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BPSL1705

Victor ID 2016
Gene Name BPSL1705
Sequence Strain (Species/Organism) Burkholderia pseudomallei K96243
NCBI Gene ID 3094881
NCBI Protein GI 53719320
Locus Tag BPSL1705
Genbank Accession BX571965
Protein Accession YP_108306
Other Database IDs UniProtKB-ID: Q63UB0_BURPS
UniRef100: UniRef100_Q63UB0
UniRef90: UniRef90_Q3JS90
UniRef50: UniRef50_A2RY59
UniParc: UPI000043B0D6
EMBL: BX571965
EMBL-CDS: CAH35703.1
RefSeq_NT: NC_006350.1
GenomeReviews: BX571965_GR
KEGG: bps:BPSL1705
HOGENOM: HBG757231
OMA: STTNSAV
ProtClustDB: CLSK709263
BioCyc: BPSE272560:BPSL1705-MONOMER
Taxonomy ID 272560
Chromosome No 1
Gene Starting Position 1982642
Gene Ending Position 1987462
Gene Strand (Orientation) +
Protein Name hypothetical protein
Protein pI 4.03
Protein Weight 140184.3
Protein Length 1606
Protein Note Similar to Rhizobium loti hypothetical protein mll2848 SWALL:Q98HJ2 (EMBL: AP003000) (1953 aa) fasta scores: E(): 1.8e-60, 33.27% id in 1677 aa, and to Staphylococcus aureus hypothetical protein sav2654 or sa2447 SWALL:Q99QY4 (EMBL: AP003366) (2271 aa) fasta scores: E(): 3.4e-49, 29.2% id in 1589 aa. Note: High content in alanine, glycine, serine and threonine amino acid residues. Contains also three regions with repeats. Possible alternative translational start sites
DNA Sequence 
>gi|53717639:1982642-1987462 Burkholderia pseudomallei K96243 chromosome chromosome 1, complete sequence
GTTGTCGTCCATTGCGCTGGCGGCGTGCATATTGATCGGGAGCCTTGGGTCCACGCTGCCGGCTGTGGCT
GGTACGGTAATAGGCGGCGGGGCTCAATACCCCAATTCGGTAGGCGGAACGAGTTCTACGACCGGCGATT
TGGGCAACAGCTATATTGGTGCGAGCGGTATGGGTACCGCCATTACTGGGGATAATGATTGCCTGAGCTT
GACTTCGACCCGCAACGTGCTAAACAGTGCGAATGTCGGCTGGCTTTTGGGAACGACTTCACAGACCACC
GATCCTGGTCCGTTGTACCCCGGCCCCGGCGCGGAAAACAACCAGACTATCAGTTACAGTGGCACCTCCA
ATTTTTCGGGTGGTGGAAATAGCGCGGCTGGTGCCCAGGCGACCCTCGCCTGGGGCTTCAATTCCTTCGC
AGCGGGGTGTGGGAACAAATCGCTTGGCATGGGTTCGAGTACGCTCGGGCTCAATAACATGGCCAGCTTG
GCCGGTTCAACTGCGATCGGGATCGCTAATACCGCGTCAGGAGCGGGCGGAACCGCGATCGGTCTCTACA
ACACTGCCGCTGGCACGGGCAGCGTTGCAATGGGCATTGGCTCTCAAGCGACAGGCAATGGAACGATCGC
ACTCGGATACGGCGGCGGCGGCACCTCGAGCAACGCCACATTGGCGAGCGGCAGCAATGCGATCGCGATA
GGCGGAGACGCGACCAAAGGCGCGCAGGCGACGGGAAGCGATTCGATCGCCATGGGCAGCGAGGCGGCCG
CCAGCAGTTCCAGCACGACCGCAATCGGGCAATATGCCACCGCTAGCAATACGAATGCCACGGCGCTCGG
CGCGGGCGGAACATCCGCCGCCACTGGCGTAATCGCAAGCGGTGCGGGCGCCGTCGCGCTCGGTGGCAAC
AGTACGCAAGGCGCGCAGGCGTTGGCAAGCAACGCCATTGCGATCGGCGGCCAATCGCAAGCCGCTAGCG
CCGGTGCGATCGCGATCGGCCAGAGCGCACTGGCCACGGGTGGGCAAGCGGTGTCCGTCGGCGTGGGCAA
TACCGCGAACGGCAATGGCGCGGTGGCGATCGGCGATCCGAACGTCGCGACCGGCACGGGAGCGGTGGCG
CTGGGGGCGAACAATACCGCCACCGGACAAGGCGCGGTTGCGCTCGGCAACGCTGATATTGCCACGGGCC
AAGGTTCGGTTGCGCTCGGTAATGTGTCGACGGCCGCCGGTGCAGGATCGGTGGCCTTCGGCTCGAATGC
CGTAGCCAACAACACGAACGATGTGGCGCTGGGCTCCGGATCTGTGACAGCCGCGCCGAATCCGACGGGG
AGTGCGACGATCGGCGGAACCACATATTCGTTTGAGGGAACCAATCCGACGAGCGTTGTGAGCGTGGGCG
CAGTGGGCGCGGAACGCCAGATCACGAACGTCGCGGCGGGACAACTGACGGCGACGAGCACGGACGCAGT
CAACGGTTCGCAACTTTACTCGACGAATCAGGCGATTAATACATTATCGACGTCGACTTCGACGGGCCTG
TCGTCGGCGAATAGCTCGATCGCGTCGTTATCCACTGGCCTCGCATCGTCCGGCAACCTGGCTTCGCTGT
CGACGTCCACGTCGACAGGCCTGTCATCGGCGAATAGCTCGATCGCGTCGCTGTCGACGTCGACTTCAAC
GGGCCTCTCGACGACCAACAGCAACATCGGCTCGCTGTCGACAGGCCTTAGCACGACTAATAGCACGGTC
GCATCGTTATCGACGTCCACGTCGACGGGATTGTCGTCGGCGACCAGCTCGATCACGTCGTTGTCGACGT
CGACCTCGAGCGGCATCAGTACCGCTCAGAGCGGCGTCAATTCGCTGTCGACTGGCCTGTCGACCACCAA
CAGCGCAGTCACCTCGTTATCGACGTCCACGTCGACGGGATTATCGTCGGCGACCAGCTCGATCACGTCG
TTGTCTACGTCGACGTCAACTGGAATCGGCTCGCTGTCGACCGGTCTGAGCACGACCGACAGTTCCGTAA
CGTCGCTGTCGACGTCGACCTCGAGCGGCATCAGTACCGCTCAGAGCGGCGTCAATTCGCTGTCGACTGG
CCTGTCGACCACCAACAGCACGGTCACCTCGTTATCGACGTCCGCGTCGACGGGATTATCGTCGGCGAAC
AGCTCGATCACGTCGTTGTCGACGTCGACCTCGACTGGATTGAGCTCGTTGTCGACGGGAATCGCGAATT
CCGTTCAGTATGACAACACCAGCCATACTCAAGTCACGTTGGGAGGAGCCGGCGCGACGACGCCGGTGAC
GCTGACCAATGTCGCCGCGGGCGTGAATCCCACCGATGCGGTGAATATGAGTCAGCTGACTTCGCTGTCG
ACGTCAACGTCAACGGGACTGTCGACGACCAACAGCAACATTGGCTCGCTGTCGACCGCTCTGAGCACGA
CCGACAGTTCCGTGACGTCGCTGTCGACGTCGACCTCGAGCGGCATCAGTACTGCTCAGAGCGGTGTCAA
TTCGCTGTCGACTGGCCTGTCGACCACCAACAGCACGGTCGCATCGCTATCGACGTCCACGTCGACGGGA
TTGTCGTCGGCGACCAGCTCGATCACGTCGTTGTCTACGTCGACGTCAACTGGAATCGGCTCGCTGTCGA
CCGGTCTGAGCACGGCCAACAGTTCCGTGACGTCGCTGTCGACGTCGACCTCGAGCGGCATCAGTACCGC
TCAGAGCGGCGTCAATTCGCTGTCGACTGGCCTGTCGACCACCAACAGCACGGTCGCATCGCTATCGACG
TCCACGTCGACGGGATTGTCGTCGGCGACCAGCTCGATCACGTCGTTGTCTACGTCGACGTCAACTGGAA
TCGGCTCGCTGTCGACCGGTCTGAGCACGGCCAACAGTTCCGTGACGTCGCTGTCGACGTCGACCTCGAG
CGGCATCAGTACCGCTCAGAGCGGCGTCAATTCGCTGTCGACTGGCCTGTCGACCACCAACAGCGCAGTC
ACTTCGTTGTCGACGTCCACGTCGACGGGGCTGAGCTCGCTGTCCACGGGTCTGTCCGCGACCAACAGCA
ACATCAGTTCGCTGTCGACTTCGACCTCGAACGGCCTGAGCACAGCTAACAGCAATATCTCGTCGCTGTC
CACTGGGCTGAGTTCGCTGTCGACCGCAGTCAACGGCGGCGGGACCAAGTACTTTCACGCCAACTCGGCG
CAGCCGGACAGTCAGGCGCTGGGGACGAACGCGATCGCCGTCGGACCGGCGGCCACGGCATCCGGCGCAA
GCGGTATCGCGATCGGCGATACCGCGAACGCGGCTGCAACTGGCGCGGTGGCGATTGGCCAGACCGCCGT
TGCAACGGGTGGTCAGGCGGTCTCGATCGGTGTTGCGAATACGGCGAGCGGCGACGGCGCGGTCGCGATC
GGTGATCCGAACGTCGCGACGGGTACTGGTGCGGTCGCGCTGGGCGCGAACAATTCTGCGAACGGCCAGG
GCGCCGTTGCGCTCGGCAATGCGAACGTGGCAACCGGGACAGGCTCGCTGGCGCTCGGCAGCACATCGAC
GGCGGCGGGGGGCGGCTCGATCGCGTTGGGCACGAATGCAATCGCGAACAATGCCAACGATGTCGCGCTG
GGTTCCGGTAGCGTAACCGCAGCCGCGAATCCGGTCGCCAGTGCGCTGATCGCCGGTCAGACGTATTCGC
TCGCCGGCGGTTCACCGACAAGCGTGGTGAGTGTCGGTGCGCCGGGTGCAGAACGACAAATCACCAACGT
CGCGGCAGGGCAGGTTTCCGCCACGTCGACCGACGCGGTGAACGGATCGCAGATGAACGCCGTGACCCAA
GCGCTGGTATCGTTGTCGACTTCGACAGCCAATGCGTTGTCGACGACGCAAAACGGTCTGAGTTCGTTGT
CGACAGGGCTGAGCACGACGCAGAGCAGTGTGAGTTCGCTGTCGACGGGCCTTAGCACGACGAGCGGTAA
CGTGTCGTCGCTGTCGACCGGCTTGAGTACGACGCAGAGCGATGTCGCGTCGCTGTCAACGGGACTGAGT
ACGACGAACAGCAATCTCGCGTCGTTGTCGACTGCGGTGTCCAACGGAGGGATTCACACCAACGGCGCGG
GCGGCACGTCGATGGGGCCGGGAGCCGACGCGTCGGGCAGCAACAGCACGGCGGTCGGTGGCGCAGCGTC
TGCTTCGGGAGCCAATGCAACGGCGCTCGGCCAGGCGTCGAACGCATCGGGCAATAATTCGACGGCATTA
GGGCAAGCATCGAGTGCATCCGGAAGCGGCTCCACCGCGGTGGGGCAGGGCGCGAGCGCGTCGGGCGATG
GGTCCTCGGCATTCGGCCAAGGGGCGATTGCCTCCGGCACGAACTCGACGGCGCTGGGCGCTCATTCGAC
GGCATCGGCGCCGAATTCAGTGGCGATCGGCGCGAACTCGGTAGCTTCCGCGCCGAACACGGTGTCGTTC
GGGTCTCAGGGCCATGAGCGTCGACTGACGAACGTCGCACCGGGGATGGACGGTACCGACGCAGCGAACA
TGAGCCAGCTTTGGGGCGTGCAATCGAGCGTAGACCAAGCCGCGCGCCGTGCGTATTCGGGTGTGGCGGC
TGCCACCGCGCTGACGATGATTCCGGAAGTCGATCCTGGCAAGACGATTGCAGTTGGGATCGGTGCCGGC
AGCTATCAAGGGTATTCGGCATCCGCGATCGGTGTGTCCGTGCGGTTCTCCGACAACCTGAAGGCGAAGC
TCGGCATGGGGATCAGCAGTCAGGGCAGCACGTACGGCGGAGGCATCTCGTACCAGTGGTA
Protein Sequence 
>gi|53719320|ref|YP_108306.1| hypothetical protein BPSL1705 [Burkholderia pseudomallei K96243]
MSSIALAACILIGSLGSTLPAVAGTVIGGGAQYPNSVGGTSSTTGDLGNSYIGASGMGTAITGDNDCLSL
TSTRNVLNSANVGWLLGTTSQTTDPGPLYPGPGAENNQTISYSGTSNFSGGGNSAAGAQATLAWGFNSFA
AGCGNKSLGMGSSTLGLNNMASLAGSTAIGIANTASGAGGTAIGLYNTAAGTGSVAMGIGSQATGNGTIA
LGYGGGGTSSNATLASGSNAIAIGGDATKGAQATGSDSIAMGSEAAASSSSTTAIGQYATASNTNATALG
AGGTSAATGVIASGAGAVALGGNSTQGAQALASNAIAIGGQSQAASAGAIAIGQSALATGGQAVSVGVGN
TANGNGAVAIGDPNVATGTGAVALGANNTATGQGAVALGNADIATGQGSVALGNVSTAAGAGSVAFGSNA
VANNTNDVALGSGSVTAAPNPTGSATIGGTTYSFEGTNPTSVVSVGAVGAERQITNVAAGQLTATSTDAV
NGSQLYSTNQAINTLSTSTSTGLSSANSSIASLSTGLASSGNLASLSTSTSTGLSSANSSIASLSTSTST
GLSTTNSNIGSLSTGLSTTNSTVASLSTSTSTGLSSATSSITSLSTSTSSGISTAQSGVNSLSTGLSTTN
SAVTSLSTSTSTGLSSATSSITSLSTSTSTGIGSLSTGLSTTDSSVTSLSTSTSSGISTAQSGVNSLSTG
LSTTNSTVTSLSTSASTGLSSANSSITSLSTSTSTGLSSLSTGIANSVQYDNTSHTQVTLGGAGATTPVT
LTNVAAGVNPTDAVNMSQLTSLSTSTSTGLSTTNSNIGSLSTALSTTDSSVTSLSTSTSSGISTAQSGVN
SLSTGLSTTNSTVASLSTSTSTGLSSATSSITSLSTSTSTGIGSLSTGLSTANSSVTSLSTSTSSGISTA
QSGVNSLSTGLSTTNSTVASLSTSTSTGLSSATSSITSLSTSTSTGIGSLSTGLSTANSSVTSLSTSTSS
GISTAQSGVNSLSTGLSTTNSAVTSLSTSTSTGLSSLSTGLSATNSNISSLSTSTSNGLSTANSNISSLS
TGLSSLSTAVNGGGTKYFHANSAQPDSQALGTNAIAVGPAATASGASGIAIGDTANAAATGAVAIGQTAV
ATGGQAVSIGVANTASGDGAVAIGDPNVATGTGAVALGANNSANGQGAVALGNANVATGTGSLALGSTST
AAGGGSIALGTNAIANNANDVALGSGSVTAAANPVASALIAGQTYSLAGGSPTSVVSVGAPGAERQITNV
AAGQVSATSTDAVNGSQMNAVTQALVSLSTSTANALSTTQNGLSSLSTGLSTTQSSVSSLSTGLSTTSGN
VSSLSTGLSTTQSDVASLSTGLSTTNSNLASLSTAVSNGGIHTNGAGGTSMGPGADASGSNSTAVGGAAS
ASGANATALGQASNASGNNSTALGQASSASGSGSTAVGQGASASGDGSSAFGQGAIASGTNSTALGAHST
ASAPNSVAIGANSVASAPNTVSFGSQGHERRLTNVAPGMDGTDAANMSQLWGVQSSVDQAARRAYSGVAA
ATALTMIPEVDPGKTIAVGIGAGSYQGYSASAIGVSVRFSDNLKAKLGMGISSQGSTYGGGISYQW
Molecule Role Virulence factor
Molecule Role Annotation MUTATION: boaB (BPSL1705) mutant has reduced attachment to respiratory cells, and a boaA boaB double mutant was attenuated in murine macrophages (Balder et al., 2010).
References
Balder et al., 2010: Balder R, Lipski S, Lazarus JJ, Grose W, Wooten RM, Hogan RJ, Woods DE, Lafontaine ER. Identification of Burkholderia mallei and Burkholderia pseudomallei adhesins for human respiratory epithelial cells. BMC microbiology. 2010; 10; 250. [PubMed: 20920184].