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Genetic Mapping of Millions of SNPs in Safflower (Carthamus tinctorius L.) via Whole-Genome Resequencing (2016)

Bowers, J. E., Pearl, S. A., Burke, J. M.

Genetics Society of America (GSA)

In: G3: Genes, Genomes, Genetics

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Publication Date: 2016-07-08

Description: Accurate assembly of complete genomes is facilitated by very high density genetic maps. We performed low-coverage, whole-genome shotgun sequencing on 96 F 6 recombinant inbred lines (RILs) of a cross between safflower ( Carthamus tinctorius L.) and its wild progenitor ( C. palaestinus Eig). We also produced a draft genome assembly of C. tinctorius covering 866 million bp (~two-thirds) of the expected 1.35 Gbp genome after sequencing a single, short insert library to ~21 x depth. Sequence reads from the RILs were mapped to this genome assembly to facilitate SNP identification, and the resulting polymorphisms were used to construct a genetic map. The resulting map included 2,008,196 genetically located SNPs in 1178 unique positions. A total of 57,270 scaffolds, each containing five or more mapped SNPs, were anchored to the map. This resulted in the assignment of sequence covering 14% of the expected genome length to a genetic position. Comparison of this safflower map to genetic maps of sunflower and lettuce revealed numerous chromosomal rearrangements, and the resulting patterns were consistent with a whole-genome duplication event in the lineage leading to sunflower. This sequence-based genetic map provides a powerful tool for the assembly of a low-cost draft genome of safflower, and the same general approach is expected to work for other species.

Electronic ISSN: 2160-1836

Topics: Biology

Published by Genetics Society of America (GSA)

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Transposome: a toolkit for annotation of transposable element families from unassembled sequence reads (2015)

Staton, S. E., Burke, J. M.

Oxford University Press

In: Bioinformatics

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Publication Date: 2015-05-27

Description: Motivation: Transposable elements (TEs) can be found in virtually all eukaryotic genomes and have the potential to produce evolutionary novelty. Despite the broad taxonomic distribution of TEs, the evolutionary history of these sequences is largely unknown for many taxa due to a lack of genomic resources and identification methods. Given that most TE annotation methods are designed to work on genome assemblies, we sought to develop a method to provide a fine-grained classification of TEs from DNA sequence reads. Here, we present a toolkit for the efficient annotation of TE families from low-coverage whole-genome shotgun (WGS) data, enabling the rapid identification of TEs in a large number of taxa. We compared our software, Transposome, with other approaches for annotating repeats from WGS data, and we show that it offers significant improvements in run time and produces more precise estimates of genomic repeat abundance. Transposome may also be used as a general toolkit for working with Next Generation Sequencing (NGS) data, and for constructing custom genome analysis pipelines. Availability and implementation: The source code for Transposome is freely available ( http://sestaton.github.io/Transposome ), implemented in Perl and is supported on Linux. Contact: statonse@biodiversity.ubc.ca Supplementary information: Supplementary data are available at Bioinformatics online.

Print ISSN: 1367-4803

Electronic ISSN: 1460-2059

Topics: Biology , Computer Science , Medicine

Published by Oxford University Press

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Critical Evaluation of Thermochemical Properties of C1–C4 Species: Updated Group-Contributions to Estimate Thermochemical Properties (2015)

S. M. Burke, J. M. Simmie and H. J. Curran

American Institute of Physics (AIP)

In: Journal of Physical and Chemical Reference Data

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Publication Date: 2015-01-06

Description: A review of literature on enthalpies of formation and molar entropies for alkanes, alkenes, alcohols, hydroperoxides, and their associated radicals has been compiled and critically evaluated. By comparing literature values, the overall uncertainty in thermochemical properties of small hydrocarbons and oxygenated hydrocarbons can be highlighted. In general, there is good agreement between heat of formation values in the literature for stable species; however, there is greater uncertainty in the values for radical species and for molar entropy values. Updated values for a group-additivity method for the estimation of thermochemical properties based on the evaluated literature data are proposed. The new values can be used to estimate thermochemical data for larger, combustion-relevant species for which no calculations or measurements currently exist, with increased confidence.

Print ISSN: 0047-2689

Electronic ISSN: 1529-7845

Topics: Chemistry and Pharmacology , Physics

Published by American Institute of Physics (AIP)

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