Genetic Basis Underlying Correlations Among Growth Duration and Yield Traits Revealed by GWAS in Rice (Oryza sativa L.).

Fengmei Li,Yan Zhao,Zichao Li,Xueqiang Wang,Xiaoyang Zhu,Linran Zhi,Jinjie Li,Muhammad A R Rashid,Shuyang Zhang,Xiaoqian Ma,Hongliang Zhang,Jianyin Xie,Zhanying Zhang,Zhifang Zhang

doi:10.3389/fpls.2018.00650

Abstract

Avoidance of disadvantageous genetic correlations among growth duration and yield traits is critical in developing crop varieties that efficiently use light and energy resources and produce high yields. To understand the genetic basis underlying the correlations among heading date and three major yield traits in rice, we investigated the four traits in a diverse and representative core collection of 266 cultivated rice accessions in both long-day and short-day environments, and conducted the genome-wide association study using 4.6 million single nucleotide polymorphisms (SNPs). There were clear positive correlation between heading date and grain number per panicle, and negative correlation between grain number per panicle and panicle number, as well as different degrees of correlations among other traits in different subspecies and environments. We detected 47 pleiotropic genes in 15 pleiotropic quantitative trait loci (pQTLs), 18 pleiotropic genes containing 37 pleiotropic SNPs in 8 pQTLs, 27 pQTLs with r2 of linkage disequilibrium higher than 0.2, and 39 pairs of interactive genes from 8 metabolic pathways that may contribute to the above phenotypic correlations, but these genetic bases were different for correlations among different traits. Distributions of haplotypes revealed that selection for pleiotropic genes or interactive genes controlling different traits focused on genotypes with weak effect or on those balancing two traits that maximized production but sometimes their utilization strategies depend on the traits and environment. Detection of pQTLs and interactive genes and associated molecular markers will provide an ability to overcome disadvantageous correlations and to utilize the advantageous correlations among traits through marker-assisted selection in breeding.

Highlights

Rice (Oryza sativa L.) is the staple food of a large proportion of the world population
We investigated the significance of effects on related traits of alleles of each pleiotropic Single nucleotide polymorphism (SNP), haplotypes of pleiotropic QTLs (pQTLs), and interactive genes by multiple comparison analysis of GLM in SPSS
The coefficient of variation at SY was higher than that at CS; the phenotypic means for the mini core collection (MCC) indicated longer heading date (HD), higher grain number per panicle (GNP) and PN, and lower kilo-grain weight (KGW) at CS than at SY

Summary

Introduction

Rice (Oryza sativa L.) is the staple food of a large proportion of the world population. Development of elite varieties that use light and soil resources efficiently to produce high yield is an important way to eliminate food shortages resulting from population growth and reductions in the area of arable land (Takeda and Matsuoka, 2008). Genetic Correlation Among Agronomic Traits that produce high yields under conditions of shortened growth duration (Okada et al, 2017). Rice breeders often face the problem of negative correlations among different yield traits (Sandhu et al, 2013; Ranawake and Amarasinghe, 2014), such as grain number per panicle (GNP), panicle number per plant (PN), kilo-grain weight (KGW), and rate of seed setting (Sakamoto and Matsuoka, 2008; Zhao et al, 2016). It is feasible to balance the relationships among traits by breaking constraints and to uncover the genetic basis underlying correlations among HD and yield

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Conclusion