Abstract
Seed weight and number ultimately determine seed yield. Arabidopsis seed number comprised of silique number and seed number per silique (SNS). Comparing seed development and weight, determinants of seed number remain largely uncharacterized. In this study, taking advantage of 107 available Arabidopsis accessions, genome-wide association analysis (GWAS) was employed to identify the candidate genes regulating SNS. GWAS-based genotype and phenotype association analysis identified 38 most significant SNPs marker sites that were mapped to specific chromosomal positions and allowed us to screen for dozens of candidate genes. One of them (PIN3) was selected for functional validation based on gene expression analysis. It is a positive regulator of Arabidopsis SNS. Although silique length of PIN3 loss of function mutant was not significantly changed, its SNS and seed density (SD) were significantly reduced as compared with the wild type. Notably, PIN3 overexpression lines driven by a placenta-specific promoter STK exhibited significantly shorter siliques, slightly reduced SNS, but significant increased SD compared with wild type, suggesting that PIN3 positively regulates SD through inducing ovule primordia initiation regardless of the placenta size. Ovule initiation determines the maximal possibility of SNS, and new genes and mechanism regulating SNS through modulating ovule initiation is worth further investigated.
Highlights
Seeds are reproductive organs of gymnosperms and angiosperms plants, and are the main harvest in agricultural crops [1]
Seed number and seed weight (Thousand Grain Weight, TGW) is reported to be negatively correlated with seed number in many crops because of limited space and nutrition [47,48], and both seed weight and number contribute to seed yield
There are reports showing that the seed number and weight are not absolutely negatively correlated [2,3,16], suggesting that increased seed number would be a new way to enhance seed yield if seed weight would not be significantly decreased
Summary
Seeds are reproductive organs of gymnosperms and angiosperms plants, and are the main harvest in agricultural crops [1]. Silique number is determined by fertilized flower number, and the seed number produced by each flower is determined by many factors Factors, such as floral organ development, ovule identity, ovule primordia initiation, male gametophyte and female gametophyte development, double fertilization, and zygotic development all affect the final SNS, and each of these processes is regulated by different genes and signaling pathways [5,6,7,8,9,10,11,12]. There are two different ways for increasing SNS, one is keeping the normal process of development and preventing abortion of ovule and seed; the other is increasing ovule initiation to maximize the possible SNS. PIN3, together with other genes discovered in this study, provides genetic resources for the breeding of high-yield crops in agricultural production
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