TY - JOUR
T1 - Pangenome analysis of burkholderia pseudomallei
T2 - Genome evolution preserves gene order despite high recombination rates
AU - Spring-Pearson, Senanu M.
AU - Stone, Joshua K.
AU - Doyle, Adina
AU - Allender, Christopher J.
AU - Okinaka, Richard T.
AU - Mayo, Mark
AU - Broomall, Stacey M.
AU - Hill, Jessica M.
AU - Karavis, Mark A.
AU - Hubbard, Kyle S.
AU - Insalaco, Joseph M.
AU - McNew, Lauren A.
AU - Rosenzweig, C. Nicole
AU - Gibbons, Henry S.
AU - Currie, Bart J.
AU - Wagner, David M.
AU - Keim, Paul
AU - Tuanyok, Apichai
PY - 2015/10/20
Y1 - 2015/10/20
N2 - The pangenomic diversity in Burkholderia pseudomallei is high, with approximately 5.8% of the genome consisting of genomic islands. Genomic islands are known hotspots for recombination driven primarily by site-specific recombination associated with tRNAs. However, recombination rates in other portions of the genome are also high, a feature we expected to disrupt gene order. We analyzed the pangenome of 37 isolates of B. pseudomallei and demonstrate that the pangenome is 'open', with approximately 136 new genes identified with each new genome sequenced, and that the global core genome consists of 4568±16 homologs. Genes associated with metabolism were statistically overrepresented in the core genome, and genes associated with mobile elements, disease, and motility were primarily associated with accessory portions of the pangenome. The frequency distribution of genes present in between 1 and 37 of the genomes analyzed matches well with a model of genome evolution in which 96% of the genome has very low recombination rates but 4% of the genome recombines readily. Using homologous genes among pairs of genomes, we found that gene order was highly conserved among strains, despite the high recombination rates previously observed. High rates of gene transfer and recombination are incompatible with retaining gene order unless these processes are either highly localized to specific sites within the genome, or are characterized by symmetrical gene gain and loss. Our results demonstrate that both processes occur: localized recombination introduces many new genes at relatively few sites, and recombination throughout the genome generates the novel multi-locus sequence types previously observed while preserving gene order.
AB - The pangenomic diversity in Burkholderia pseudomallei is high, with approximately 5.8% of the genome consisting of genomic islands. Genomic islands are known hotspots for recombination driven primarily by site-specific recombination associated with tRNAs. However, recombination rates in other portions of the genome are also high, a feature we expected to disrupt gene order. We analyzed the pangenome of 37 isolates of B. pseudomallei and demonstrate that the pangenome is 'open', with approximately 136 new genes identified with each new genome sequenced, and that the global core genome consists of 4568±16 homologs. Genes associated with metabolism were statistically overrepresented in the core genome, and genes associated with mobile elements, disease, and motility were primarily associated with accessory portions of the pangenome. The frequency distribution of genes present in between 1 and 37 of the genomes analyzed matches well with a model of genome evolution in which 96% of the genome has very low recombination rates but 4% of the genome recombines readily. Using homologous genes among pairs of genomes, we found that gene order was highly conserved among strains, despite the high recombination rates previously observed. High rates of gene transfer and recombination are incompatible with retaining gene order unless these processes are either highly localized to specific sites within the genome, or are characterized by symmetrical gene gain and loss. Our results demonstrate that both processes occur: localized recombination introduces many new genes at relatively few sites, and recombination throughout the genome generates the novel multi-locus sequence types previously observed while preserving gene order.
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U2 - 10.1371/journal.pone.0140274
DO - 10.1371/journal.pone.0140274
M3 - Article
C2 - 26484663
AN - SCOPUS:84949309339
SN - 1932-6203
VL - 10
JO - PLoS ONE
JF - PLoS ONE
IS - 10
M1 - 140274
ER -