Abstract
In developing countries, the sweetpotato, Ipomoea batatas (L.) Lam. [Formula: see text], is an important autopolyploid species, both socially and economically. However, quantitative trait loci (QTL) mapping has remained limited due to its genetic complexity. Current fixed-effect models can fit only a single QTL and are generally hard to interpret. Here, we report the use of a random-effect model approach to map multiple QTL based on score statistics in a sweetpotato biparental population ('Beauregard' × 'Tanzania') with 315 full-sibs. Phenotypic data were collected for eight yield component traits in six environments in Peru, and jointly adjusted means were obtained using mixed-effect models. An integrated linkage map consisting of 30,684 markers distributed along 15 linkage groups (LGs) was used to obtain the genotype conditional probabilities of putative QTL at every centiMorgan position. Multiple interval mapping was performed using our R package QTLpoly and detected a total of 13 QTL, ranging from none to four QTL per trait, which explained up to 55% of the total variance. Some regions, such as those on LGs 3 and 15, were consistently detected among root number and yield traits, and provided a basis for candidate gene search. In addition, some QTL were found to affect commercial and noncommercial root traits distinctly. Further best linear unbiased predictions were decomposed into additive allele effects and were used to compute multiple QTL-based breeding values for selection. Together with quantitative genotyping and its appropriate usage in linkage analyses, this QTL mapping methodology will facilitate the use of genomic tools in sweetpotato breeding as well as in other autopolyploids.
Highlights
Based on a model in Kempthorne (1955), an interval mapping (IM) method has been proposed as a first approach to map quantitative trait loci (QTL) in autotetraploids in a form of a regression weighted by the conditional probabilities (Hackett et al 2001), which turned out to be expanded for an autohexaploid species
QTL POLY software used for QTL mapping analyses and simulations is available at GitHub
The I. trifida itf03g02930 gene encodes a homolog of SKU5, a glycosyl phosphatidylinositol modified protein in Arabidopsis thaliana with similarity to multiple-copper oxidases that are localized to the plasma membrane and cell wall
Summary
We ran the fixed-effect interval mapping (FEIM, Model 1) with the same simulated traits using different genome-wide significance levels of (0.20, 0.15, 0.10 and 0.05) based on 1,000 permutations as LOD thresholds to declare significant QTLs (Churchill and Doerge 1994). Fixed-effect interval mapping (FEIM) used different genome-wide significance LOD thresholds (0.20, 0.15, 0.10, 0.05) based on 1,000 permutation tests.
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