| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Dshi_1212 |
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| Symbol | coxL2 |
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| ID | 5711770 |
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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 | Dinoroseobacter shibae DFL 12 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_009952 |
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| Strand | + |
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| Start bp | 1250367 |
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| End bp | 1252787 |
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| Gene Length | 2421 bp |
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| Protein Length | 806 aa |
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| Translation table | 11 |
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| GC content | 65% |
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| IMG OID | 641267124 |
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| Product | carbon-monoxide dehydrogenase, large subunit |
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| Protein accession | YP_001532555 |
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| Protein GI | 159043761 |
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| COG category | [C] Energy production and conversion |
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| COG ID | [COG1529] Aerobic-type carbon monoxide dehydrogenase, large subunit CoxL/CutL homologs |
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| TIGRFAM ID | [TIGR02416] carbon-monoxide dehydrogenase, large subunit |
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Plasmid Coverage information |
| Num covering plasmid clones | 11 |
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| Plasmid unclonability p-value | 0.0257401 |
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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 | 33 |
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| Fosmid unclonability p-value | 0.870794 |
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| Fosmid Hitchhiker | No |
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| Fosmid clonability | normal |
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Sequence |
| Gene sequence | ATGAATGACA TGACCCCCCC CACCCGCGAA GAGCGGGTCG AAAAGCTCAA GGGCCTGGGC
TCGTCGCGCA AGCGGGTTGA GGACGCGCGC TTCACCCAAG GCAAGGGCAA CTATGTCGAT
GACATCAAGC TGCCGGGGAT GCTGCACGGC GATTTCGTGC GCTCGCCCTA TGCCCATGCC
CGCGTGGTCT CGATCAATGC CGAGGCGGCG CTGGCGCTGC CCGGTGTGGT CGCGGTGCTG
ACCGCCAAGG ACCTGGAGCC CTTGTCGCTG CACTGGATGC CGACGCTGGC GGGCGACAAG
CAGATGGTTC TCGCCGACGG CAAGGTCCTT TTCCAGGGCC AGGAGGTCGC CTTTGTCGTG
GCCGAGGACC GCTATATCGC CGCCGACGCG GTGGAGCTGG TCGAGGTCGA GTACGAGGAA
CTGCCCGTGC TGGTGGACCC GTTCGAGGCG CTGCAATCCG ACGTGGTGCT GCGCGAGGAT
CTGGAGCCCG GGGCCGACGG GGCCCATGGG CCCCGCCGCC ATCACAACCA CATCTTCCTG
TGGGAAGAGG GCGACAAGGC GGCCACCGAG CAGGTGATCG AAAACGCCGA GGTCGTGGTC
GAGGAGATGG TCTATTATCA CCGCACGCAC CCGTGCCCGC TGGAGACCTG CGGGTCGGTG
GCGTCCATGG ACAAGGTCAA CGGCAAGCTG ACGCTCTGGG GGACGTTCCA GGCCCCGCAT
GTGGTGCGCA CGGTCGCGAG CCTGCTGTCG GGGATCGAAG AGCATAACAT CCGGGTGATC
AGCCCCGATA TCGGCGGGGG CTTCGGCAAC AAGGTCGGGG TCTATCCGGG CTATGTCTGC
TCCATCGTGG CCTCCATCGT CACGGGCAAG CCGGTGAAGT TCATCGAGGA CCGGATGGAC
AACCTGATGG CGACGGCCTT TGCGCGCGAT TACTGGATGA AGGGGCGGAT CAGCGCGACC
AAAGAGGGCA AGATCACCGG GCTGCATTGT CATGTGACCG CGGATCATGG CGCGTTCGAT
GCTTGCGCGG ACCCCACCAA GTTCCCCGCC GGCTTCTTCC ACATCTGCAC CGGCTCCTAT
GACATTCCGG TCGCCTATGT CGGCGTGGAC GGGGTCTATA CCAACAAGGC GCCAGGGGGC
GTGGCCTATC GCTGCTCCTT CCGGGTGACG GAGGCCGCCT ATTTCATCGA GCGGATGATC
GAGGTGCTGG CCATGGAGCT GAACATGGAC GCGGCCGAGC TGCGCCGGAT CAACTTCATC
CGCAAGGAGC AGTTTCCCTA TACCAGCGCG CTTGGCTGGG AATATGACAG CGGCGACTAC
CACACCGCCT GGGACAAGGC GCTGGAGGCC GTGGACTACA AGGGCCTGCG TGCCGAGCAG
GCTGAGCGCG TCGAGGCGTT CAAGCGCGGC GAGACGCGGA AACTGCTCGG CATCGGCCTG
ACGCATTTCA CCGAGATCGT CGGCGCGGGC CCGGTGAAGA ACTGCGATAT CCTCGGGATG
GGCATGTTCG ACAGCTGCGA GATCCGCATC CACCCCACCG GGTCCGCCGT CGCGCGGCTG
GGCACGATCA GCCAGGGGCA GGGGCATGCG ACGACCTTCG CGCAGATACT CGCCTCGGAA
ACCGGCATCC CTGCCGACAG CATCACCATC GAGGAAGGCG ACACCGACAC CGCGCCTTAC
GGTCTGGGCA CTTACGGCTC CCGCTCCACG CCGGTTGCCG GGGCGGCCAC GGCGCTGGCG
GGCCGCAAGA TCCGGGCCAA GGCGCAGATG ATCGCGGCCT ACCTCTTGGA GGTCCACGAC
AACGACGTGG AATGGGACGT GGACCGCTTC GTGGTCAAGG GCGCGCCGGA GCGGTTCAAG
ACGATCCAGG AGATCGCCTA TGCTGCCTAT AACCAGGCCA TCCCGGGCGT CGAGCCGGGG
CTGGAGGCGG TCAGCTATTA TGACCCGCCC AACATGACCT ATCCGTTCGG GGCCTATATC
TGCGTGATGG AGATCGACGT GGACACGGGC GAGCACGAGA TCCGGCAGTT CTATGCGCTG
GACGATTGCG GCACCCGGAT CAACCCGATG GTCATCGAGG GGCAGGTGCA TGGCGGGCTG
ACCGAGGCGC TCGCCATCGC CATGGGCCAG GAGATCGCCT ATGACGATAT CGGCAACTGC
AAGACCGGGA CGCTGATGGA TTTCTTCATC CCGACCGCGT GGGAGACGCC GAACTACACC
ACCGACTTCA CCGAGACCCC GAGCCCGCAT CACCCGATCG GGGCCAAGGG CGTGGGCGAG
AGCCCGAATG TCGGCGGGGT GCCGGCGTTC TCGAACGCGG TGCATGATGC CTTCCGCGCC
TTCGGGCTGC GGCAGAGCCA CATGCCGCAC GATCATTGGC GGATCTGGAA GACCGCCAAT
CAACTCGGCC TGCACGGATA G
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| Protein sequence | MNDMTPPTRE ERVEKLKGLG SSRKRVEDAR FTQGKGNYVD DIKLPGMLHG DFVRSPYAHA
RVVSINAEAA LALPGVVAVL TAKDLEPLSL HWMPTLAGDK QMVLADGKVL FQGQEVAFVV
AEDRYIAADA VELVEVEYEE LPVLVDPFEA LQSDVVLRED LEPGADGAHG PRRHHNHIFL
WEEGDKAATE QVIENAEVVV EEMVYYHRTH PCPLETCGSV ASMDKVNGKL TLWGTFQAPH
VVRTVASLLS GIEEHNIRVI SPDIGGGFGN KVGVYPGYVC SIVASIVTGK PVKFIEDRMD
NLMATAFARD YWMKGRISAT KEGKITGLHC HVTADHGAFD ACADPTKFPA GFFHICTGSY
DIPVAYVGVD GVYTNKAPGG VAYRCSFRVT EAAYFIERMI EVLAMELNMD AAELRRINFI
RKEQFPYTSA LGWEYDSGDY HTAWDKALEA VDYKGLRAEQ AERVEAFKRG ETRKLLGIGL
THFTEIVGAG PVKNCDILGM GMFDSCEIRI HPTGSAVARL GTISQGQGHA TTFAQILASE
TGIPADSITI EEGDTDTAPY GLGTYGSRST PVAGAATALA GRKIRAKAQM IAAYLLEVHD
NDVEWDVDRF VVKGAPERFK TIQEIAYAAY NQAIPGVEPG LEAVSYYDPP NMTYPFGAYI
CVMEIDVDTG EHEIRQFYAL DDCGTRINPM VIEGQVHGGL TEALAIAMGQ EIAYDDIGNC
KTGTLMDFFI PTAWETPNYT TDFTETPSPH HPIGAKGVGE SPNVGGVPAF SNAVHDAFRA
FGLRQSHMPH DHWRIWKTAN QLGLHG
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