The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages.
EA Ozer, E Nnah, X Didelot… - Genome Biology & …, 2019 - search.ebscohost.com
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
[PDF][PDF] The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages
EA Ozer, E Nnah, X Didelot, RJ Whitaker… - Genome Biology and …, 2019 - academic.oup.com
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages
EA Ozer, E Nnah, X DIdelot, RJ Whitaker… - Genome biology and …, 2019 - experts.illinois.edu
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
[HTML][HTML] The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages
EA Ozer, E Nnah, X Didelot, RJ Whitaker… - Genome Biology and …, 2019 - ncbi.nlm.nih.gov
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages
EA Ozer, E Nnah, X DIdelot… - Genome biology …, 2019 - scholars.northwestern.edu
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages.
EA Ozer, E Nnah, X Didelot, RJ Whitaker… - Genome Biology and …, 2019 - europepmc.org
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
[PDF][PDF] The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoUþ and exoSþ Lineages
EA Ozer, E Nnah, X Didelot, RJ Whitaker, AR Hauser - pdfs.semanticscholar.org
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
The Population Structure of Pseudomonas aeruginosa Is Characterized by Genetic Isolation of exoU+ and exoS+ Lineages
EA Ozer, E Nnah, X Didelot… - Genome biology …, 2019 - pubmed.ncbi.nlm.nih.gov
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …
The population structure of Pseudomonas aeruginosa is characterized by genetic isolation of exoU+ and exoS+ lineages
EA Ozer, E Nnah, X Didelot… - Genome Biology and …, 2019 - wrap.warwick.ac.uk
The diversification of microbial populations may be driven by many factors including
adaptation to distinct ecological niches and barriers to recombination. We examined the …
adaptation to distinct ecological niches and barriers to recombination. We examined the …