Knockout mutation in TaD27 enhances number of productive tillers in hexaploid wheat.

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Frontiers in genome editing Pub Date : 2024-10-14 eCollection Date: 2024-01-01 DOI:10.3389/fgeed.2024.1455761
Muhammad Jawad Akbar Awan, Imran Amin, Awais Rasheed, Nasir A Saeed, Shahid Mansoor
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引用次数: 0

Abstract

Recent advances allow the deployment of cluster regularly interspaced short palindromic repeats (CRISPR)-associated endonucleases (Cas) system for the targeted mutagenesis in the genome with accuracy and precision for trait improvement in crops. CRISPR-Cas systems have been extensively utilized to induce knockout or frameshift mutations in the targeted sequence of mostly negative regulating genes for wheat improvement. However, most of the reported work has been done in non-commercial varieties of wheat and introgression of edited alleles into breeding population comes with the penalty of unwanted linkage-drag. Wheat yield is controlled by various genes such as positive and negative regulators. The TaD27 gene is described as a negative regulator of shoot branching or tillering and involved in the biosynthesis of strigolactones. In this study, we developed Tad27 knockout mutant lines of an elite wheat cultivar that showed a twofold increase in the number of tillers and 1.8-fold increase in the number of grains per plant. Subsequently, enhancing the grain yield without any morphological penalty in the architecture of the plants. The co-transformation of regeneration enhancing growth regulator, Growth Regulating Factor 4 (GRF4) and its cofactor GRF-Interacting Factor 1 (GIF1), under single T-DNA cassette improved the regeneration efficiency up to 6% of transgenic events from mature embryos of wheat. Our results indicate that the CRISPR-mediated targeted mutagenesis confers the potential to knockout yield-related negative regulators in elite cultivars of wheat that can substantially enhance grain yield per plant and this strategy can be harnessed for the improvement of future wheat.

TaD27的基因敲除突变可提高六倍体小麦的高产分蘖数量。
最近的研究进展使人们能够利用集群有规则间隔短回文重复序列(CRISPR)-相关内切酶(Cas)系统对基因组进行精确的定向诱变,从而改良作物的性状。CRISPR-Cas 系统已被广泛用于诱导大部分负调控基因目标序列的基因敲除或框移突变,以改良小麦。然而,大多数报道的工作都是在非商业性小麦品种中进行的,将编辑过的等位基因导入育种群体会带来不必要的连接拖累。小麦产量受各种基因控制,如正向和负向调节因子。TaD27 基因被描述为芽分枝或分蘖的负调控因子,并参与绞股蓝内酯的生物合成。在这项研究中,我们培育了一个小麦精英栽培品种的 Tad27 基因敲除突变株系,其分蘖数量增加了两倍,单株籽粒数增加了 1.8 倍。随后,在不影响植株形态结构的情况下提高了谷物产量。在单个 T-DNA 基因盒下共转化可促进再生的生长调节因子--生长调节因子 4(GRF4)及其辅助因子--GRF-互作因子 1(GIF1),可使小麦成熟胚的转基因效率提高到 6%。我们的研究结果表明,CRISPR 介导的定向诱变具有敲除小麦优良栽培品种中与产量相关的负调控因子的潜力,可大幅提高单株谷物产量,这一策略可用于未来小麦的改良。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
7.00
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审稿时长
13 weeks
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