基于全基因组测序的关联研究揭示水稻蒸煮谷粒长宽性状的遗传结构。

Whole genome sequencing-based association study to unravel genetic architecture of cooked grain width and length traits in rice.

机构信息

Grain Quality and Nutrition Center, Plant Breeding Division, International Rice Research Institute, DAPO Box 7777, Metro Manila, 1301, Philippines.

Leibniz institute of Plant Genetics and Crop Plant Research (IPK), Corrensstrasse 03, 06466, Gatersleben, Germany.

出版信息

Sci Rep. 2017 Sep 29;7(1):12478. doi: 10.1038/s41598-017-12778-6.

DOI:10.1038/s41598-017-12778-6

PMID:28963534

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5622062/

Abstract

In this study, we used 2.9 million single nucleotide polymorphisms (SNP) and 393,429 indels derived from whole genome sequences of 591 rice landraces to determine the genetic basis of cooked and raw grain length, width and shape using genome-wide association study (GWAS). We identified a unique fine-mapped genetic region GWi7.1 significantly associated with cooked and raw grain width. Additionally, GWi7.2 that harbors GL7/GW7 a cloned gene for grain dimension was found. Novel regions in chromosomes 10 and 11 were also found to be associated with cooked grain shape and raw grain width, respectively. The indel-based GWAS identified fine-mapped genetic regions GL3.1 and GWi5.1 that matched synteny breakpoints between indica and japonica. GL3.1 was positioned a few kilobases away from GS3, a cloned gene for cooked and raw grain lengths in indica. GWi5.1 found to be significantly associated with cooked and raw grain width. It anchors upstream of cloned gene GW5, which varied between indica and japonica accessions. GWi11.1 is present inside the 3'-UTR of a functional gene in indica that corresponds to a syntenic break in chromosome 11 of japonica. Our results identified novel allelic structural variants and haplotypes confirmed using single locus and multilocus SNP and indel-based GWAS.

摘要

在这项研究中，我们使用了 591 份水稻地方品种的全基因组序列中获得的 290 万个单核苷酸多态性（SNP）和 393429 个插入缺失，通过全基因组关联研究（GWAS）来确定熟粒和生粒长度、宽度和形状的遗传基础。我们确定了一个独特的精细映射遗传区域 GWi7.1，该区域与熟粒和生粒宽度显著相关。此外，还发现了包含 GL7/GW7 基因的 GWi7.2，该基因克隆了粒尺寸基因。在染色体 10 和 11 上还发现了新的区域分别与熟粒形状和生粒宽度相关。基于插入缺失的 GWAS 确定了精细映射的遗传区域 GL3.1 和 GWi5.1，它们与籼稻和粳稻之间的基因座断裂点匹配。GL3.1 位于 GS3 附近的几个千碱基处，GS3 是一个克隆的籼稻熟粒和生粒长度基因。发现 GWi5.1 与熟粒和生粒宽度显著相关。它位于克隆基因 GW5 的上游，该基因在籼稻和粳稻品种之间存在差异。GWi11.1 位于功能基因的 3'UTR 内，该基因与粳稻 11 号染色体的基因座断裂相对应。我们的结果确定了新的等位基因结构变异和单基因座和多基因座 SNP 以及基于插入缺失的 GWAS 确认的单倍型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1955/5622062/4331c9dd8106/41598_2017_12778_Fig1_HTML.jpg

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基于全基因组测序的关联研究揭示水稻蒸煮谷粒长宽性状的遗传结构。

Whole genome sequencing-based association study to unravel genetic architecture of cooked grain width and length traits in rice.

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