AI Article Synopsis
- Single Nucleotide Polymorphisms (SNPs) are key for genetics studies due to their high abundance and suitability for large-scale analysis, but previous research on wheat primarily focused on gene-coding areas, neglecting the majority of the genome.
- The study utilized whole-genome resequencing data from eight wheat lines to identify 3.3 million SNPs across various genomic regions, with significant distribution: 49% on the B-genome, 41% on the A-genome, and 10% on the D-genome.
- The TaBW280K high-throughput genotyping array, developed from this research, contains 280,226 SNPs and effectively supports genetic diversity analysis and breeding, proven
Article Abstract
Because of their abundance and their amenability to high-throughput genotyping techniques, Single Nucleotide Polymorphisms (SNPs) are powerful tools for efficient genetics and genomics studies, including characterization of genetic resources, genome-wide association studies and genomic selection. In wheat, most of the previous SNP discovery initiatives targeted the coding fraction, leaving almost 98% of the wheat genome largely unexploited. Here we report on the use of whole-genome resequencing data from eight wheat lines to mine for SNPs in the genic, the repetitive and non-repetitive intergenic fractions of the wheat genome. Eventually, we identified 3.3 million SNPs, 49% being located on the B-genome, 41% on the A-genome and 10% on the D-genome. We also describe the development of the TaBW280K high-throughput genotyping array containing 280,226 SNPs. Performance of this chip was examined by genotyping a set of 96 wheat accessions representing the worldwide diversity. Sixty-nine percent of the SNPs can be efficiently scored, half of them showing a diploid-like clustering. The TaBW280K was proven to be a very efficient tool for diversity analyses, as well as for breeding as it can discriminate between closely related elite varieties. Finally, the TaBW280K array was used to genotype a population derived from a cross between Chinese Spring and Renan, leading to the construction a dense genetic map comprising 83,721 markers. The results described here will provide the wheat community with powerful tools for both basic and applied research.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5749704 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0186329 | PLOS |
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