Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Rxyl_1516 |
Symbol | |
ID | 4117060 |
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 | 1534710 |
End bp | 1536512 |
Gene Length | 1803 bp |
Protein Length | 600 aa |
Translation table | 11 |
GC content | 67% |
IMG OID | 638036310 |
Product | GTP-binding protein LepA |
Protein accession | YP_644290 |
Protein GI | 108804353 |
COG category | [M] Cell wall/membrane/envelope biogenesis |
COG ID | [COG0481] Membrane GTPase LepA |
TIGRFAM ID | [TIGR00231] small GTP-binding protein domain [TIGR01393] GTP-binding protein LepA |
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Plasmid Coverage information |
Num covering plasmid clones | 15 |
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 | ATGGGCAATC ATGGTAAACT TTCCCGCGTG AGCGCCGACC GTATTCGGAA CTTCTGCATC ATAGCGCATA TAGACCACGG GAAGAGCACG CTCGCCGACC GGCTCTTGGA TCTGACGGAT GCGGTCCCCG AGCGGGAGCG GGTGGACCAG ATCCTGGACA CCATGGAGCT GGAGCGCGAG CGCGGGATCA CGATAAAGGC CCAGGCGGTG AGGCTCCTCT ATAACCGGCC GGACGGGGTG TGGACGCTGA ACCTGATCGA CACCCCGGGA CACGTGGACT TCACCTACGA GGTCTCCCGC GCCATAGCCG CCTGCGAGGG CGCCCTTCTG GTGGTGGACG CGAGCCAGGG CATCCAGGCG CAGACGCTCG CCAACCTCTA TCTTGCGATG GAGCACGACC TGGAGATCAT CCCGGTGCTC AACAAGATAG ACCTGCCGGT CGCCGACGTC CCGGCGGCCA CCGAGGAGCT GGTCGAGCTG CTCGGGGTCG AGCCCGAGGA GGTGCTCAAG ATCTCGGCGA AGACCGGCGA GGGCGTGAGG GGGGTGCTCG ACGCGATCGT GGAGCGCATC CCGCCGCCCC GGAGCGAGCA CCCGCAGACC AGGGCACTCG TCTTCGACTC GAACTACGAC CCCTACCGGG GCGTCATAGC GCTGGCCCGC GTCTTCGACG GCGGCCTGAA GAAGGGGGAC CGGGTGCAGG CGATGGGCTC CGAAGAGGAG TTCGAGATCC TGGAGGTCGG CTGCTACTCG CCGAAGCCCA CGGCCCTCCC GGCCCTGCAG ACCGGCCAGG TCGGCTACGT CGTCGCCGGG CTGAAGGACA TCGGCGCCCT GCGCGTGGGC GACACCATCA CCTCCGCCGA TGACCCGGCC CCCGAGCCGC TGCCGGGGTA CGCCAGGGTG CTCCCCACCG TCTTCTGCGG CCTGTACCCC ACCGAGGGCG ACGACTTCGA GCGCCTCAGG GACGCCCTCG CCCGGCTGCA ACTCAACGAC GCCTCGCTCT TCTTCGAGCC GGAGAACTCC CGGCTCGGCT TCGGCTTCCG CTGCGGCTTC CTCGGCCTTC TGCACATGGA GATCGTCCAG GAGCGCCTGG AGCGCGAGTT CGACCTCGAC CTCATCGTCA CCTCGCCCAG CGTGAAGTAT CAGGTTGTGG TCGACGGTGA GGTGAGGGAG GTTACCAACC CGAGCGATCT TCCGGAGAGC TACGACGAGA TCCGGGAGCC GGTGGTGCGG GCGACCATCA TCTGCCCGCG CGAGCACGTG GGGGCGGTAA TGGGGCTCTG CCACGAGAAG CGCGGGGTCT CGGTGGGGAT GGAGTACATC TCCTCGCTGC GCGTGCAGCT CACCTACGAT CTGCCGCTGG CCGAGGTGAT CACCGACTTC TTCGACCAGC TCAAGAGCCG CACGCGGGGG TATGCCTCCT ACGACTACGA GCCGGTGGGC TACCAGCCCG CGGATCTCGT GAAGGTCGAG GTTCTGGTCG CGGGCGATCC GGTGGACTCC CTCTCCATCA TCGTGCACCG GGACAAGGCC TACCAGCGGG GCCGGGCGCT GGTGGAGAAG CTCAAGGAGC TCATCCCCCG CCAGCAGTTC GAGGTGCCCG TCCAGGCGGC GGTGGGGAAG CGCGTGATCG CGCGCGAGAC CGTGAGGGCC TACAGAAAGG ACGTCACCGC CAAGTGCTAC GGCGGCGACA TCACCCGCAA GCGGAAGCTC CTGGAGAAGC AGAAGGCGGG CAAGCGCCGG ATGAAGCAGG TCGGGCGGGT GGAGATCCCG CAGGAGGCCT TTCTCGCCGC CATCCGCATC TGA
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Protein sequence | MGNHGKLSRV SADRIRNFCI IAHIDHGKST LADRLLDLTD AVPERERVDQ ILDTMELERE RGITIKAQAV RLLYNRPDGV WTLNLIDTPG HVDFTYEVSR AIAACEGALL VVDASQGIQA QTLANLYLAM EHDLEIIPVL NKIDLPVADV PAATEELVEL LGVEPEEVLK ISAKTGEGVR GVLDAIVERI PPPRSEHPQT RALVFDSNYD PYRGVIALAR VFDGGLKKGD RVQAMGSEEE FEILEVGCYS PKPTALPALQ TGQVGYVVAG LKDIGALRVG DTITSADDPA PEPLPGYARV LPTVFCGLYP TEGDDFERLR DALARLQLND ASLFFEPENS RLGFGFRCGF LGLLHMEIVQ ERLEREFDLD LIVTSPSVKY QVVVDGEVRE VTNPSDLPES YDEIREPVVR ATIICPREHV GAVMGLCHEK RGVSVGMEYI SSLRVQLTYD LPLAEVITDF FDQLKSRTRG YASYDYEPVG YQPADLVKVE VLVAGDPVDS LSIIVHRDKA YQRGRALVEK LKELIPRQQF EVPVQAAVGK RVIARETVRA YRKDVTAKCY GGDITRKRKL LEKQKAGKRR MKQVGRVEIP QEAFLAAIRI
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