Genome rearrangements have important effects on bacterial phenotypes and influence the evolution of bacterial genomes. Conventional strategies for characterizing rearrangements in bacterial genomes rely on comparisons of sequenced genomes from related species. However, the spectra of spontaneous rearrangements in supposedly homogenous and clonal bacterial populations are still poorly characterized. Here we used 454 pyrosequencing technology and a ‘split mapping ’ computational method to identify unique junction sequences caused by spontaneous genome rearrangements in chemostat cultures of Salmonella enterica Var. Typhimurium LT2. We confirmed 22 unique junction sequences with a junction microhomology more than 10 bp and this led to an estim...
Homologous recombination is an important mechanism directly involved in the repair, organization, an...
Large-scale rearrangements may be important in evolution because they can alter chromosome organizat...
ABSTRACT Large-scale rearrangements may be important in evolution because they can alter chromosome ...
Genome rearrangements have important effects on bacterial phenotypes and influence the evolution of ...
Broad host range serovars of Salmonella enterica have a conserved chromosomal gene order, or arrange...
ABSTRACT Host-specific serovars of Salmonella enterica often have large-scale chromosomal rearrangem...
Genome structure variation has profound impacts on phenotype in organisms ranging from microbes to h...
Abstract Background Genome rearrangement describes gross changes of chromosomal regions, plays an im...
Genome rearrangements have been studied in 30 c-proteobacterial complete genomes by comparing the or...
ABSTRACT Host-specific serovars of Salmonella enterica often have large-scale chromosomal rearrangem...
Analysis of bacterial genomes shows that, whereas diverse species share many genes in common, their ...
Genome plasticity resulting from frequent rearrangement of the bacterial genome is a fascinating but...
The Selection during Niche AdaPtation (SNAP) hypothesis aims to explain how the gene order in bacter...
Genomes evolve not only in base sequence but also in terms of their architecture, defined by gene or...
Host-specific serovars of Salmonella enterica often have large-scale chromosomal rearrangements that...
Homologous recombination is an important mechanism directly involved in the repair, organization, an...
Large-scale rearrangements may be important in evolution because they can alter chromosome organizat...
ABSTRACT Large-scale rearrangements may be important in evolution because they can alter chromosome ...
Genome rearrangements have important effects on bacterial phenotypes and influence the evolution of ...
Broad host range serovars of Salmonella enterica have a conserved chromosomal gene order, or arrange...
ABSTRACT Host-specific serovars of Salmonella enterica often have large-scale chromosomal rearrangem...
Genome structure variation has profound impacts on phenotype in organisms ranging from microbes to h...
Abstract Background Genome rearrangement describes gross changes of chromosomal regions, plays an im...
Genome rearrangements have been studied in 30 c-proteobacterial complete genomes by comparing the or...
ABSTRACT Host-specific serovars of Salmonella enterica often have large-scale chromosomal rearrangem...
Analysis of bacterial genomes shows that, whereas diverse species share many genes in common, their ...
Genome plasticity resulting from frequent rearrangement of the bacterial genome is a fascinating but...
The Selection during Niche AdaPtation (SNAP) hypothesis aims to explain how the gene order in bacter...
Genomes evolve not only in base sequence but also in terms of their architecture, defined by gene or...
Host-specific serovars of Salmonella enterica often have large-scale chromosomal rearrangements that...
Homologous recombination is an important mechanism directly involved in the repair, organization, an...
Large-scale rearrangements may be important in evolution because they can alter chromosome organizat...
ABSTRACT Large-scale rearrangements may be important in evolution because they can alter chromosome ...