TeoNAM: a nested association mapping population for domestication and agronomic trait analysis in maize Article Swipe

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Quantitative trait locus Biology Domestication Inbred strain Family-based QTL mapping Genetics Population Allele Candidate gene Gene mapping Genome-wide association study Association mapping Gene Genetic linkage Single-nucleotide polymorphism Genotype Chromosome Demography Sociology

Qiuyue Chen , Chin Jian Yang , Alessandra M. York , Wei Xue , Lora L. Daskalska , Craig A. DeValk , Kyle W. Krueger , Samuel B. Lawton , Bailey G. Spiegelberg , Jack Schnell , Michael A. Neumeyer , Joseph S. Perry , Aria C. Peterson , Brandon Kim , Laura Bergstrom , Liyan Yang , Isaac C. Barber , Feng Tian , John Doebley ·

YOU? · · 2019 · Open Access · · DOI: https://doi.org/10.1101/647461 · OA: W2946390497

Recombinant inbred lines (RILs) are an important resource for mapping genes controlling complex traits in many species. While RIL populations have been developed for maize, a maize RIL population with multiple teosinte inbred lines as parents has been lacking. Here, we report a teosinte nested association mapping population (TeoNAM), derived from crossing five teosinte inbreds to the maize inbred line W22. The resulting 1257 BC 1 S 4 RILs were genotyped with 51,544 SNPs, providing a high-density genetic map with a length of 1540 cM. On average, each RIL is 15% homozygous teosinte and 8% heterozygous. We performed joint linkage mapping (JLM) and genome-wide association study (GWAS) for 22 domestication and agronomic traits. A total of 255 QTLs from JLM were identified with many of these mapping to known genes or novel candidate genes. TeoNAM is a useful resource for QTL mapping for the discovery of novel allelic variation from teosinte. TeoNAM provides the first report that PROSTRATE GROWTH1 , a rice domestication gene, is also a QTL associated with tillering in teosinte and maize. We detected multiple QTLs for flowering time and other traits for which the teosinte allele contributes to a more maize-like phenotype. Such QTL could be valuable in maize improvement.