| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Mrad2831_3203 |
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| Symbol | |
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| ID | 6139251 |
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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 | Methylobacterium radiotolerans JCM 2831 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_010505 |
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| Strand | + |
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| Start bp | 3380193 |
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| End bp | 3383135 |
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| Gene Length | 2943 bp |
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| Protein Length | 980 aa |
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| Translation table | 11 |
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| GC content | 67% |
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| IMG OID | 641628914 |
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| Product | molybdopterin oxidoreductase |
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| Protein accession | YP_001755867 |
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| Protein GI | 170749607 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG0243] Anaerobic dehydrogenases, typically selenocysteine-containing |
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| TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
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Plasmid Coverage information |
| Num covering plasmid clones | 6 |
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| Plasmid unclonability p-value | 0.542235 |
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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 | 34 |
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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 | ATGCTGACGA AGCGGAAGAG CGGCGAGGCC AGCCGCAGCA AGCATCAGGC GGTCGCGGCC
GGTCTCGCGG CCGGCGTGCT CGACCGGCGT GCGTTCCTGC GCAAGTCCGG GCTCACGGCG
GGAGCGCTCG CCGCCGCGGG CTCGATCCAG CTCGGCGCCG TCCGCAAGGC CGAGGCCGCC
GGCTCGTCGG CGGTCGGGCC GGAGACGGTC ATCAAGAAGA ACATCTGCAC GCATTGCTCG
GTCGGCTGCA CGGTGACCGC CGAAGTCGTG AACGGCGTCT GGGTCGGCCA GGAGCCGTCC
TGGGCAAGTC CCATCAACCG CGGAACCCAT TGCGCCAAGG GGGCCGCCAT CCGCGAGCTG
GTCTCGTCGG ACCGCCGCCT GAAATATCCG ATGAAACTCG TCGGCGGCCA GTGGCAGCGG
ATCTCCTGGG ATCAGGCGAT CGACGAGATC GGCGACAAGC TGCTGCAGAT CCGCGAGAAG
TGGGGCTCCG ATTCCGTCTA CTGGCTGGGC TCGGCCAAGT ACACGAACGA GGCCGCGTAC
CTGTTGCGGA AATTCGGGGC GTTCTGGGGC ACCAACAACG TCGACCACCA GGCGCGCATC
TGCCACTCGA CCACCGTGGC GGGCGTGGCG AATACCTGGG GCTACGGCGC CCAGACCAAC
TCGTACAACG ACATCCGCAA CGCCAAGACC ATGATCATCA TGGGCGGCAA TCCCGCCGAG
GCGCACCCGA TCTCGATGCA GCACGTGCTG TCCGGGAAGG AGATCAACCG CGCCAACCTG
ATCGTCATCG ACCCCCGTTT CACCCGCACG GCGGCGCACG CCACCGACTA CGTGCGCATC
CGCTCGGGGA CCGACATCCC GGTCGCGTGG GGCATGCTCT GGCACATCTT CCAGAACGGC
TGGGAGGACA AAGAATTCAT CCGCCAGCGG GTCTACGCGA TGGACGACGT CCGCAAGGAG
GTCGCCAAAT GGACGCCCGA GGAAGTGGAG CGCGTGTCCG GCGTGCCGGG CGAGCAGCTC
CGCCGCATCG CGGAGAAGTT CGCCAAGGAG AAGCCCGCCA CCATGATCTG GTGCATGGGC
AACACGCAGC ACACGGTCGG CACCGCCAAT GTGCGCGCGC TCTGCATCCT GTGCTTGGCC
ACGGGCAATG TCGGCAAGCC GGGCACGGGC GCCAACATCT TCCGCGGGCA CACGAACGTG
CAGGGGGCGA CCGACCTCGG CCTCGATGTG ACGACCCTGC CGCTCTACTA CGGCTTGGTC
GAGGGCGGCT GGCGGCACTG GGCCCGCGTC TGGGAGGTGG ACTACGCGTG GCTGCAGTCG
CGCTTCGATG AGGTCCCCGC GACGGCCGGC CGCAAGGCGC GGTCCCGCAA GGAGAACATG
GAGACCCCGG GCATCACCTC GACCCGCTGG TTCGACTCCG TGAACCTCCC GCCCGAACAG
ATCGATCAGC GCAGCCCCAC GCGGGCGATG ATGATCTCGG GCCATGGCGG CAACACCGTC
ACGCGGCTGC CCGAGGCCCT CGAGGGCCTG AACAAGCTCG ACCTGATGGT CGTCGCGGAC
CCGCATCCGA CCACCTTCGC GGCGCTCGAT GCCCGGCAGG ACAACACCTA CCTGCTGCCG
ATCTGCACCT CGCTGGAGAT GGACGGCTGC CGCACGGCGT CCAACCGGTC GCTGCAATGG
GGCGAGCAGA TCGTGAAGCC CGCCTTCGAG TCCAAGAACG ACTACGAGTT CCTCTACCTG
CTCTCGAAGA AGCTCGGCTT CGCCGACCCG ATGTTCAAGA ACATCAAGGT CGAGAACAAC
GTCCCCTTGG CCGAGGACAT CCTGAGGGAG ATCAACCGCG GCGGCTGGTC GACGGGCTAT
TGCGGGCAGT CGCCCGAGCG CCTGAAGGCG CATATGCGCA ACCAGCAGAA GTTCGATCTC
GTCACCCTGC GGGCGCCGAA GGACGATCCG GAGGTCGGCG GGGATTATTA CGGCCTGCCC
TGGCCCTGCT GGGGCAAGCC CGAGATCCGC CATCCCGGCT CGGCCATCCT GTACAACACG
GCTCTGCACG TGAAGGAGGG CGGCGGCACG TTCCGCGCGC GCTTCGGCAC CGAACGCAAC
GGCGAGACCC TGCTGGCCGA GGATTCCTAC TCCAACGGCT CGGACCTGAC CGACGGCTAT
CCGGAATTCA CCCTCGGCGT GTTCAAGAAG CTCGGGTGGG ACAAGGATCT CACGGCGGAC
GAGCTGGCGA CCATCCTGAA GATCGGCGGC GACAAGCCCG ACACGGTGAG CTGGGCGACC
GACCTCTCGG GTGGCATCCA GCGCGTCTGT CTCGAGCGAG GCGTCTCGCC GTTCGGCAAC
GGCAAGGCGC GCGCGAATGC CTGGAACCTG CCCGACCCGG TGCCGGTCCA TCGCGAGCCG
ATCTACTCAC CGCGCCCCGA TCTGGTCGCC AAGTACCCGA CCCGGCCCGA CGAGCGGCAG
TTCCGCATGC CCAATATCGG GTTCTCGGTG CAGAAATCCG CGGTCGAGCG CAACGTCGCC
CGGGACTTCC CGATCATCCT CACCTCGGGC CGCCTCGTCG AGTATGAGGG CGGCGGCGAG
GAGACCCGCT CCAACCCGTG GCTCGCCGAG CTGCAGCAGG ACATGTTCGT CGAGATCAAC
ACCGGTGACG CGGCCGAGCG CGGCATCAAG GATGGTCAGT GGGTCTGGGT CACGGGCGCG
GAGAACAACT CCAAGACGAA GGTGAAGGCC CTCGTGACCG ACCGCGTCGG GAAAGGCGTC
GCGTTCATGC CGTTCCATTT CTCCGGCTGG TACCAGGGCA AGGACATGCG CGACTACTAC
CCGAAGGGCA CCGACCCGGT CGTGCTCGGC GAGAGCGTCA ACACCGTCAC GACCTACGGC
TTCGATCCCG TCACCGGCAT GCAGGAGACG AAAGCCACCC TGTGTCAGAT CCGAGCGGCC
TGA
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| Protein sequence | MLTKRKSGEA SRSKHQAVAA GLAAGVLDRR AFLRKSGLTA GALAAAGSIQ LGAVRKAEAA
GSSAVGPETV IKKNICTHCS VGCTVTAEVV NGVWVGQEPS WASPINRGTH CAKGAAIREL
VSSDRRLKYP MKLVGGQWQR ISWDQAIDEI GDKLLQIREK WGSDSVYWLG SAKYTNEAAY
LLRKFGAFWG TNNVDHQARI CHSTTVAGVA NTWGYGAQTN SYNDIRNAKT MIIMGGNPAE
AHPISMQHVL SGKEINRANL IVIDPRFTRT AAHATDYVRI RSGTDIPVAW GMLWHIFQNG
WEDKEFIRQR VYAMDDVRKE VAKWTPEEVE RVSGVPGEQL RRIAEKFAKE KPATMIWCMG
NTQHTVGTAN VRALCILCLA TGNVGKPGTG ANIFRGHTNV QGATDLGLDV TTLPLYYGLV
EGGWRHWARV WEVDYAWLQS RFDEVPATAG RKARSRKENM ETPGITSTRW FDSVNLPPEQ
IDQRSPTRAM MISGHGGNTV TRLPEALEGL NKLDLMVVAD PHPTTFAALD ARQDNTYLLP
ICTSLEMDGC RTASNRSLQW GEQIVKPAFE SKNDYEFLYL LSKKLGFADP MFKNIKVENN
VPLAEDILRE INRGGWSTGY CGQSPERLKA HMRNQQKFDL VTLRAPKDDP EVGGDYYGLP
WPCWGKPEIR HPGSAILYNT ALHVKEGGGT FRARFGTERN GETLLAEDSY SNGSDLTDGY
PEFTLGVFKK LGWDKDLTAD ELATILKIGG DKPDTVSWAT DLSGGIQRVC LERGVSPFGN
GKARANAWNL PDPVPVHREP IYSPRPDLVA KYPTRPDERQ FRMPNIGFSV QKSAVERNVA
RDFPIILTSG RLVEYEGGGE ETRSNPWLAE LQQDMFVEIN TGDAAERGIK DGQWVWVTGA
ENNSKTKVKA LVTDRVGKGV AFMPFHFSGW YQGKDMRDYY PKGTDPVVLG ESVNTVTTYG
FDPVTGMQET KATLCQIRAA
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