| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rxyl_2428 |
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| Symbol | |
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| ID | 4115347 |
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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 | 2442806 |
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| End bp | 2446012 |
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| Gene Length | 3207 bp |
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| Protein Length | 1068 aa |
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| Translation table | 11 |
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| GC content | 70% |
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| IMG OID | 638037207 |
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| Product | isoleucyl-tRNA synthetase |
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| Protein accession | YP_645167 |
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| Protein GI | 108805230 |
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| COG category | [J] Translation, ribosomal structure and biogenesis |
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| COG ID | [COG0060] Isoleucyl-tRNA synthetase |
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| TIGRFAM ID | [TIGR00392] isoleucyl-tRNA synthetase |
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Plasmid Coverage information |
| Num covering plasmid clones | 4 |
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| Plasmid unclonability p-value | 0.240044 |
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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 | TTGGAGAAAG AGGGCTCCCG TCCCTGCGGC CGGAGAGGTC GCCGGGGCGG GAGCCTGGCT
TTTCAACGGG AGGTGTGGCA GGAGATGGAG TTCGAGAAGG TCGGCCCGCA GGTGGACTTC
CCGGCGCTCG AGCGCGAGGT GCTCGGGTAC TGGGAGGAGA TCGGGGCGTT CAGGAAGTCC
GTGGAGCGGA GGCCCGTGGA GAAGCCCTTC GTCTTCTACG AGGGGCCGCC GACGGCCAAC
GGGAGGCCCG GCTTCCACCA CGTCCCGGCC CGGACGCTCA AGGACCTCAT CCCCCGCTAC
AAGACCATGC GGGGCTACCG GGTGGAGCGC AAGGGCGGCT GGGACTGCCA CGGTCTGCCC
GTGGAGCTCG AGGTGGAGAA GGAGCTCGGG CTCTCCGGCA AGAAGGACGT GGAGCGCTAC
GGCATCGAGG AGTTCAACCG CCTGTGCCGC AGGTCCGTCT TCCGCTACGT GGACGACTGG
CGCCGGATGA GCGACCGGAT GGGCTTCTGG GTGGACATGG AGAACGCCTA CCGGACGCTC
GACAACACCT ACATAGAGAG CGTGTGGTGG GCGCTGAAGA CGCTGCACGA GCGGGGCCTG
CTCTACGAGG ACTACAAGGT CGCCCCCCAC TGCCCCCGCG ACCAGACCTC CCTCTCCTCC
CACGAGGTCG CCCAGGGCTA CAAGGACGTG GTGGACCCCT CCGTCTACGT CCGGCTGCCG
CTGCGGGACG AGGAGGGGAC GAGCCTGCTG GTGTGGACCA CCACCCCGTG GACGCTGGTC
TCCAACGCCG CCGTGGCGGC CCACCCGGAG GTGGAGTACG CGCTGGCCGA GAGGGGCGGG
GAGCGGCTCG TGCTCGCCGC GGAGCTCCTC GACAGGGTGC TGGGCGAGGG GAGCTACAGG
GTCGTCTCCA CGTTCCAGGG GCGGGAGCTC GAGGGCAGAA AGTACCGCCG CCCCTTCGAC
TACGTCCCCG TGGAGGAGAC GGAGAATCTG TGGACCGTCG TGCTCGGGGA CTACGTCACC
ACCAGGGAGG GCACCGGCCT CGTGCACACC GCGCCGGCCT ACGGCGAGGA CGACGCCCGC
ACCGGGCGGG CCTACGGGCT GCCCACCATC CACCCCGTGC GGCCCGACGG CACCTTCGAC
GAGCGGGTGG GGCCCTTCGC CGGGCGCTTC GTCAAGGACG CCGACAAGGG GCTGGTGAAG
GAGCTCGAGG AGAGGGGCCT CCTCTTCAAG GCCGAAGAGC ACGAGCACGC CTACCCGCAC
TGCTGGCGGT GCGGGACGCC GCTCCTGTAC TACGCCAAGC GGGCCTGGTA CGCCCGGACG
ACGGCCGTGC TCGACGAGCT GCTGCGGGAG AACGAGGGCA TAAACTGGGT GCCCGAGCAC
ATAAAGTGGG GCCGCTTCGG CGACTGGCTC AGGAACAACG TGGACTGGGC GCTCAGCCGG
GAGCGCTACT GGGGGACGCC GCTCCCCATC TGGCGGACCG AGTCCGGGAG GGTGGTGGTC
GTGGGCAGCC GCGAGGAGCT CGAGAAGCTC GCGGTGGACC CGCTGCCGGA CGATCTGCAC
CGGCCGTACA TAGACCGGGT CCGCATCCGG CACCCGGAGA CCGGCGAGCT CGCCAGGCGC
ATCCCCGAGG TGCTCGACGT GTGGTTCGAC TCCGGGAGCA TGCCCTTCGC CCAGTGGGGC
TACCCACGCT CCGGGCGGGA GCACTTCCGG CGGCAGTTCC CCGCCGACTT CATCTGCGAG
GGGGTGGACC AGACCAGGGG CTGGTTCTAC TCGCTGCTCG CCGTCTCGAC CATGCTCTTC
GGGAAGAGCT CCTACAAGAC GTGCATGGCG CTCGGGATCA TCCTGGACGC CGAGGGCCGG
AAGATGAGCA AGTCGCTCGG CAACGTCATA GACCCCTGGA GCCTCTTCGA GAAGCAGGGG
GCGGACGCCC TCAGGTGGGC GCTGTGCACC GCCTCGAGCC CGGTCAACAC GCGGCGCTTC
AGCGAGGAGC AGGTGGACGA GGCGGTCCGC AAGTACCTGC TGACGCTCTG GAACACCTAC
TCCTTCTTCG TGACCTACGC CCGGATAGAC GGCTTCGACC CCGAGAGGGA CCGCGTCCCC
CTGGAGCAGC GCGGCCTGAT GGACCGGTGG GTCCTCTCGG AGCTGCACGC GACCATAAGG
ACCGTCACCG AGCGCCTCGA CGCCTACGAC GTGACCACGG CGGGCAGGGC GATACAGGAC
TTCGTGGACG AGCTCTCCAA CTGGTACGTG CGCCGCAGCC GGCGCAGGTT CTGGAAGGGG
GAGGAGGACA CGGACAAGAG GGCCGCCCAC TCCACCCTCT ACGAGTGCCT GACCACCGTT
ATACGGCTGA CCGCCCCCTT CACCCCGTTC GTGGCGGAGG CGATCTACCG GAACCTGGAG
CGGGGGCGCG CCGGGGCGCC GGAGAGCGTC CACCTCGCCG ACTGGCCGGA GTACCGGGAG
GAGCTCGTGG ACGAGGGGCT GCTGGAGCGG ATGGAGGCGG CCAGGAGGGT GGTCGCCCTG
GGCCGGGCGG CCCGCAACGC CGCCGCCATA AAGACCCGCC AGCCCCTGCG GGAGGTGGTG
GTCGTCGCCG ACGAGCGCCT GCGCGGGAAC CTGGAGGGGC TCGAGGAGAT CGTGCTGGAG
GAGCTCAACG TCAAGGAGCT GCGCTTCGGC GGGCGGGAGG ACGTGCTGCG CTACGCCCTC
AAGCCGAACC TCTCGGCCGT GGGCCCGAGG TACGGTAGGC TGGTGCCGGG CCTCCGCCGG
GCGCTGGAGG AGGTCTCCGA GGAGGAGGCG AGGAGGGCGG CCTCCGGCGA GCCGGTGACC
GTGGAGGTGG AGGGCAAAAA GGTCACGCTG CAGCCCGAGG AGCTGCTGGT GGAGAGCGGG
CCCAGGGAGG GCTACGCGGT GGAGAGCGAG GCCGGGCTCT CGGTGGCGCT GCGCACGCGG
CTGGACCCGG AGCTCGTGGA CGAGGGGCTC GTGCGGGAGC TGGTGCACAA GGTGCAGAAC
CTCCGGCGGG AGAAGGGCTT CGAGATCGAG GAGAGCATCT CGGTGAGCCT CTCCGCGGGC
GGGCGCCTCA GGGAGCTGCT CGAGGGCCCG TGGGGCGAGT ACTTCAAGGG CGAGGTGCTC
GCCCGGGAGC TGGACCTCGA CGGCGGGGGG GAGGACGCCC TCGCGGTGGA CGGCGAGGAG
GTGAGGGTCT CTCTGAGGCG CCCCTGA
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| Protein sequence | MEKEGSRPCG RRGRRGGSLA FQREVWQEME FEKVGPQVDF PALEREVLGY WEEIGAFRKS
VERRPVEKPF VFYEGPPTAN GRPGFHHVPA RTLKDLIPRY KTMRGYRVER KGGWDCHGLP
VELEVEKELG LSGKKDVERY GIEEFNRLCR RSVFRYVDDW RRMSDRMGFW VDMENAYRTL
DNTYIESVWW ALKTLHERGL LYEDYKVAPH CPRDQTSLSS HEVAQGYKDV VDPSVYVRLP
LRDEEGTSLL VWTTTPWTLV SNAAVAAHPE VEYALAERGG ERLVLAAELL DRVLGEGSYR
VVSTFQGREL EGRKYRRPFD YVPVEETENL WTVVLGDYVT TREGTGLVHT APAYGEDDAR
TGRAYGLPTI HPVRPDGTFD ERVGPFAGRF VKDADKGLVK ELEERGLLFK AEEHEHAYPH
CWRCGTPLLY YAKRAWYART TAVLDELLRE NEGINWVPEH IKWGRFGDWL RNNVDWALSR
ERYWGTPLPI WRTESGRVVV VGSREELEKL AVDPLPDDLH RPYIDRVRIR HPETGELARR
IPEVLDVWFD SGSMPFAQWG YPRSGREHFR RQFPADFICE GVDQTRGWFY SLLAVSTMLF
GKSSYKTCMA LGIILDAEGR KMSKSLGNVI DPWSLFEKQG ADALRWALCT ASSPVNTRRF
SEEQVDEAVR KYLLTLWNTY SFFVTYARID GFDPERDRVP LEQRGLMDRW VLSELHATIR
TVTERLDAYD VTTAGRAIQD FVDELSNWYV RRSRRRFWKG EEDTDKRAAH STLYECLTTV
IRLTAPFTPF VAEAIYRNLE RGRAGAPESV HLADWPEYRE ELVDEGLLER MEAARRVVAL
GRAARNAAAI KTRQPLREVV VVADERLRGN LEGLEEIVLE ELNVKELRFG GREDVLRYAL
KPNLSAVGPR YGRLVPGLRR ALEEVSEEEA RRAASGEPVT VEVEGKKVTL QPEELLVESG
PREGYAVESE AGLSVALRTR LDPELVDEGL VRELVHKVQN LRREKGFEIE ESISVSLSAG
GRLRELLEGP WGEYFKGEVL ARELDLDGGG EDALAVDGEE VRVSLRRP
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