| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rxyl_2179 |
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| Symbol | |
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| ID | 4114794 |
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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 | Rubrobacter xylanophilus DSM 9941 |
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| Kingdom | Bacteria |
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| Replicon accession | NC_008148 |
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| Strand | - |
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| Start bp | 2193726 |
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| End bp | 2196230 |
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| Gene Length | 2505 bp |
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| Protein Length | 834 aa |
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| Translation table | 11 |
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| GC content | 67% |
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| IMG OID | 638036970 |
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| Product | ATPase AAA-2 |
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| Protein accession | YP_644935 |
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| Protein GI | 108804998 |
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| COG category | [O] Posttranslational modification, protein turnover, chaperones |
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| COG ID | [COG0542] ATPases with chaperone activity, ATP-binding subunit |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 7 |
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| Plasmid unclonability p-value | 0.400132 |
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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 | 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 | ATGTTTGAGA GATTCACCGA GAGGGCCCGC AAGGTCGTCG TCCTTGCGCA GGAGGAGGCC
CGGCACTTCA ACCACAACTA CATAGGCACC GAGCACCTGC TGCTCGGTCT GCTGCGCGAG
GAGGACGGGG TGGCGGCCCA GGCGCTCAAC CACCTCGGCG TCACGCTCGA CGACGTGCGC
GAGCAGGTGG AGAGCATCGT CGGCTACGGC GAGGAGGGCT CCGGCAGCCA GGCCCCGTTC
ACCCCGCGCT CCAAGAAGGT TCTGGAGCTG GCGCTCCGGG AGGCGCTGCA GCTCGGGCAC
AACTACATAG GCACCGAGCA CATCCTGCTC GGGCTGGTGC GCGAGAGCGA GGGCGTTGCG
GCCCGCGTTC TGTCCAACCT CGACGTCGAC CCGGACAAGG TGCGGCGCGA GGTCGTGCGG
CGGCTCGGCG GCGGCCGGAC GCAGCGCGGG CGGGCCGAGG CCTCCGCGCG CGGCGGCGTC
GAGGGCAAGC GGCCCAAGAC CCGCCAGCTC GACCAGTACG GGCGCAACCT CACTGCGCTG
GCCGAGGAGG GCAAGCTCGA CCCGGTCATC GGCCGGACCC AGGAGATAGA GAGGATCATG
CAGATCCTCG TGCGGCGCAC CAAGAACAAC CCCGTCATCA TCGGCGAGCC GGGGGTCGGC
AAGACCGCCA TCGTCGAGGG GCTGGCAAAC GAGATCGCCG CGGGCCGGGT GCCCGAGATC
CTCGCCGACA AGGAGGTCTA CACGCTCGAC CTCGGGGCGC TGGTCGCCGG CTCCAAGTAC
CGGGGCGAGT TCGAGGAGCG CCTCAAGAAG ATCATGAAGG AGATCATCGA CCACGGCGAC
ATCATCCTGT TCATCGACGA GATCCACAAC CTCGTCGGTG CGGGTGCCGC CGAGGGCGCC
ATAGACGCCG CATCCATCCT CAAGCCGGCG CTGGCGCGCG GTGAGATCCA AGTCATCGGC
GCGACCACCA TCGACGAGTA CCGGAAGTAC GTGGAGAAGG ACAAGGCGCT CGAGCGGCGC
TTCCAGACCA TCCAGGTCGG GGAGCCCACG GTCGAGGAGA CCGAGCTCAT CCTCAAGGGC
CTCAGGGAGC GCTACGAGGA GCACCACAAG ATCGAGATAA CCGACGAGGC GCTGCGGGCG
GCCTCGCGGC TGGGCGACCG GTACATCTCC GACCGCTTCC TGCCGGACAA GGCCATAGAT
TTGGTGGACG AGGCGGCCTC CAAGATGAAG ATCAAGACCA TGTCCCAGCC GCCGTACTAC
AAGGAGATCG ACGACGAGCT GGCCGAGGTC CGGCGCCGGA AGGAGGCCGC GATCGACAGC
CAGGAGTACG AGGAGGCGGC CCGGCTGCGC GACTCGGAGA AGAAGCTGGC CCTGCGCAAG
CGCGAGCTGG AGCGCCAGTG GCGCGAGGGC AAGGGCGAGG AGCAGCGTCG GGTCTCCATC
GGGGAGAACG AGATCGCCGA GATCGTCTCC ATGTGGACCG GCATCCCGGT CAGGAAGCTG
ACCGAGGAGG AGTCGGCGCG GCTGCTGAAG ATGGAGGAGG CGCTGCACGG CCGGGTGGTC
GGGCAGGACG AGGCCATAAA GGCCGTAAGC CGCTCCATCC GCCGCACGAT GGCGGGGCTC
AAGGACCCGA ACCGGCCGAG CGGCTCGTTC GTCTTCCTCG GGCCCACCGG CGTGGGCAAG
ACCGAGCTCG CCCGCACCCT CGCCGAGTAC CTCTTCGGCG ATCAGGACGC GATGATCCGG
CTCGACATGT CCGAGTACAT GGAGCGTCAC ACCGTCAGCC GGCTTGTGGG ATCGCCTCCC
GGCTACGTGG GCTACGACGA GGGCGGGCAG CTCACCGAAC AGGTGCGGCG GCGCCCGTAC
TCGGTGGTGC TCTTCGACGA GATAGAGAAG GCCCACCCGG ACGTCTTCAA CATCCTGCTG
CAGATCCTTG AGGACGGGCA GCTCACCGAC GCCCAGGGCC GGACGGTGGA CTTCAAGAAC
GTGGTCCTCA TCATGACCTC CAACGTGGGG GCCCAGCACA TCAACAAGAC CAAGACGCTC
GGCTTCGGTG CCGGCGAGGA GGGCCTCTCC TACAAGGAGA TGAAGAGCCG GGTGACCAGC
GAGCTCAGGA AGATCTTCCG GCCGGAGCTT TTGAACAGGA TCGACGAGAT CATCGTCTTC
CACAAGCTGG AGCGGGAGCA CGTCCGGCAG ATCATCGAGA TCCAGGTCAA GCGGCTGCGC
GAGCAGCTGG CCGAGCGTAA CGTGACCCTC GAGTTCACGC CCGAGGCGCT GGACAAGCTG
GCCGAGGAGG GCTACGACCC GGCCTTCGGC GCCCGGCCGC TCAAGCGGGT GCTGCAGCGG
ATGGTAGAGG ACCCGATGAG CGAGATGATC CTCCGCGGGG ACATCCCTGA CGGCTCGAAG
GTGACCATCG AGGCGAACGA CAAGAGCGCC GACGAGATCG GCGAGGACGA GTCGATCGTG
ACGATCAAGG TCACCCAGCC GAAGGAGGTC GTCAAGGCCG AGTAG
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| Protein sequence | MFERFTERAR KVVVLAQEEA RHFNHNYIGT EHLLLGLLRE EDGVAAQALN HLGVTLDDVR
EQVESIVGYG EEGSGSQAPF TPRSKKVLEL ALREALQLGH NYIGTEHILL GLVRESEGVA
ARVLSNLDVD PDKVRREVVR RLGGGRTQRG RAEASARGGV EGKRPKTRQL DQYGRNLTAL
AEEGKLDPVI GRTQEIERIM QILVRRTKNN PVIIGEPGVG KTAIVEGLAN EIAAGRVPEI
LADKEVYTLD LGALVAGSKY RGEFEERLKK IMKEIIDHGD IILFIDEIHN LVGAGAAEGA
IDAASILKPA LARGEIQVIG ATTIDEYRKY VEKDKALERR FQTIQVGEPT VEETELILKG
LRERYEEHHK IEITDEALRA ASRLGDRYIS DRFLPDKAID LVDEAASKMK IKTMSQPPYY
KEIDDELAEV RRRKEAAIDS QEYEEAARLR DSEKKLALRK RELERQWREG KGEEQRRVSI
GENEIAEIVS MWTGIPVRKL TEEESARLLK MEEALHGRVV GQDEAIKAVS RSIRRTMAGL
KDPNRPSGSF VFLGPTGVGK TELARTLAEY LFGDQDAMIR LDMSEYMERH TVSRLVGSPP
GYVGYDEGGQ LTEQVRRRPY SVVLFDEIEK AHPDVFNILL QILEDGQLTD AQGRTVDFKN
VVLIMTSNVG AQHINKTKTL GFGAGEEGLS YKEMKSRVTS ELRKIFRPEL LNRIDEIIVF
HKLEREHVRQ IIEIQVKRLR EQLAERNVTL EFTPEALDKL AEEGYDPAFG ARPLKRVLQR
MVEDPMSEMI LRGDIPDGSK VTIEANDKSA DEIGEDESIV TIKVTQPKEV VKAE
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