Abstract
Huge efforts have been invested in the last two decades to dissect the genetic bases of complex traits including yields of many crop plants, through quantitative trait locus (QTL) analyses. However, almost all the studies were based on linkage maps constructed using low-throughput molecular markers, e.g. restriction fragment length polymorphisms (RFLPs) and simple sequence repeats (SSRs), thus are mostly of low density and not able to provide precise and complete information about the numbers and locations of the genes or QTLs controlling the traits. In this study, we constructed an ultra-high density genetic map based on high quality single nucleotide polymorphisms (SNPs) from low-coverage sequences of a recombinant inbred line (RIL) population of rice, generated using new sequencing technology. The quality of the map was assessed by validating the positions of several cloned genes including GS3 and GW5/qSW5, two major QTLs for grain length and grain width respectively, and OsC1, a qualitative trait locus for pigmentation. In all the cases the loci could be precisely resolved to the bins where the genes are located, indicating high quality and accuracy of the map. The SNP map was used to perform QTL analysis for yield and three yield-component traits, number of tillers per plant, number of grains per panicle and grain weight, using data from field trials conducted over years, in comparison to QTL mapping based on RFLPs/SSRs. The SNP map detected more QTLs especially for grain weight, with precise map locations, demonstrating advantages in detecting power and resolution relative to the RFLP/SSR map. Thus this study provided an example for ultra-high density map construction using sequencing technology. Moreover, the results obtained are helpful for understanding the genetic bases of the yield traits and for fine mapping and cloning of QTLs.
Highlights
Natural variations of complex traits are usually controlled by multiple genetic factors, each of which is regarded as a quantitative trait locus (QTL)
The single nucleotide polymorphisms (SNPs) genotype for each recombinant inbred line (RIL) was obtained using the hidden Markov model (HMM) analysis followed by imputation [15]
Advantages of sequence-based genotyping We have shown that the sequence-based genotyping method can provide an ultra-high density genetic map of high quality SNPs, based on low-coverage sequences of a rice RIL population
Summary
Natural variations of complex traits are usually controlled by multiple genetic factors, each of which is regarded as a quantitative trait locus (QTL). Grain yield of rice per plant is composed of three components: number of tillers (panicles) per plant, number of grains per panicle and grain weight. All these traits are quantitatively inherited and regulated by multiple genes each having an apparently small effect that is sensitive to environmental modifications. A large number of QTLs controlling yield traits have been genetically mapped, and some of them have been cloned. A limitation associated with the previous studies is that all the analyses were based on linkage maps using restriction fragment length polymorphism (RFLP) and simple sequence repeat (SSR) markers in which many regions were sparsely represented, it is not possible to obtain precise and complete information about the numbers and locations of the QTLs
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