Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Rxyl_1611 |
Symbol | |
ID | 4116358 |
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 | 1633021 |
End bp | 1634697 |
Gene Length | 1677 bp |
Protein Length | 558 aa |
Translation table | 11 |
GC content | 66% |
IMG OID | 638036411 |
Product | sulfate permease |
Protein accession | YP_644385 |
Protein GI | 108804448 |
COG category | [P] Inorganic ion transport and metabolism |
COG ID | [COG0659] Sulfate permease and related transporters (MFS superfamily) |
TIGRFAM ID | [TIGR00815] high affinity sulphate transporter 1 |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 16 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
| |
Fosmid Coverage information |
Num covering fosmid clones | n/a |
Fosmid unclonability p-value | n/a |
Fosmid Hitchhiker | n/a |
Fosmid clonability | n/a |
| |
Sequence |
Gene sequence | GTGGCGGCGG TGGTCATCGC CGCCATGCTG GTGCCCCAGG GGATGGCCTA CGCGCTGCTC GCCGGCCTAC CCGCCAGCTA CGGGCTCTAC GCCTCGACCG TCCCTGCGGT CGTCTACGCG CTCTTTGGCA CCTCCCGCCA CATGCCGGTC GGTCCCCCGG CGCTCATGGC GCTCCTCACC TTCACCTCGG TCTCCGAGCT TGCAGAGCCG AGAACCCCGG AATACATCTC GCTCGCCCTG CTGCTCGCGC TTATGGTGGG GGTGCTGCAG CTGGTGATAG GGTTCCTGCG CATGGGGTTT ATCGTCAACT TCATCTCGCA TCCCGTGTTG AGCGGCTTCA TCTACGCCTC TGCCGTCTTG ATCGCGCTGA GCCAGCTGGA GCACATGCTG GGGACGCCTG TCTCCGGCGG GCACTCCACG GTAGAGGTGG TGCTGGAGCA CGCCAAGAGG ATCGAGGAGG CGAACCCCTG GACGCTCGCC GTCGGGTTGG GCAGCCTCGC GTCGCTGGTG GTGCTCGGGA GGGCGCTGCC CCGCCTCCCC GCCGCTCTGG TGGTCGTCGC CGCGGCCACG CTCGTCGTCT ACCTGTCCGG CCTGGACGAT AAGGGCGTGA ACGTCGTCGG GAGGGTTCCC GGGGGGCTGC CGGGCCTCTC ACTGCCCGCG CTAGATCCCG AGGCGGTGCG AACGCTCGCG CCGTCGGCCG CGGTCGTGGC CTTCGTCGGC TTTATAGAGT CGGTCTCGGT CGCCAAGGCG ATAGCCGCCA GGGAGAAGTA CAAGATCGAT TCGAACCAGG AGCTGAGGGC GCTCGGGCTT GCCAACATCT CCGCCGCTTT CTTTTCCGGG TTTCCGGTGG CCGGCTCCTT CTCCCGAACA GCGGTTCAAT ACCAATCCGG GGGGCGGACG CAGCTGGCCT CCGTGGCCAC CGCCCTCCTG GTGCTCCTGG TCCTTCTGTT CCTGACGCCC CTCTTCTACT ACCTGCCGAG CGCGGCACTG GCCGCGGTCA TCCTGGTCGC CGTCTACAAG CTGCTGGATT TCAGGGAGGC ATGGAGGATC TTTCGGATCC GGCGCGTCGA CGGGTACGCT CTGCTGATCA CCTTCGTCTT CACGTTGCTT GTGGGGGTTG AGCAGGGCAT CGTGGTGGGG GCCGGCTTTG CTCTGCTGGC GTTTATCCGA CGTACCGCCT ATCCGCGCAT CACGGAGCTG GGTTATGTTC CGGAGAAGGA TGCCTTCCTG GGGGTCGAGA GCAACCCCGG GGCGAAGACC TTTCCCGAGG CACTTATAGC CCGCTTCGAT GCCCGGCTGT ACTACGCCAA CGTGCCTTTT CTGGAGGAGT GGCTGCTGAA GAGGGTGGCA GAGAGGCCGG AGCTGAAATG GGTCTTTCTC GACTGCCGCG GGGTCAACGA CATCGACGTG ACCGCCATAG AGGGGCTTGA AGACCTCCTC TCCGGCTACA GGTCCCGCGG GATCGAGATC ATCTTTACGC ACATGAAGCT GCCGGTGCGC GAGCAACTCG AAAAGGCCGG TTGGGATACA AAGTTTGGCG GGAGAGGGCG CCGTTACTGC TACCAGACCA CCAGGGAGGC GGTAAGGGCC GTCGGTTTGC CGGTCGCCGG CGGGGCGTCG AGCCCGGAAC GCCGGCCATG GAGGCGTTCC GTTCCGGGGG ATGGGCGGTC CGGTTGA
|
Protein sequence | MAAVVIAAML VPQGMAYALL AGLPASYGLY ASTVPAVVYA LFGTSRHMPV GPPALMALLT FTSVSELAEP RTPEYISLAL LLALMVGVLQ LVIGFLRMGF IVNFISHPVL SGFIYASAVL IALSQLEHML GTPVSGGHST VEVVLEHAKR IEEANPWTLA VGLGSLASLV VLGRALPRLP AALVVVAAAT LVVYLSGLDD KGVNVVGRVP GGLPGLSLPA LDPEAVRTLA PSAAVVAFVG FIESVSVAKA IAAREKYKID SNQELRALGL ANISAAFFSG FPVAGSFSRT AVQYQSGGRT QLASVATALL VLLVLLFLTP LFYYLPSAAL AAVILVAVYK LLDFREAWRI FRIRRVDGYA LLITFVFTLL VGVEQGIVVG AGFALLAFIR RTAYPRITEL GYVPEKDAFL GVESNPGAKT FPEALIARFD ARLYYANVPF LEEWLLKRVA ERPELKWVFL DCRGVNDIDV TAIEGLEDLL SGYRSRGIEI IFTHMKLPVR EQLEKAGWDT KFGGRGRRYC YQTTREAVRA VGLPVAGGAS SPERRPWRRS VPGDGRSG
|
| |