通过调控茉莉酸识别控制普通小麦粒长的 TaGL1-B1 基因。

Identification of TaGL1-B1 gene controlling grain length through regulation of jasmonic acid in common wheat.

机构信息

National Key Laboratory of Wheat and Maize Crop Science, CIMMYT-China Wheat and Maize Joint Research Center, Agronomy College, Henan Agricultural University, Zhengzhou, China.

出版信息

Plant Biotechnol J. 2023 May;21(5):979-989. doi: 10.1111/pbi.14009. Epub 2023 Jan 27.

DOI:10.1111/pbi.14009

PMID:36650924

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10106860/

Abstract

Grain length is one of the most important factors in determining wheat yield. Here, a stable QTL for grain length was mapped on chromosome 1B in a F recombinant inbred lines (RIL) population, and the gene TaGL1-B1 encoding carotenoid isomerase was identified in a secondary large population through multiple strategies. The genome-wide association study (GWAS) in 243 wheat accessions revealed that the marker for TaGL1-B1 was the most significant among all chromosomes. EMS mutants of TaGL1 possessed significantly reduced grain length, whereas TaGL1-B1-overexpressed lines possessed significantly increased grain length. Moreover, TaGL1-B1 strongly interacted with TaPAP6. TaPAP6-overexpressed lines had significantly increased grain length. Transcriptome analysis suggested that TaPAP6 was possibly involved in the accumulation of JA (jasmonic acid). Consistently, JA content was significantly increased in the TaGL1-B1 and TaPAP6 overexpression lines. Additionally, the role of TaGL1-B1 in regulating carotenoids was verified through QTL mapping, GWAS, EMS mutants and overexpression lines. Notably, overexpression of TaGL1-B1 significantly increased wheat yield in multiple locations. Taken together, overexpression of TaGL1-B1 enhanced grain length, probably through interaction with TaPAP6 to cause the accumulation of JA that improved carotenoid content and photosynthesis, thereby resulted in increased wheat yield. This study provided valuable genes controlling grain length to improve yield and a potential insight into the molecular mechanism of modulating JA-mediated grain size in wheat.

摘要

粒长是决定小麦产量的最重要因素之一。在这里，在一个 F 重组自交系（RIL）群体中，在 1B 染色体上定位到一个稳定的粒长 QTL，通过多种策略在一个二次大群体中鉴定到编码类胡萝卜素异构酶的基因 TaGL1-B1。在 243 个小麦品系的全基因组关联研究（GWAS）中发现，TaGL1-B1 的标记在所有染色体中是最显著的。TaGL1 的 EMS 突变体的粒长显著缩短，而 TaGL1-B1 过表达系的粒长显著增加。此外，TaGL1-B1 与 TaPAP6 强烈互作。TaPAP6 过表达系的粒长显著增加。转录组分析表明，TaPAP6 可能参与 JA（茉莉酸）的积累。一致地，TaGL1-B1 和 TaPAP6 过表达系中的 JA 含量显著增加。此外，通过 QTL 作图、GWAS、EMS 突变体和过表达系验证了 TaGL1-B1 在调节类胡萝卜素中的作用。值得注意的是，TaGL1-B1 的过表达在多个地点显著增加了小麦的产量。总之，TaGL1-B1 的过表达增加了粒长，可能通过与 TaPAP6 相互作用导致 JA 的积累，从而提高类胡萝卜素含量和光合作用，最终导致小麦产量的增加。这项研究为控制粒长以提高产量提供了有价值的基因，并为调节小麦中 JA 介导的粒大小的分子机制提供了潜在的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b003/11376795/7568bca2cc14/PBI-21-979-g006.jpg

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通过调控茉莉酸识别控制普通小麦粒长的 TaGL1-B1 基因。

Identification of TaGL1-B1 gene controlling grain length through regulation of jasmonic acid in common wheat.

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