AI Article Synopsis
- The adaptation of domesticated species, like sorghum, to various agroclimatic regions results in high trait diversity and complex population structures, making it challenging to map adaptive traits.
- A nested association mapping (NAM) population was developed using 10 diverse global lines and an elite reference line, yielding 2214 recombinant inbred lines that captured roughly 70% of global SNP variation in sorghum.
- The NAM population was effective in identifying genetic factors for adaptive traits such as flowering time and plant height, showing improved trait mapping capabilities compared to traditional methods, with significant findings in genetic variance contributions and enhanced QTL detection power.
Article Abstract
Adaptation of domesticated species to diverse agroclimatic regions has led to abundant trait diversity. However, the resulting population structure and genetic heterogeneity confounds association mapping of adaptive traits. To address this challenge in sorghum [ (L.) Moench]-a widely adapted cereal crop-we developed a nested association mapping (NAM) population using 10 diverse global lines crossed with an elite reference line RTx430. We characterized the population of 2214 recombinant inbred lines at 90,000 SNPs using genotyping-by-sequencing. The population captures ∼70% of known global SNP variation in sorghum, and 57,411 recombination events. Notably, recombination events were four- to fivefold enriched in coding sequences and 5' untranslated regions of genes. To test the power of the NAM population for trait dissection, we conducted joint linkage mapping for two major adaptive traits, flowering time and plant height. We precisely mapped several known genes for these two traits, and identified several additional QTL. Considering all SNPs simultaneously, genetic variation accounted for 65% of flowering time variance and 75% of plant height variance. Further, we directly compared NAM to genome-wide association mapping (using panels of the same size) and found that flowering time and plant height QTL were more consistently identified with the NAM population. Finally, for simulated QTL under strong selection in diversity panels, the power of QTL detection was up to three times greater for NAM association mapping with a diverse panel. These findings validate the NAM resource for trait mapping in sorghum, and demonstrate the value of NAM for dissection of adaptive traits.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5499173 | PMC |
| http://dx.doi.org/10.1534/genetics.116.198499 | DOI Listing |
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