2017
DOI: 10.1093/sysbio/syw105
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Phylogenomics from Whole Genome Sequences Using aTRAM

Abstract: Novel sequencing technologies are rapidly expanding the size of data sets that can be applied to phylogenetic studies. Currently the most commonly used phylogenomic approaches involve some form of genome reduction. While these approaches make assembling phylogenomic data sets more economical for organisms with large genomes, they reduce the genomic coverage and thereby the long-term utility of the data. Currently, for organisms with moderate to small genomes ($<$1000 Mbp) it is feasible to sequence the entire … Show more

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Cited by 53 publications
(83 citation statements)
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“…Pipelines also differ in terms of which part of the postsequencing workflow they cover. Some pipelines are particularly focused on the specific steps of assembly and recovery of longer compound sequences from the read data (sequence engineering), such as aTRAM (Allen et al, 2017) and HYBPIPER (Johnson et al, 2016). Other pipelines are more focused on guiding users through the complete process from cleaning raw sequencing reads to producing data structures that can be readily used for phylogenetic inference (e.g.…”
Section: Analytical Pipelinesmentioning
confidence: 99%
“…Pipelines also differ in terms of which part of the postsequencing workflow they cover. Some pipelines are particularly focused on the specific steps of assembly and recovery of longer compound sequences from the read data (sequence engineering), such as aTRAM (Allen et al, 2017) and HYBPIPER (Johnson et al, 2016). Other pipelines are more focused on guiding users through the complete process from cleaning raw sequencing reads to producing data structures that can be readily used for phylogenetic inference (e.g.…”
Section: Analytical Pipelinesmentioning
confidence: 99%
“…Both types of lice also form monophyletic groups within their respective genera (Johnson et al, ), which makes interpretation of evolutionary history straightforward. Obtaining genomic‐level data is very feasible for these lice, as recently published genomic studies on avian lice have established pipelines for assembling data appropriate for both phylogenetic and population genetic analysis (Allen et al, ; Boyd et al, ; Sweet et al, ).…”
Section: Introductionmentioning
confidence: 99%
“…We next used custom scripts written in Perl and Python to keep only the contigs from the last atram iteration (available at https://github.com/juliema/phylogenomics_scripts; “getlastiteration.pl”), compare and align them to the translated exon sequences for the reference H. tartakovskyi using exonerate 2.2.0 (Slater & Birney, ) and stitch together any exons that were broken into multiple contigs (as described in Allen et al, ; https://github.com/juliema/exon_stitching). Because atram performs iterative assemblies that can extend outward from the original reference sequence, the last iteration is most likely to have the most complete, longest contigs.…”
Section: Methodsmentioning
confidence: 99%