Aidan Delaney scite author profile

The emergence of new sequencing technologies has facilitated the use of bacterial whole genome alignments for evolutionary studies and outbreak analyses. These datasets, of increasing size, often include examples of multiple different mechanisms of horizontal sequence transfer resulting in substantial alterations to prokaryotic chromosomes. The impact of these processes demands rapid and flexible approaches able to account for recombination when reconstructing isolates’ recent diversification. Gubbins is an iterative algorithm that uses spatial scanning statistics to identify loci containing elevated densities of base substitutions suggestive of horizontal sequence transfer while concurrently constructing a maximum likelihood phylogeny based on the putative point mutations outside these regions of high sequence diversity. Simulations demonstrate the algorithm generates highly accurate reconstructions under realistically parameterized models of bacterial evolution, and achieves convergence in only a few hours on alignments of hundreds of bacterial genome sequences. Gubbins is appropriate for reconstructing the recent evolutionary history of a variety of haploid genotype alignments, as it makes no assumptions about the underlying mechanism of recombination. The software is freely available for download at github.com/sanger-pathogens/Gubbins, implemented in Python and C and supported on Linux and Mac OS X.

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SNP-sites: rapid efficient extraction of SNPs from multi-FASTA alignments

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et al. 2016

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Rapidly decreasing genome sequencing costs have led to a proportionate increase in the number of samples used in prokaryotic population studies. Extracting single nucleotide polymorphisms (SNPs) from a large whole genome alignment is now a routine task, but existing tools have failed to scale efficiently with the increased size of studies. These tools are slow, memory inefficient and are installed through non-standard procedures. We present SNP-sites which can rapidly extract SNPs from a multi-FASTA alignment using modest resources and can output results in multiple formats for downstream analysis. SNPs can be extracted from a 8.3 GB alignment file (1842 taxa, 22 618 sites) in 267 seconds using 59 MB of RAM and 1 CPU core, making it feasible to run on modest computers. It is easy to install through the Debian and Homebrew package managers, and has been successfully tested on more than 20 operating systems. SNP-sites is implemented in C and is available under the open source license GNU GPL version 3.

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SNP-sites: rapid efficient extraction of SNPs from multi-FASTA alignments

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Taylor

Delaney

et al. 2016

Preprint

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Mobile games to foster the learning of history at archaeological sites

Delaney

2007

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Evaluating and generalizing constraint diagrams

Delaney

2008

Journal of Visual Languages & Computing

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Aidan Delaney

Rapid phylogenetic analysis of large samples of recombinant bacterial whole genome sequences using Gubbins

SNP-sites: rapid efficient extraction of SNPs from multi-FASTA alignments

SNP-sites: rapid efficient extraction of SNPs from multi-FASTA alignments

Mobile games to foster the learning of history at archaeological sites

Evaluating and generalizing constraint diagrams

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