全基因组关联分析与根系性状相关的 QTL 及其在玉米育种中的意义。

Genome-Wide Meta-Analysis of QTLs Associated with Root Traits and Implications for Maize Breeding.

机构信息

School of Agricultural Biotechnology, Punjab Agricultural University, Ludhiana 141001, India.

Department of Plant Breeding and Genetics, Punjab Agricultural University, Ludhiana 141001, India.

出版信息

Int J Mol Sci. 2023 Mar 24;24(7):6135. doi: 10.3390/ijms24076135.

DOI:10.3390/ijms24076135

PMID:37047112

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10093813/

Abstract

Root system architecture (RSA), also known as root morphology, is critical in plant acquisition of soil resources, plant growth, and yield formation. Many QTLs associated with RSA or root traits in maize have been identified using several bi-parental populations, particularly in response to various environmental factors. In the present study, a meta-analysis of QTLs associated with root traits was performed in maize using 917 QTLs retrieved from 43 mapping studies published from 1998 to 2020. A total of 631 QTLs were projected onto a consensus map involving 19,714 markers, which led to the prediction of 68 meta-QTLs (MQTLs). Among these 68 MQTLs, 36 MQTLs were validated with the marker-trait associations available from previous genome-wide association studies for root traits. The use of comparative genomics approaches revealed several gene models conserved among the maize, sorghum, and rice genomes. Among the conserved genomic regions, the ortho-MQTL analysis uncovered 20 maize MQTLs syntenic to 27 rice MQTLs for root traits. Functional analysis of some high-confidence MQTL regions revealed 442 gene models, which were then subjected to in silico expression analysis, yielding 235 gene models with significant expression in various tissues. Furthermore, 16 known genes viz., , , , , , , , , , , , , , , , and associated with various root traits were present within or near the MQTL regions. These results could aid in QTL cloning and pyramiding in developing new maize varieties with specific root architecture for proper plant growth and development under optimum and abiotic stress conditions.

摘要

根系结构（RSA），也称为根系形态，对植物获取土壤资源、生长和产量形成至关重要。许多与 RSA 或玉米根系特性相关的 QTL 已通过几个双亲群体确定，特别是针对各种环境因素。在本研究中，使用从 1998 年至 2020 年发表的 43 项作图研究中检索到的 917 个 QTL，对玉米中与根系特性相关的 QTL 进行了元分析。总共将 631 个 QTL 投影到一个共识图谱上，该图谱包含 19714 个标记，从而预测了 68 个元 QTL（MQTL）。在这 68 个 MQTL 中，有 36 个 MQTL 与之前用于根系特性的全基因组关联研究中可用的标记-性状关联得到验证。比较基因组学方法的应用揭示了玉米、高粱和水稻基因组中几个保守的基因模型。在保守的基因组区域中，直系同源 MQTL 分析发现 20 个玉米 MQTL 与 27 个水稻 MQTL 针对根系特性具有同源性。一些高可信度 MQTL 区域的功能分析揭示了 442 个基因模型，然后对其进行了计算机表达分析，产生了 235 个在各种组织中具有显著表达的基因模型。此外，16 个已知基因，即、、、、、、、、、、、、、、和，与各种根系特性有关，存在于 MQTL 区域内或附近。这些结果可辅助 QTL 克隆和聚合，从而开发具有特定根系结构的新玉米品种，以在最佳和非生物胁迫条件下促进植物的正常生长和发育。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5306/10093813/acbc26279e47/ijms-24-06135-g001.jpg

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全基因组关联分析与根系性状相关的 QTL 及其在玉米育种中的意义。

Genome-Wide Meta-Analysis of QTLs Associated with Root Traits and Implications for Maize Breeding.

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