Phenomics-assisted genetic dissection and molecular design of drought resistance in rice.

IF 9.4 1区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY Plant Communications Pub Date : 2024-12-06 DOI:10.1016/j.xplc.2024.101218

Qiaojun Lou, Yunyu Chen, Xin Wang, Yulu Zhang, Tingting Gao, Jiawei Shi, Ming Yan, Fangjun Feng, Kai Xu, Feng Lin, Shangyuan Xie, Xiaoyan Xi, Weikun Li, Yuanyuan Nie, Huan Gao, Hui Xia, Lei Wang, Tiemei Li, Shoujun Chen, Ying Zhu, Jianwei Zhang, Hanwei Mei, Liang Chen, Wanneng Yang, Lijun Luo

{"title":"Phenomics-assisted genetic dissection and molecular design of drought resistance in rice.","authors":"Qiaojun Lou, Yunyu Chen, Xin Wang, Yulu Zhang, Tingting Gao, Jiawei Shi, Ming Yan, Fangjun Feng, Kai Xu, Feng Lin, Shangyuan Xie, Xiaoyan Xi, Weikun Li, Yuanyuan Nie, Huan Gao, Hui Xia, Lei Wang, Tiemei Li, Shoujun Chen, Ying Zhu, Jianwei Zhang, Hanwei Mei, Liang Chen, Wanneng Yang, Lijun Luo","doi":"10.1016/j.xplc.2024.101218","DOIUrl":null,"url":null,"abstract":"Dissecting the mechanism of drought resistance (DR) and designing drought-resistant rice varieties are promising strategies to address the challenge of climate change. Here, we selected a typical drought-avoidant (DA) variety, IRAT109, and a drought-tolerant (DT) variety, Hanhui15, as parents to develop a stable recombinant inbred line (RIL) population (F8, 1262 lines). The de novo assembled genomes of both parents were released. By resequencing of the RIL population, a set of 1 189 216 reliable SNPs were obtained and used to construct a dense genetic map. Using above- and belowground phenomic platforms and multimodal cameras, we captured 139 040 image-based traits (i-traits) of whole-plant phenotypes in response to drought stress throughout the entire rice growth period and identified 32 586 drought-responsive quantitative trait loci (QTLs), including 2097 unique QTLs. QTLs associated with panicle i-traits occurred more than 600 times on the middle of chromosome 8, and QTLs associated with leaf i-traits occurred more than 800 times on the 5' end of chromosome 3, indicating the potential effects of these QTLs on plant phenotypes. We selected three candidate genes (OsMADS50, OsGhd8, OsSAUR11) related to leaf, panicle, and root traits, respectively, and verified their functions in DR. OsMADS50 was found to negatively regulate DR by modulating leaf dehydration, grain size, and downward root growth. A total of 18 and 21 composite QTLs significantly related to grain weight and plant biomass were also screened from 597 lines in the RIL population under drought conditions in field experiments, and the composite QTL regions showed substantial overlap (76.9%) with known DR gene regions. Based on three candidate DR genes, we proposed a haplotype design suitable for different environments and breeding objectives. This study provides a valuable reference for multimodal and time-series phenomic analyses, deciphers the genetic mechanisms of DA and DT rice varieties, and offers a molecular navigation map for breeding of DR varieties.","PeriodicalId":52373,"journal":{"name":"Plant Communications","volume":" ","pages":"101218"},"PeriodicalIF":9.4000,"publicationDate":"2024-12-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Plant Communications","FirstCategoryId":"99","ListUrlMain":"https://doi.org/10.1016/j.xplc.2024.101218","RegionNum":1,"RegionCategory":"生物学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"BIOCHEMISTRY & MOLECULAR BIOLOGY","Score":null,"Total":0}

引用次数: 0

Abstract

Dissecting the mechanism of drought resistance (DR) and designing drought-resistant rice varieties are promising strategies to address the challenge of climate change. Here, we selected a typical drought-avoidant (DA) variety, IRAT109, and a drought-tolerant (DT) variety, Hanhui15, as parents to develop a stable recombinant inbred line (RIL) population (F₈, 1262 lines). The de novo assembled genomes of both parents were released. By resequencing of the RIL population, a set of 1 189 216 reliable SNPs were obtained and used to construct a dense genetic map. Using above- and belowground phenomic platforms and multimodal cameras, we captured 139 040 image-based traits (i-traits) of whole-plant phenotypes in response to drought stress throughout the entire rice growth period and identified 32 586 drought-responsive quantitative trait loci (QTLs), including 2097 unique QTLs. QTLs associated with panicle i-traits occurred more than 600 times on the middle of chromosome 8, and QTLs associated with leaf i-traits occurred more than 800 times on the 5' end of chromosome 3, indicating the potential effects of these QTLs on plant phenotypes. We selected three candidate genes (OsMADS50, OsGhd8, OsSAUR11) related to leaf, panicle, and root traits, respectively, and verified their functions in DR. OsMADS50 was found to negatively regulate DR by modulating leaf dehydration, grain size, and downward root growth. A total of 18 and 21 composite QTLs significantly related to grain weight and plant biomass were also screened from 597 lines in the RIL population under drought conditions in field experiments, and the composite QTL regions showed substantial overlap (76.9%) with known DR gene regions. Based on three candidate DR genes, we proposed a haplotype design suitable for different environments and breeding objectives. This study provides a valuable reference for multimodal and time-series phenomic analyses, deciphers the genetic mechanisms of DA and DT rice varieties, and offers a molecular navigation map for breeding of DR varieties.

查看原文

微信好友朋友圈 QQ好友复制链接

本刊更多论文

水稻抗旱性的表型分析与分子设计。

剖析水稻抗旱机制，设计水稻抗旱品种是应对气候变化挑战的有效策略。以典型的抗旱（DA）品种IRAT109和抗旱（DT）品种汉恢15为亲本，构建了一个稳定的重组自交系（RIL）群体（F8, 1,262系）。父母双方重新组装的基因组被释放。通过对RIL群体进行重测序，获得了1,189,216个可靠的snp，并用于构建密集的遗传图谱。利用地上和地下表型平台和多模态相机，我们捕获了整个水稻生育期干旱胁迫下全株表型的139,040个基于图像的性状（i-性状），鉴定出32,586个干旱响应定量性状位点（qtl），其中2097个是唯一的qtl。与穗部i性状相关的qtl出现在8号染色体中部超过600次，与叶片i性状相关的qtl出现在3号染色体5′端超过800次，表明这些qtl对植物表型有潜在的影响。我们分别选择了与叶、穗和根性状相关的3个候选基因（OsMADS50、OsGhd8、OsSAUR11），验证了它们的抗旱功能。基因OsMADS50通过调节叶片脱水、晶粒大小和根系向下生长来负向调节DR。田间干旱条件下，从RIL群体597个品系中筛选出18个和21个与粒重和生物量显著相关的复合QTL，复合QTL区域与已知DR基因区域高度重合（76.9%）。基于三个DR候选基因，我们提出了适合不同环境和育种目标的单倍型设计。该研究为多模态和时间序列表型分析提供了有价值的参考，揭示了DA和DT水稻品种的遗传机制，为DR品种的选育提供了分子导航图谱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文去求助

来源期刊

Plant Communications Agricultural and Biological Sciences-Plant Science

CiteScore

15.70

自引率

5.70%

发文量

105

审稿时长

6 weeks

期刊介绍： Plant Communications is an open access publishing platform that supports the global plant science community. It publishes original research, review articles, technical advances, and research resources in various areas of plant sciences. The scope of topics includes evolution, ecology, physiology, biochemistry, development, reproduction, metabolism, molecular and cellular biology, genetics, genomics, environmental interactions, biotechnology, breeding of higher and lower plants, and their interactions with other organisms. The goal of Plant Communications is to provide a high-quality platform for the dissemination of plant science research.