Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | BRA0635 |
Symbol | |
ID | 1165077 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Brucella suis 1330 |
Kingdom | Bacteria |
Replicon accession | NC_004311 |
Strand | + |
Start bp | 615836 |
End bp | 617563 |
Gene Length | 1728 bp |
Protein Length | 575 aa |
Translation table | 11 |
GC content | 58% |
IMG OID | 637331742 |
Product | twin-arginine translocation pathway signal sequence domain-containing protein |
Protein accession | NP_699819 |
Protein GI | 23500379 |
COG category | [R] General function prediction only |
COG ID | [COG1574] Predicted metal-dependent hydrolase with the TIM-barrel fold |
TIGRFAM ID | [TIGR01409] Tat (twin-arginine translocation) pathway signal sequence |
|
|
Plasmid Coverage information |
Num covering plasmid clones | 8 |
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 | ATGTGCCTGA TGTGCGGCCC TGCAGCAAAA ACAATACTGA ATATTACACG GCGCAACCTT CTCAAGGCGT TGGGAGCGGC CAGCCTGACA GCGGCAATAC CATTTCGCGC GGAAAGTGCG GATAGCGAGC CGGGGCAGAT CGTCTTTTTC GGCGGGCCGA TCATCACCGT GGAACCCGGC GCAGAACAGG TTGAAGCCGT AGCCGTCACC AATGGTGTTA TCAGCGCAGC CGGAAGCAAG GCGGAAATAC TGGACAAGAA GGCTACCGAC GTGCTGCTCG TGGATTTGAA GGGGCGCACG CTTCTGCCCG GCTTCATCGA TCCGCATATG CACACGATCT TTTCCTATTT CGAGGACTGG CTCGATATGG GCCCCTTCGT CAACGGCTCC TACGAGCAGA TCATGGACAA GCTGCGCGCC GACGCAAAAG CCGCCAAGCC CGGCGATTGG GTGCGTGGCT GGCAGTATGA TCCCTCCATC ACGCCGGGTG CGCAGCCGAT CACGCTGGCA CTTCTTGATG AAATCGCGCC GAACAATCCG CTTTTTATCC TCGAAGGCAA CGGTCATGTC ACTTACGCCA ATTCAAAAGC GTTTGAATTG GCCGGTATCA CAAAAGACAC ACAAGACCCG CCCGAAGGCC GCTATATCAA GGATAAGAAC GGCAATCTTT CCGGCCGCAT CGAAGAATAT CCGGCTTTTG TTCCCTTTGT GGAGAAGATG CCGCAGGTTT CCCCCGATGA AATGGAGCGC CGTGTGCGTG CGCTCTTCGA CAGGGGCGCC AGCAATGGCT GCACTGCGAT GATGGATTGC GGCCTCGGCC TTCTCATGGG GGAACAGGAT GTGCGCACCA TTCAGGGCGT CGTGGCAAAA GATACGCCGG TACGTGTGCG CGGCGCACTC GCTTCCACCA TGTATGACAA ATGGGTGGAG CTTGGTTTCA AACCGGGCTT TGGCGATGAT CTCTTCCGCA TTCACGCCAT AAAGGCATGG GTGGATGGTT CAAATCAGGC GCGCACCGGC TATATGCGCG AGCCTTATCT GAATTCCACC ACGCGCGGCC AGTTGAACTA TTCTTTGGAA GACCTGACCG CAACGATGAA ACGCTCGCAT GAGGACGGCT GGCAAATCTG CGTTCACGCC AACGGGGATG CGGGCATCGA CAATGCGCTG AAGGCCTATG CGGCCACCTT GCAGGATGCG CCCCGCGCCG ATCATCGTCA CCGCATCGAG CATTGCTCGG TCCTGCATGA CGAGCAGATC AAATCCATGG GTGATCTCGG CCTCTCCCCC TCTTTCCTCA TCGGCCATGT GGACTATTGG GGCGAAGCTT TCCGCGACGA TATTCTCGGT CCCGAACGCG CCAATCTCTA TGATCGTTGC GGCTCGGCCC GGAAGGCCGG CCTCCGGATC AGCCTTCACT CCGATTATAA CGTCACCCCG ATCAAGCCCT TGCAGCATAT CCAGACGGCT GTCACGCGCA TCATGCGCGC CAATGGTGAA GTGCTGAACC CGGATGAGCG CATTCCGGTT GAAGCGGCAA TCCGCGCCGT GACGATCGAC GCGGCCTGGC AGTGCCACAT GGATGATCTC ACCGGCAGCA TCAAGGCGGG AAAGGCGGCG GATTTCGTCA TTCTGGAAGA CAATCCACTG ACGGTTGACC CGGACAAGAT CAGCCAGATC AAGGTTAGCG AAACCTGGCT GGACGGCAAG CGCCGCTATT CGGCCTGA
|
Protein sequence | MCLMCGPAAK TILNITRRNL LKALGAASLT AAIPFRAESA DSEPGQIVFF GGPIITVEPG AEQVEAVAVT NGVISAAGSK AEILDKKATD VLLVDLKGRT LLPGFIDPHM HTIFSYFEDW LDMGPFVNGS YEQIMDKLRA DAKAAKPGDW VRGWQYDPSI TPGAQPITLA LLDEIAPNNP LFILEGNGHV TYANSKAFEL AGITKDTQDP PEGRYIKDKN GNLSGRIEEY PAFVPFVEKM PQVSPDEMER RVRALFDRGA SNGCTAMMDC GLGLLMGEQD VRTIQGVVAK DTPVRVRGAL ASTMYDKWVE LGFKPGFGDD LFRIHAIKAW VDGSNQARTG YMREPYLNST TRGQLNYSLE DLTATMKRSH EDGWQICVHA NGDAGIDNAL KAYAATLQDA PRADHRHRIE HCSVLHDEQI KSMGDLGLSP SFLIGHVDYW GEAFRDDILG PERANLYDRC GSARKAGLRI SLHSDYNVTP IKPLQHIQTA VTRIMRANGE VLNPDERIPV EAAIRAVTID AAWQCHMDDL TGSIKAGKAA DFVILEDNPL TVDPDKISQI KVSETWLDGK RRYSA
|
| |