCGGTACG CGGCCTGGCT GCGCCGCCAC CCAGGGCAGG CCGCGCGCCT GCTGCTGCCC
GACGCGCTCG GCGCGCCCGG AGCAGGCAGG GACGCCGCCG AGGAGGTGCT GCGCCGCCAC
CCCGACCACG CCCGCGTGGC CGCCGCCGAG CACACCCCCG AGGCCGTCGC GGCCGTGGAG
GCGCTGCTCG CCGTCGACCC GCTGGACCTG GTGCCCGCGA AGCCGCCCGT GCCCGGAGCG
TGGTGCGAGG TGACCGCCCT GCCCAGGCTG CTGCTGCGCG ACGGCCGCGC GCTGCCCGAC
GAGTCGGTGC GGCACGTGAC CACGATGCTC GCCATGACCG GCCCCGACAC CCACTACGCC
GGGCTGGACG CGCTGCGGGA GCTGTGCGAC CCGGCGTCCC TGGTGGAGTT CGCGTGGGCG
GTGTTCGAGC TCTGGACGCT CAACGCCATG CCCGCCAAGG ACTCCTGGGC GCTGACCGCG
CTGGGCGTGC TCGGCGACGA CCGCGTGGTG CGGCGCCTGG AACCGCTGAT CCGGGCGTGG
CCGGGGCAGT CGCAGCACCA CAACGCCGTG CGCGGGCTCG ACGTGCTGGC CAGGATCGGC
ACCGACACCG CCCTGATCGC GCTCAACGGC GTCGCGCAGC GCGTGAAGTT CGCCGGTCTC
AAGGGGCGCG CCGAGGGCAA GGTCGCGGAG ATCGCCGAGG ACCTCGGGCT GACCGGCGAG
CAGCTGGCCG ACCGGCTCGT CCCCGCGTTC GGCCTGGACG AGGAGTCCGC GCTGGTCCTG
GACTACGGGC CGCGCCGGTT CACCGTGGGC TTCGACGAGT CGCTGCGCCC GTTCGTGCTG
GACGGGGCGG GCAAGCGGCT CAAGTCGCTG CCCAAGCCCG GCGCGAAGGA CGACCCGGAG
CTGGCGCCCG CGGCGAGCAA GCGGTTCGGG CAGCTGAAGA AGGACGTGCG GACGGTGGCG
TCGCTGCAGA TCGCCCGCCT GGAGGCGGCG ATGGTGGAGG GGAGGCGGTG GAGCGCGGCG
GAGTTCCGCG ACTTCCTGGT GGGGCACCCG CTGGTGGTGC ACCTGGTGCG GCGGCTGGTG
TGGGTGGTCG ACGGCGGCGG GGCGTTCCGG GTCGCGGAGG ATCGGGGGTT CGCGGACGCG
CGCGACGAGG CGGTGGTCCT GCCCGACGAC GCGCGGGTGG GCGTGGCGCA CCCGGTGCAC
CTGGGCGACG AGGTCGCGGA GTGGCGCGGG CTGTTCGAGG ACTACACCAT CCTGCAACCG
TTCTCCCAGC TGGACCGACC GGTGCGCGCG CTCGCCGAGG GGGAGGCCGG GGCGCGCTCG
CTGGACCGCT TCGTCGGCGC GGTGATCACC ACGACCCTGC CCGCCCTGCG CAAGCGCCGC
TGGGAGCTGG GTCCACCCCT GGACGCGGGC ATCATCTCGA CCCTGCACCG CCCGCTGCCG
GGCGGGGGAG TGGTGAACGT GCAGCTGGAC CACGGTATGG GCCGCGAGGA GTGGCACAAC
TGGCACGGCG AGGGGTTCCG GTCGGTGACG TTGCAGGGCG TGGACGCGTT CGGCGAACTG
GACCCGGTGA CGGTGTCTGA GCTGCTGGAC GAGCTGATCG TGATGACGGC GGAACGGGCG
GAGGGGGAGT AG
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| Protein sequence | MAEPGNPPQR AFTVPKPWWK HVHPRRGGGV PSKVKVTEAG AAEGRAMLAT ALGRTEGAFA
HPVSDPALVR AAREHLGGAS NPVGAAAVAA LAADGVQAHV VDAWVHDHGL AFAACAALES
GDLAAVAQRY GDESAALVRL GVDDSGHSGS LHDRKPLRWH GEVFPERVRR LLATASDADH
ALAEAALSER RATERAKAAS AYLVPARADW VDEAITALAT HRGSQWPRLL QSVGSLDQLR
ALLDAGAPRF LLQYPWISAT LADAIGPDFA PEMAELLGKG PESFVFDRVI EVFQQVTTPA
VVDALLAHRD VKRVGTALLE LGRKHPELLL DRLAASPHAD LLEGHLRRHH DLAARADLPE
PAARIAERVL AEHAAVPVAD PADLPPFLVD PPWRAGRASA ALPVVALPEP THRAVRWRDG
ERESWGAPTR FLPSGPRDWP VELKAFLAGG MPEYRRQELF AAGPVDELRP LLPDLVLDPK
RWDTDEFGMF LVARFGVDAV PPVLTLVGAE AKYADALLPL ESVEVARLVA ARLQRPRSTA
ARYAAWLRRH PGQAARLLLP DALGAPGAGR DAAEEVLRRH PDHARVAAAE HTPEAVAAVE
ALLAVDPLDL VPAKPPVPGA WCEVTALPRL LLRDGRALPD ESVRHVTTML AMTGPDTHYA
GLDALRELCD PASLVEFAWA VFELWTLNAM PAKDSWALTA LGVLGDDRVV RRLEPLIRAW
PGQSQHHNAV RGLDVLARIG TDTALIALNG VAQRVKFAGL KGRAEGKVAE IAEDLGLTGE
QLADRLVPAF GLDEESALVL DYGPRRFTVG FDESLRPFVL DGAGKRLKSL PKPGAKDDPE
LAPAASKRFG QLKKDVRTVA SLQIARLEAA MVEGRRWSAA EFRDFLVGHP LVVHLVRRLV
WVVDGGGAFR VAEDRGFADA RDEAVVLPDD ARVGVAHPVH LGDEVAEWRG LFEDYTILQP
FSQLDRPVRA LAEGEAGARS LDRFVGAVIT TTLPALRKRR WELGPPLDAG IISTLHRPLP
GGGVVNVQLD HGMGREEWHN WHGEGFRSVT LQGVDAFGEL DPVTVSELLD ELIVMTAERA
EGE
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