全基因组关联研究确定了控制黑莓采后品质的关键基因座。

Genome-wide association identifies key loci controlling blackberry postharvest quality.

作者信息

Chizk T Mason, Clark John R, Johns Carmen, Nelson Lacy, Ashrafi Hamid, Aryal Rishi, Worthington Margaret L

机构信息

Department of Horticulture, University of Arkansas, Fayetteville, AR, United States.

Department of Horticultural Science, North Carolina State University, Raleigh, NC, United States.

出版信息

Front Plant Sci. 2023 Jun 7;14:1182790. doi: 10.3389/fpls.2023.1182790. eCollection 2023.

DOI:10.3389/fpls.2023.1182790

PMID:37351206

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10282842/

Abstract

INTRODUCTION

Blackberry ( subgenus ) is a soft-fruited specialty crop that often suffers economic losses due to degradation in the shipping process. During transportation, fresh-market blackberries commonly leak, decay, deform, or become discolored through a disorder known as red drupelet reversion (RDR). Over the past 50 years, breeding programs have achieved better fruit firmness and postharvest quality through traditional selection methods, but the underlying genetic variation is poorly understood.

METHODS

We conducted a genome-wide association of fruit firmness and RDR measured in 300 tetraploid fresh-market blackberry genotypes from 2019-2021 with 65,995 SNPs concentrated in genic regions of the reference genome.

RESULTS

Fruit firmness and RDR had entry-mean broad sense heritabilities of 68% and 34%, respectively. Three variants on homologs of polygalacturonase (PG), pectin methylesterase (PME), and glucan endo-1,3-β-glucosidase explained 27% of variance in fruit firmness and were located on chromosomes Ra06, Ra01, and Ra02, respectively. Another PG homolog variant on chromosome Ra02 explained 8% of variance in RDR, but it was in strong linkage disequilibrium with 212 other RDR-associated SNPs across a 23 Mb region. A large cluster of six PME and PME inhibitor homologs was located near the fruit firmness quantitative trait locus (QTL) identified on Ra01. RDR and fruit firmness shared a significant negative correlation ( = -0.28) and overlapping QTL regions on Ra02 in this study.

DISCUSSION

Our work demonstrates the complex nature of postharvest quality traits in blackberry, which are likely controlled by many small-effect QTLs. This study is the first large-scale effort to map the genetic control of quantitative traits in blackberry and provides a strong framework for future GWAS. Phenotypic and genotypic datasets may be used to train genomic selection models that target the improvement of postharvest quality.

摘要

引言

黑莓（亚属）是一种软果特色作物，在运输过程中常因品质下降而遭受经济损失。在运输过程中，鲜食市场的黑莓通常会因一种称为红色小核果逆转（RDR）的病症而出现渗漏、腐烂、变形或变色。在过去50年中，育种计划通过传统选择方法实现了更好的果实硬度和采后品质，但对其潜在的遗传变异了解甚少。

方法

我们对2019 - 2021年从300个四倍体鲜食市场黑莓基因型中测得的果实硬度和RDR进行了全基因组关联分析，使用了集中在参考基因组基因区域的65,995个单核苷酸多态性（SNP）。

结果

果实硬度和RDR的个体均值广义遗传力分别为68%和34%。多聚半乳糖醛酸酶（PG）、果胶甲酯酶（PME）和葡聚糖内切 - 1,3 - β - 葡萄糖苷酶同源物上的三个变异分别解释了果实硬度27%的变异，且分别位于染色体Ra06、Ra01和Ra02上。染色体Ra02上的另一个PG同源物变异解释了RDR 8%的变异，但它与跨越23 Mb区域的其他212个与RDR相关的SNP处于强连锁不平衡状态。一大簇六个PME和PME抑制剂同源物位于在Ra01上鉴定出的果实硬度数量性状位点（QTL）附近。在本研究中，RDR与果实硬度在Ra02上存在显著负相关（r = -0.28）且QTL区域重叠。

讨论

我们的工作证明了黑莓采后品质性状的复杂性，这些性状可能由许多微效QTL控制。本研究是首次大规模绘制黑莓数量性状遗传控制图谱的努力，并为未来的全基因组关联研究（GWAS）提供了强大框架。表型和基因型数据集可用于训练针对采后品质改良的基因组选择模型。

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全基因组关联研究确定了控制黑莓采后品质的关键基因座。

Genome-wide association identifies key loci controlling blackberry postharvest quality.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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