| Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
| Locus tag | Rxyl_0866 |
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| Symbol | |
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| ID | 4117196 |
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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 | 906182 |
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| End bp | 907903 |
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| Gene Length | 1722 bp |
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| Protein Length | 573 aa |
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| Translation table | 11 |
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| GC content | 67% |
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| IMG OID | 638035649 |
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| Product | twin-arginine translocation pathway signal |
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| Protein accession | YP_643645 |
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| Protein GI | 108803708 |
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| COG category | [E] Amino acid transport and metabolism |
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| COG ID | [COG4166] ABC-type oligopeptide transport system, periplasmic component |
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| TIGRFAM ID | |
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Plasmid Coverage information |
| Num covering plasmid clones | 18 |
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| Plasmid unclonability p-value | 1 |
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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 | ATGGCCAGAC TGGCGATGTC AGGCGGTGGA CGCAGGCCCG CGGGCGCCTT TGACCTCACG
CGCCGGGACT TCCTCAAGCT AGGCGGCGGT GGCCTGGTGG GGGCGGCGCT GCTAAGCGCC
TCCGGCTGCA ACATCTTCGG CGGCGGGCAG CAGGGCGGCT CCGGCGGGGG CGGCAACGGG
GTGATCGTCA ACCTCGGGGA CACCATCCGC GACCTCGACT CGACCACCAC CACCGACTCC
GTCTCGACCG ACATCCTGCT CAACGTGATG TCGGGGCTCT ACCGGCTCGA CCCGGACCAG
CAGCCGGTGC CCGACATGGC CGAGAGCCAC GAGGTCAGCG AGGACAAGCT CACCTACACC
TTCAGGCTGC GCGAGGGCAT CAAGTGGTCC AACGGCGAGC CGGTCACCTC GCAGGACTTC
AAGTACGCCT GGCTGCGGGC GATGGACCCC GACACCGCGG GGCAGTACGC CTACATCCTC
ACCACCTTCA TCAAGGGCGG CCCCGAGTTC AACGGAGGCC CCACGAGCGA GGAGGACAAG
GAGGAGCACG ACCGGCTGCG CGACAACGTC GCCATCGAGA CCCCGGACGA CAGGACGCTC
AGGGTCACCC TGCAGAGCCC CTCGCCCTTC TGGCTCGGGC TCACCTCCTT CTTCACCTAC
CTGCCGCAGA AGCAGAGCTT CGTGGAGGAG CAGGGCGAGC AGTACGCCCA GAACGCCGAC
GCCCTCCTGT ACAACGGCCC CTACATCCTG ACCGAGTTCA ACCCCACCGA GGGCGTCACC
ATGGTCAAGC GCGACGACTA CTGGGACGCC GGCAGCGTCG ACATCCGGCG GGTGGAGGGG
AAGATCGTCA AGGAGGAGGA CACGGCGGTC AACCTCTACG AGTCCGGCGG CCTCGACGTC
ACCGAGATCA CCGGGCAGTA CGTCCAGGAG TACAAGGGCA CCCCTGACTT CTACTCGCAG
ACCTTCTTCG CCACCTTCTA CATGGTGCCC AACGTCAACC GGGTGCGGAT CTTCCGGAAC
CTCAACGTCC GCAAGGCCAT CCAGATGGGC TTCGACCGGC GGGCGCTCGT GGACCAGATC
CTCCGCAACG GCTCAGAGCC GGCGACCGGT CTCGTGCCCG CCGGGATAGA CGGCCCCGGC
GACCAGACCT TCCGCCAGGC CCAGGGCAAC GTGATGCCGG ACTTCGACCC GGAGCGGGCC
CGGCGGCTCT TCCAGCAGGG CATAGAGGAG GTCGGCGAGA ACCCCACCGT CGAGCTTCTG
GCCTACGACG ACAGCACCGC GCGGGACATC GCCACCTTCC TGCAGAACCA GTTCCAGGAG
AATTTGGGCA TGAAGACCCG GGTCAAGGTG CAGCCCTTCG ACCGCAAGCT CGAGCTCGAG
GCCAACGGCG AGTTCGAGCT CTCGTGGCAG GGCTGGATCG CCGACTACAA CGACCCGATG
ACCTTCCTCG ACCTCTTCCT CTCCGACTCC TCCTTCAACA CCGGCGGGTA CTCCAACCCC
CGCTACGACC GGCTCATCAA CCAGGCCAAG GAGGAGACCG ACTTCGCCCG GCGGATGCAG
CAGATGCTCG AGGCCGAGAG GATCCTCGTC GCCGAGGACG CCGGGACCGC GCCGATGTAC
TTCGACGGCG AGGCCAGCCT CATAAGGCCC ACCATCAAGA ACTACGTCGA GCACAAGTAC
GGGGCCGGCA TCGACGTGAA GTGGTGGAGG CTGGAGGAGT AG
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| Protein sequence | MARLAMSGGG RRPAGAFDLT RRDFLKLGGG GLVGAALLSA SGCNIFGGGQ QGGSGGGGNG
VIVNLGDTIR DLDSTTTTDS VSTDILLNVM SGLYRLDPDQ QPVPDMAESH EVSEDKLTYT
FRLREGIKWS NGEPVTSQDF KYAWLRAMDP DTAGQYAYIL TTFIKGGPEF NGGPTSEEDK
EEHDRLRDNV AIETPDDRTL RVTLQSPSPF WLGLTSFFTY LPQKQSFVEE QGEQYAQNAD
ALLYNGPYIL TEFNPTEGVT MVKRDDYWDA GSVDIRRVEG KIVKEEDTAV NLYESGGLDV
TEITGQYVQE YKGTPDFYSQ TFFATFYMVP NVNRVRIFRN LNVRKAIQMG FDRRALVDQI
LRNGSEPATG LVPAGIDGPG DQTFRQAQGN VMPDFDPERA RRLFQQGIEE VGENPTVELL
AYDDSTARDI ATFLQNQFQE NLGMKTRVKV QPFDRKLELE ANGEFELSWQ GWIADYNDPM
TFLDLFLSDS SFNTGGYSNP RYDRLINQAK EETDFARRMQ QMLEAERILV AEDAGTAPMY
FDGEASLIRP TIKNYVEHKY GAGIDVKWWR LEE
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