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Multi-model genome-wide association studies of leaf anatomical traits and vein architecture in rice

Supatthra Narawatthana, Yotwarit Phansenee, Bang-On Thammasamisorn, Phanchita Vejchasarn

2023Frontiers in Plant Science23 citationsDOIOpen Access PDF

Abstract

Introduction The anatomy of rice leaves is closely related to photosynthesis and grain yield. Therefore, exploring insight into the quantitative trait loci (QTLs) and alleles related to rice flag leaf anatomical and vein traits is vital for rice improvement. Methods Here, we aimed to explore the genetic architecture of eight flag leaf traits using one single-locus model; mixed-linear model (MLM), and two multi-locus models; fixed and random model circulating probability unification (FarmCPU) and Bayesian information and linkage disequilibrium iteratively nested keyway (BLINK). We performed multi-model GWAS using 329 rice accessions of RDP1 with 700K single-nucleotide polymorphisms (SNPs) markers. Results The phenotypic correlation results indicated that rice flag leaf thickness was strongly correlated with leaf mesophyll cells layer (ML) and thickness of both major and minor veins. All three models were able to identify several significant loci associated with the traits. MLM identified three non-synonymous SNPs near NARROW LEAF 1 (NAL1) in association with ML and the distance between minor veins (IVD) traits. Discussion Several numbers of significant SNPs associated with known gene function in leaf development and yield traits were detected by multi-model GWAS performed in this study. Our findings indicate that flag leaf traits could be improved via molecular breeding and can be one of the targets in high-yield rice development.

Topics & Concepts

BiologyQuantitative trait locusLinkage disequilibriumGenetic architectureSingle-nucleotide polymorphismGenome-wide association studyLocus (genetics)Association mappingGeneticsGenetic associationCandidate geneGeneGenotypeGenetic Mapping and Diversity in Plants and AnimalsRice Cultivation and Yield ImprovementWheat and Barley Genetics and Pathology
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