Large-scale genome arrangement plays an important role in bacterial genome evolution. A substantial number of genes can be inserted into, deleted from, or rearranged within genomes during evolution. Detecting or inferring gene insertions/deletions is of interest because such information provides insights into bacterial genome evolution and speciation. However, efficient inference of genome events is difficult because genome comparisons alone do not generally supply enough information to distinguish insertions, deletions, and other rearrangements. In this study, homologous genes from the complete genomes of 13 closely related bacteria were examined. The presence or absence of genes from each genome was cataloged, and a maximum likelihood met...
Abstract. Although bacterial species display wide variation in their overall GC contents, the genes ...
Abstract Background Comparison of complete genomes of Bacteria and Archaea shows that gene content v...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Abstract Background Large scale genome arrangement, such as whole gene insertion/deletion, plays an ...
Abstract Background Bacterial genomes develop new mechanisms to tide them over the imposing conditio...
Explaining the diversity of gene repertoires has been a major problem in modern evolutionary biology...
genome evolution; lateral gene transfer; interaction networks; gene inventories. Bacteria experience...
Not all parts of bacterial genomes have evolved at the same rate. Among related genomes, some gene s...
BACKGROUND:Laterally transferred genes have often been identified on the basis of compositional feat...
Lateral Gene Transfer (LGT) has long been known to be a major contributor to genome innovation and e...
Abstract: The patchy distribution of genes across the prokaryotes may be caused by multiple gene los...
Gene loss by deletion is a common evolutionary process in bacteria, as exemplified by bacteria with ...
Large-scale DNA deletions and gene loss are pervasive in bacterial genomes. This observation raises ...
Contains fulltext : 186579.pdf (publisher's version ) (Open Access)In the course o...
Insertion sequences (IS) are the simplest and most abundant form of transposable DNA found in bacter...
Abstract. Although bacterial species display wide variation in their overall GC contents, the genes ...
Abstract Background Comparison of complete genomes of Bacteria and Archaea shows that gene content v...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...
Abstract Background Large scale genome arrangement, such as whole gene insertion/deletion, plays an ...
Abstract Background Bacterial genomes develop new mechanisms to tide them over the imposing conditio...
Explaining the diversity of gene repertoires has been a major problem in modern evolutionary biology...
genome evolution; lateral gene transfer; interaction networks; gene inventories. Bacteria experience...
Not all parts of bacterial genomes have evolved at the same rate. Among related genomes, some gene s...
BACKGROUND:Laterally transferred genes have often been identified on the basis of compositional feat...
Lateral Gene Transfer (LGT) has long been known to be a major contributor to genome innovation and e...
Abstract: The patchy distribution of genes across the prokaryotes may be caused by multiple gene los...
Gene loss by deletion is a common evolutionary process in bacteria, as exemplified by bacteria with ...
Large-scale DNA deletions and gene loss are pervasive in bacterial genomes. This observation raises ...
Contains fulltext : 186579.pdf (publisher's version ) (Open Access)In the course o...
Insertion sequences (IS) are the simplest and most abundant form of transposable DNA found in bacter...
Abstract. Although bacterial species display wide variation in their overall GC contents, the genes ...
Abstract Background Comparison of complete genomes of Bacteria and Archaea shows that gene content v...
In the course of evolution, genomes are shaped by processes like gene loss, gene duplication, horizo...