The design, validation, and utility of the "ZJU CottonSNP40K" liquid chip through genotyping by target sequencing.

Genotyping platforms provide robust support for genomics, genetics, and molecular breeding. Given the economic importance of cotton, it is urgent to develop a cotton genotyping platform that features high throughput, precision, efficiency, and cost-effectiveness. Here we reported the development of a liquid SNP chip named "ZJU CottonSNP40K" through genotyping by target sequencing, along with its utility. Representative SNPs of this chip were selected by screening more than 3,828,396 SNPs extracted from the abundance of resequencing data available from nearly 1000 cotton accessions. After strict selection, the final array includes 40,071 core SNPs evenly distributed across 26 chromosomes, 27.64 % of which are within genic regions. Testing on 13 cotton accessions showed the chip has high genotyping efficiency and accuracy. The SNP array was further used to genotype 328 (TM-1 × latifolium)F 2 individuals and a high-density genetic map was constructed for QTL mapping. The genetic map covered 2963.8 cM with an average distance of 0.57 cM, and yielded a total of 116 QTLs associated with ten agricultural traits. As an accurate high-throughput genotyping SNP array, ZJU CottonSNP40K will facilitate cotton functional studies and molecular breeding. • A high throughput, precision, efficiency, and cost-effectiveness cotton liquid SNP chip named "ZJU CottonSNP40K" were developed through genotyping by target sequencing. • A high-density genetic map was constructed that covered 2963.8 cM with an average distance of 0.57 cM. • A total of 116 QTLs associated with ten agricultural traits were detected on the basis of this new constructed genetic map. [ABSTRACT FROM AUTHOR]