Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Rxyl_1867 |
Symbol | |
ID | 4115545 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Rubrobacter xylanophilus DSM 9941 |
Kingdom | Bacteria |
Replicon accession | NC_008148 |
Strand | - |
Start bp | 1891997 |
End bp | 1893520 |
Gene Length | 1524 bp |
Protein Length | 507 aa |
Translation table | 11 |
GC content | 61% |
IMG OID | 638036655 |
Product | AMP-dependent synthetase and ligase |
Protein accession | YP_644629 |
Protein GI | 108804692 |
COG category | [I] Lipid transport and metabolism [Q] Secondary metabolites biosynthesis, transport and catabolism |
COG ID | [COG0318] Acyl-CoA synthetases (AMP-forming)/AMP-acid ligases II |
TIGRFAM ID | |
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Plasmid Coverage information |
Num covering plasmid clones | 13 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
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Sequence |
Gene sequence | TTGCCACCGG CGTTCCATGA TACCGCGACG CGCGTTCCGG GGCATACGGC CTTGACCATC GACAACGAGA TGATCTCTCA CGGAGATCTT GACCGCTCCG CTGCTAGGAT AGGAGGCTGG CTCAGGTCTC GGGGCATTGG TCAGGGCGAA CGAGTGGTTC TATGCGGGGG TAACTCGCTT AATTTCGTGA TGGCCTACCT GGGCATCCTC AGAGCCGGGG CCGTCGTGGT GCCGGCAGGT GCCACCCTCA CCGAGCGCGA GTTGCGCCAT CTGGTCGAAG ACAGCGGTGC TACGTGCGCG CTGGGATATG GCGACGCGCT CAAGAAGCTG GTAGCGATCT CTCGCGGCGA TTATGAGCTT CGGTTGGTCG TCGCGTTGGA AGAGCGGACG ACTTCGGCTG TTCCCTGTTT GCAGCAGGTA ATCTCCGAAG GCGAGCCTCT GGAACCGGAG AATGCTGGCG GCGATGAGAC TGCGTTGCTC GCCTACACGT CTGGCACTAC GGGGCGTCCC AAGGGAGTCC CCCTCTCTCA CGCTAACCTG CTCTCCTCGA TCCGTGCCGT AATGCGGGCG TGGCGATGGT GCGAGAACGA TGTTCTCGTG CACGCGTTGC CGCTCTCTCA CCAGCATGGG CTCGGCGGCG TCCACGCGTC GCTGCTTGCG GGTGCTCGCG CTGTGGTGCA CAGCAAATTC GACCCGGGCA GGCTTTGCGC GGCCATAGAG TCCGAGAGCG CCACGGTTCT ATTCGCAGTA CCGGCTATCT ACGAGCGTCT TGTCGAGTGG GAAGGTATTA GAGATGTGAA TTTTTCGTCG CTCCGGCTCG CCGTATCCGG ATCTGCGGCT CTGTCTCCTG AGTTGGCCCA TAGGGTGTCG GCGGTGCTGG GGAGGGACGT ACTGGAACGT TACGGGAGCA CCGAGAGTGG GTTGAGCGTC TCCAACCCGT ACGATGGTCC TCGGAAGTTC GGTTCCGTGG GGTTGCCTCT TCCGGGTACC GAGTTAGCCA TAGTCGATGA CCATGGCTGC TGCATGCCGC CTGGAAACGC CGGTGAGATA GTGCTACGTG GTCCACAGGT CTTCTCGGGC TACTGGAACC TTCCGGATGC CACCAGGGAT AGTTTCTATC CGGGAGGATG GTTCCGGACC GGCGATATAG GACGCGTCGA TCCCGGCGAC GGATACCTGA CCATCACAGG TCGCTCAAAG GAGTTGATTA TCTCCGGCGG CCTGAACGTG TATCCTCGCG AGGTTGAACT GGTTCTGGAG AGTCACCCCG CTGTTGACAG GGCAGCAGTT GTGGGGGTTC CGTCGGAGCG GTGGGGTGAG GAGGTAGTAG CCTTTGTCGT TCCCGCTCAA GGTAATATGG TAGATAGCAG TAAACTTGCG AGCCACGTCC GCGAACATCT TAGCGGCTAT AAGTGCCCAA AGAGGTTCTT GAAGATTGAC GAGCTCCCGC GCAACGAGGT GGGAAAAGTG CTGCGGAACG AGTTGGTCCG CATAGCTGGC GAGGAGGCTC GCGCCGGACC ATAG
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Protein sequence | MPPAFHDTAT RVPGHTALTI DNEMISHGDL DRSAARIGGW LRSRGIGQGE RVVLCGGNSL NFVMAYLGIL RAGAVVVPAG ATLTERELRH LVEDSGATCA LGYGDALKKL VAISRGDYEL RLVVALEERT TSAVPCLQQV ISEGEPLEPE NAGGDETALL AYTSGTTGRP KGVPLSHANL LSSIRAVMRA WRWCENDVLV HALPLSHQHG LGGVHASLLA GARAVVHSKF DPGRLCAAIE SESATVLFAV PAIYERLVEW EGIRDVNFSS LRLAVSGSAA LSPELAHRVS AVLGRDVLER YGSTESGLSV SNPYDGPRKF GSVGLPLPGT ELAIVDDHGC CMPPGNAGEI VLRGPQVFSG YWNLPDATRD SFYPGGWFRT GDIGRVDPGD GYLTITGRSK ELIISGGLNV YPREVELVLE SHPAVDRAAV VGVPSERWGE EVVAFVVPAQ GNMVDSSKLA SHVREHLSGY KCPKRFLKID ELPRNEVGKV LRNELVRIAG EEARAGP
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