SecReT6
Effector Protein ID: 83720200
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SecReT6 ID115
T6SS typeA4b
Gene symbol-
Locus tagBTH_I2691
StrainBurkholderia thailandensis E264
Repliconchromosome I [GenBank: NC_007651] [Browse all T6SS(s) in this replicon]
Location [Strand]3077299..3080322 [-]
Producthypothetical protein
Effector typeProtein
Homologous effectorBTH_I2691
Description
UniProt IDQ2SV43
KEGG IDbte:BTH_I2691
PDB IDNA
Domain hit(s) vs Pfam NA
Protein Sequence: 1007 a.a.     [Download]
>gi|83720200|ref|YP_443206.1| hypothetical protein BTH_I2691 [Burkholderia thailandensis E264]
MAGSDDRCDVCKLQGLAVYPSRYAVVPKTFDAPALGPFDDKSVTGVALTQSKYGLRQLREGFVYLLYESG
PRGPFHWEVYSVAPDGTLWKQLDTASVKRVSAPQACQRKGHSASRVQYLVIEKPHQCGNVWIAFSEWPWS
QDTVKRYGGNDANAASLRKKRMQLIEPSKWISAPKPGPYSAPLTEANLQRVIEHAPAVATTAKGEPVGLL
STELPEAVSYGDLGAFRDARLQICTSRYPWTMRNKAAAGAKLSPAAETVKHAEGSTRNAKGAPCVPMMVA
LWDGIGITHELNGFRNDAQARFLQYCDEQALRINALQWIDQAKLAVEAGARRKATFDHSPATPGSTSWYY
PDAVAKQKAAAKTPADQRFWSDYQWMGENGVPPSYARQITQFRAAPSSPAYQDAMARARKYVEAKPRIEQ
DRAKKIDQDTVTGTEHDWAKYREKLADDTSGKKGASNGNVKRIDVFRILYQRIQDQKQALLAQRTADVAN
WLDAPLFLAALEDYHEENGFDGIAFEFAIFHAIVGLSAERSGVAALNKLIDRLDPTKPESLVWRMVASNQ
KKSKEALKLALAKAEANKNVVLETVGEGFNVFAETSEKLKKFAEFYTKMDEMSKQAKQLNAIDQAMHDKG
VDKVVVSVGHLVFQRFPYKGADLMGLGNGVSEAIIKSVFMLRVGIKSEEVKDLVLQQAKVEPQLRSKFLG
EYQAQRRMGRSSPEAFRMATSAVAKTEGSNVLANRWSKLKVRESVGLVGVIGLIEVIGLIKLINKSDKEG
RDWAELGGACFSVAGAAAEVALKPLEAFKFEEGAKNLKIFGGYCGALAAGVGTTLDTLDAIEKWGSGERL
VSVLYFMKGMLGFGTTMAFGLTALSSSAPVFERLASNITGRQIRIVILDRIGQGITDAAARKVAIAAGER
VATVAAERVGAMVVGRGLLIMASWQIQVAIISLQFVIWYFGNDDLQNSIKDSIFGVGGKYKNTEDLKKQN
EAFDKALVAVGFKDDTASDKEEAKSHR
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Nucleotide Sequence: 3024 bp     [Download]
>gi|83718394|ref|NC_007651.1|:c3080322-3077299 Burkholderia thailandensis E264 chromosome I, complete sequence
ATGGCGGGAAGCGACGATCGTTGCGACGTTTGCAAGCTTCAGGGGCTGGCGGTCTATCCGTCGCGCTACG
CGGTGGTGCCAAAAACCTTCGACGCGCCAGCGCTCGGACCATTCGACGACAAGAGCGTCACGGGCGTGGC
GCTCACGCAAAGCAAGTACGGCTTGCGTCAACTCCGCGAGGGCTTCGTCTATTTGCTCTACGAATCGGGC
CCTCGCGGCCCGTTTCATTGGGAAGTGTATTCAGTCGCGCCGGACGGCACGCTCTGGAAGCAGCTGGATA
CGGCGAGCGTGAAGCGGGTGAGCGCTCCACAGGCTTGTCAGCGAAAGGGGCATAGCGCGTCGCGTGTCCA
GTATCTCGTCATCGAGAAACCACATCAGTGCGGCAATGTCTGGATCGCGTTCAGCGAATGGCCGTGGAGC
CAAGACACGGTTAAGCGTTACGGCGGCAACGACGCGAACGCCGCGAGTCTGCGCAAGAAACGCATGCAAC
TGATCGAGCCTTCGAAGTGGATATCGGCGCCGAAGCCGGGGCCGTATTCGGCGCCGCTGACGGAGGCCAA
TCTGCAGCGTGTCATCGAACACGCGCCTGCTGTCGCGACCACGGCGAAAGGCGAACCCGTCGGCTTGCTC
AGCACGGAACTGCCGGAGGCGGTCAGCTACGGGGACTTGGGCGCGTTTCGCGACGCTCGCCTGCAAATTT
GTACGTCGCGCTACCCATGGACCATGCGCAACAAGGCTGCGGCGGGTGCAAAGCTGAGCCCGGCCGCGGA
AACGGTCAAGCACGCGGAGGGCAGTACCCGAAACGCAAAGGGTGCGCCGTGCGTGCCGATGATGGTGGCG
CTGTGGGACGGCATCGGGATCACGCACGAACTGAACGGCTTCCGCAACGATGCGCAGGCGCGCTTTCTGC
AGTATTGCGACGAGCAGGCGCTCCGAATCAACGCGCTGCAATGGATCGATCAGGCGAAGCTCGCGGTGGA
AGCCGGTGCGCGCAGAAAGGCGACGTTCGATCATAGCCCGGCCACGCCGGGCAGCACGAGCTGGTATTAC
CCGGATGCCGTCGCGAAGCAAAAGGCGGCGGCGAAGACTCCGGCGGATCAGCGGTTCTGGAGCGACTATC
AGTGGATGGGGGAAAACGGCGTACCGCCGTCATACGCCAGACAGATCACGCAGTTTCGCGCGGCGCCGTC
TTCGCCGGCCTATCAGGATGCGATGGCGAGAGCGCGCAAGTATGTCGAGGCCAAGCCGAGAATCGAGCAG
GATCGCGCGAAAAAGATCGACCAGGACACCGTTACCGGAACCGAGCACGATTGGGCGAAGTATCGCGAGA
AATTGGCGGACGATACGTCGGGCAAGAAGGGGGCGTCCAACGGGAACGTCAAACGTATCGACGTCTTTCG
CATCCTGTACCAGCGTATCCAGGACCAGAAGCAAGCGTTGCTCGCGCAGCGGACGGCGGATGTCGCGAAC
TGGCTGGATGCGCCGCTTTTCCTGGCGGCGCTGGAGGATTATCACGAAGAGAACGGCTTCGACGGGATTG
CGTTCGAGTTTGCCATTTTCCATGCGATCGTCGGATTGAGCGCCGAGCGAAGCGGCGTGGCCGCATTGAA
CAAGCTGATCGATCGCCTGGATCCGACGAAGCCGGAGAGCCTCGTTTGGCGAATGGTGGCGAGCAACCAG
AAGAAATCGAAGGAAGCGCTGAAGCTTGCGCTCGCGAAGGCGGAGGCGAACAAGAACGTCGTACTGGAGA
CGGTCGGCGAAGGATTCAACGTATTCGCGGAAACGTCCGAAAAGCTGAAGAAGTTCGCCGAGTTTTACAC
GAAGATGGACGAAATGAGCAAGCAGGCCAAACAGCTCAACGCCATTGATCAGGCAATGCACGACAAGGGC
GTCGACAAGGTGGTCGTCAGTGTCGGGCATCTTGTTTTTCAGCGCTTTCCGTACAAGGGGGCCGATTTGA
TGGGCCTTGGAAACGGCGTGAGCGAGGCGATCATCAAGTCCGTGTTCATGCTGCGGGTCGGCATCAAGAG
CGAAGAGGTGAAGGACCTCGTCTTGCAGCAAGCCAAGGTGGAGCCGCAGCTTCGGAGCAAGTTCCTCGGA
GAGTACCAGGCGCAGCGCCGAATGGGACGCAGTTCGCCGGAAGCCTTCCGGATGGCCACGTCGGCTGTTG
CCAAGACCGAAGGCTCGAACGTGCTGGCCAATCGCTGGAGCAAGCTCAAGGTGCGCGAGAGTGTCGGCCT
TGTGGGCGTGATCGGGCTGATCGAAGTGATCGGGTTGATCAAGCTGATTAACAAGAGCGACAAGGAAGGG
CGGGATTGGGCTGAATTGGGCGGCGCATGTTTTTCGGTGGCGGGCGCTGCGGCGGAGGTTGCGCTCAAAC
CTCTGGAAGCATTCAAGTTTGAAGAAGGAGCCAAGAATCTGAAGATTTTTGGTGGGTATTGCGGGGCCCT
GGCTGCTGGAGTAGGGACGACTTTGGATACCTTGGACGCCATAGAAAAATGGGGAAGCGGTGAAAGACTT
GTTAGTGTTCTTTACTTCATGAAGGGCATGCTCGGGTTTGGCACGACAATGGCGTTTGGCTTGACGGCGT
TGAGCTCATCCGCACCGGTTTTTGAACGTCTTGCGTCCAATATCACTGGGAGGCAGATTCGTATCGTTAT
TCTCGATCGGATCGGTCAAGGTATCACTGACGCAGCGGCACGTAAGGTCGCGATAGCAGCCGGAGAGCGA
GTCGCAACCGTAGCAGCAGAGCGAGTTGGGGCAATGGTGGTGGGCAGAGGTCTGCTGATTATGGCTAGTT
GGCAAATCCAAGTTGCTATTATTTCGCTTCAATTTGTTATTTGGTACTTTGGAAATGATGATCTTCAGAA
TTCAATAAAAGACTCCATTTTTGGGGTTGGCGGGAAATATAAAAATACAGAAGATTTAAAAAAACAGAAT
GAGGCTTTCGATAAAGCCCTGGTGGCTGTTGGGTTTAAGGATGACACTGCTTCTGATAAGGAAGAGGCGA
AATCGCATAGATGA

Reference
(1) Russell AB et al. (2012). A widespread bacterial type VI secretion effector superfamily identified using a heuristic approach. Cell Host Microbe. 11(5):538-49. [PudMed:22607806] experimental in_silico
 
experimental experimental literature
in_silico in silico analysis literature