Abstract
BackgroundThe process of horizontal gene transfer (HGT) is believed to be widespread in Bacteria and Archaea, but little comparative data is available addressing its occurrence in complete microbial genomes. Collection of high-quality, automated HGT prediction data based on phylogenetic evidence has previously been impractical for large numbers of genomes at once, due to prohibitive computational demands. DarkHorse, a recently described statistical method for discovering phylogenetically atypical genes on a genome-wide basis, provides a means to solve this problem through lineage probability index (LPI) ranking scores. LPI scores inversely reflect phylogenetic distance between a test amino acid sequence and its closest available database matches. Proteins with low LPI scores are good horizontal gene transfer candidates; those with high scores are not.DescriptionThe DarkHorse algorithm has been applied to 955 microbial genome sequences, and the results organized into a web-searchable relational database, called the DarkHorse HGT Candidate Resource . Users can select individual genomes or groups of genomes to screen by LPI score, search for protein functions by descriptive annotation or amino acid sequence similarity, or select proteins with unusual G+C composition in their underlying coding sequences. The search engine reports LPI scores for match partners as well as query sequences, providing the opportunity to explore whether potential HGT donor sequences are phylogenetically typical or atypical within their own genomes. This information can be used to predict whether or not sufficient information is available to build a well-supported phylogenetic tree using the potential donor sequence.ConclusionThe DarkHorse HGT Candidate database provides a powerful, flexible set of tools for identifying phylogenetically atypical proteins, allowing researchers to explore both individual HGT events in single genomes, and large-scale HGT patterns among protein families and genome groups. Although the DarkHorse algorithm cannot, by itself, provide definitive proof of horizontal gene transfer, it is a flexible, powerful tool that can be combined with slower, more rigorous methods in situations where these other methods could not otherwise be applied.
Highlights
The process of horizontal gene transfer (HGT) is believed to be widespread in Bacteria and Archaea, but little comparative data is available addressing its occurrence in complete microbial genomes
The search engine reports lineage probability index (LPI) scores for match partners as well as query sequences, providing the opportunity to explore whether potential HGT donor sequences are phylogenetically typical or atypical within their own genomes
Broad statistical comparisons of horizontal gene transfer are needed across a wide diversity of genomes to understand many biological issues that cannot be addressed by other means
Summary
Broad statistical comparisons of horizontal gene transfer are needed across a wide diversity of genomes to understand many biological issues that cannot be addressed by other means. Model organisms with high or low rates of HGT are needed to identify internal, genome-specific factors, as well as external, environmental factors that control the extent to which HGT occurs. These questions are of interest within an individual organism or taxonomic group, and within particular environments, to understand how HGT has contributed historically to species diversification and adaptation, and predict how it may influence events in the future. Database schema for DarkHorse program execution (IDEF1X format entity relationship diagram). Database schema for the DarkHorse web-interface search engine (IDEF1X format entity relationship diagram).
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