Abstract
Improvement of grain weight and size is an important objective for high-yield wheat breeding. In this study, 174 recombinant inbred lines (RILs) derived from the cross between Jing 411 and Hongmangchun 21 were used to construct a high-density genetic map by specific locus amplified fragment sequencing (SLAF-seq). Three mapping methods, including inclusive composite interval mapping (ICIM), genome-wide composite interval mapping (GCIM), and a mixed linear model performed with forward–backward stepwise (NWIM), were used to identify QTLs for thousand grain weight (TGW), grain width (GW), and grain length (GL). In total, we identified 30, 15, and 18 putative QTLs for TGW, GW, and GL that explain 1.1–33.9%, 3.1%–34.2%, and 1.7%–22.8% of the phenotypic variances, respectively. Among these, 19 (63.3%) QTLs for TGW, 10 (66.7%) for GW, and 7 (38.9%) for GL were consistent with those identified by genome-wide association analysis in 192 wheat varieties. Five new stable QTLs, including 3 for TGW (Qtgw.ahau-1B.1, Qtgw.ahau-4B.1, and Qtgw.ahau-4B.2) and 2 for GL (Qgl.ahau-2A.1 and Qgl.ahau-7A.2), were detected by the three aforementioned mapping methods across environments. Subsequently, five cleaved amplified polymorphic sequence (CAPS) markers corresponding to these QTLs were developed and validated in 180 Chinese mini-core wheat accessions. In addition, 19 potential candidate genes for Qtgw.ahau-4B.2 in a 0.31-Mb physical interval were further annotated, of which TraesCS4B02G376400 and TraesCS4B02G376800 encode a plasma membrane H+-ATPase and a serine/threonine-protein kinase, respectively. These new QTLs and CAPS markers will be useful for further marker-assisted selection and map-based cloning of target genes.
Highlights
Wheat (Triticum aestivum L.) is one of the most important cereal crops and provides approximately 20% of the dietary calories for humans worldwide
The aims of this study were to (1) identify a large number of SNP markers to construct a highdensity genetic map (HDGM) by SLAF-seq in an recombinant inbred lines (RILs) population derived from a cross between high-thousand grain weight (TGW) cultivar Jing 411 and low-TGW landrace Hongmangchun 21, (2) identify QTLs for grain weight and size using SNP markers, and (3) design cleaved amplified polymorphism sequences (CAPS) markers closely linked to new stable QTLs for grain weight and size and validate them in 192 wheat varieties and 180 Chinese mini-core wheat accessions
The results indicated that 19 (63.3%) of 30 QTLs for TGW, 10 (66.7%) of 15 for grain width (GW), and 7 (38.9%) of 18 for grain length (GL) detected in JH-RILs were consistent with those identified by genome-wide association studies (GWAS) in 192 varieties
Summary
Wheat (Triticum aestivum L.) is one of the most important cereal crops and provides approximately 20% of the dietary calories for humans worldwide. TaSAP-A1 belongs to a gene family of stress-associated proteins significantly related to TGW, number of grains per spike, and spike length (Chang et al, 2013). Cheng et al (2020) isolated the Tasg-D1 gene, which encodes serine/threonine protein kinase glycogen synthase kinase 3 (STKc_GSK3), leading to formation of round grains in Indian dwarf wheat (Triticum sphaerococcum Perc.). TaSDIR1-4A, which encodes a RING-type E3 ubiquitin ligase is associated with TGW in well-watered and heat-stress environments (Wang J. et al, 2020). TaTGW6 (Hu et al, 2016a), Tabas (Zhu et al, 2016), TaCKX4 (Chang et al, 2015), TaFlo (Sajjad et al, 2017), TaTGW-7A (Hu et al, 2016b), TaCYP78A3 (Ma M. et al, 2015), and TaGL3 (Yang et al, 2019a) are significantly associated with grain weight or size. Identification and validation of more QTLs for grainrelated traits will promote our understanding of the genetic basis of the two traits, and accelerate the process of pyramiding favorable alleles in high-yield wheat breeding
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