Construction of SNP-Based High-Density Genetic Map Using Genotyping by Sequencing (GBS) and QTL Analysis of Growth Traits in Eucommia ulmoides Oliver

Abstract

Eucommia ulmoides Oliv. (2n = 34), native to China and of a monotypic family and genus, is a multipurpose tree species with high economic, ecological, and social benefits. In this study, an F1 population of 109 progenies and tow parents were used to construct the first high-density genetic map of E. ulmoides via genotyping-by-sequencing (GBS) with single-nucleotide polymorphism (SNP) markers. A total of 191,095 SNPs were obtained, among which the available markers in F1 population were types “hkxhk,” “nnxnp,” and “lmxll” and the three polymorphic markers 35,699, 65,800, and 68,022, respectively. Finally, the map comprised 10,103 SNP markers distributed on 17 linkage groups (LGs) that were consisted with the chromosome haploid number in E. ulmoides (n = 17). The interval genetic map covered 90% of the E. ulmoides genomes, with total genetic distance of 4051.11 cM and average distance between markers of 0.45 cM. The length of LGs varied from 70.42 to 495.49 cM, with the mean size of 238.3 cM. On the other hand, 44 QTLs associated with growth traits were detected on LG02, LG06, LG07, LG08, and LG10, with phenotypical variance ranging from 10.0% to 14.2%. A total of 33 candidate genes were identified, and most of them were related to energy storage, signal transmission, hormones, and metabolic pathways. This study could provide a solid foundation for chromosome assembly and refinement, and the localization of growth-trait QTLs will advance the investigation of forestry breeding efforts in E. ulmoides.