Map-based cloning of LPD, a major gene positively regulates leaf prickle development in eggplant.

IF 4.4 1区 农林科学 Q1 AGRONOMY Theoretical and Applied Genetics Pub Date : 2024-09-09 DOI:10.1007/s00122-024-04726-6
Changjiao Ke, Wenxiang Guan, Jialong Jiang, Likun Huang, Hui Li, Wenjing Li, Yanyu Lin, Lihui Lin, Xiaofang Xie, Weiren Wu, Wenxia Gao, Yan Zheng
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Abstract

Key message: A critical gene for leaf prickle development (LPD) in eggplant was mapped on chromosome E06 and was confirmed to be SmARF10B through RNA interference using a new genetic transformation technique called SACI developed in this study Prickles on eggplant pose challenges for agriculture and are undesirable in cultivated varieties. This study aimed to uncover the genetic mechanisms behind prickle formation in eggplant. Using the F2 and F2:3 populations derived from a cross between the prickly wild eggplant, YQ, and the prickle-free cultivated variety, YZQ, we identified a key genetic locus (LPD, leaf prickle development) on chromosome E06 associated with leaf prickle development through BSA-seq and QTL mapping. An auxin response factor gene, SmARF10B, was predicted as the candidate gene as it exhibited high expression in YQ's mature leaves, while being significantly low in YZQ. Downregulating SmARF10B in YQ through RNAi using a simple and efficient Agrobacterium-mediated genetic transformation method named Seedling Apical Cut Infection (SACI) developed in this study substantially reduced the size and density of leaf prickles, confirming the role of this gene in prickle development. Besides, an effective SNP was identified in SmARF10B, resulting in an amino acid change between YQ and YZQ. However, this SNP did not consistently correlate with prickle formation in eight other eggplant materials examined. This study sheds light on the pivotal role of SmARF10B in eggplant prickle development and introduces a new genetic transformation method for eggplant, paving the way for future research in this field.

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基于图谱克隆茄子叶刺发育的主要正调控基因 LPD。
关键信息:茄子叶刺发育(LPD)的一个关键基因被绘制在 E06 号染色体上,并通过本研究开发的一种名为 SACI 的新型遗传转化技术进行 RNA 干扰,证实该基因为 SmARF10B。本研究旨在揭示茄子皮刺形成背后的遗传机制。利用多刺野生茄子YQ和无刺栽培品种YZQ杂交产生的F2和F2:3群体,通过BSA-seq和QTL作图,我们在E06染色体上发现了一个与叶刺发育相关的关键遗传位点(LPD,叶刺发育)。一个辅助因子响应因子 SmARF10B 被预测为候选基因,因为它在 YQ 的成熟叶片中表现出较高的表达量,而在 YZQ 中则明显较低。本研究开发了一种名为 "幼苗顶端切口感染(SACI)"的简单高效的农杆菌介导遗传转化方法,通过RNAi技术下调YQ中的SmARF10B,大大降低了叶刺的大小和密度,证实了该基因在叶刺发育过程中的作用。此外,还在 SmARF10B 中发现了一个有效的 SNP,导致 YQ 和 YZQ 之间的氨基酸发生变化。然而,在研究的其他 8 种茄子材料中,该 SNP 与皮刺形成的相关性并不一致。这项研究揭示了 SmARF10B 在茄子皮刺发育过程中的关键作用,并为茄子引入了一种新的遗传转化方法,为该领域的未来研究铺平了道路。
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来源期刊
CiteScore
9.60
自引率
7.40%
发文量
241
审稿时长
2.3 months
期刊介绍: Theoretical and Applied Genetics publishes original research and review articles in all key areas of modern plant genetics, plant genomics and plant biotechnology. All work needs to have a clear genetic component and significant impact on plant breeding. Theoretical considerations are only accepted in combination with new experimental data and/or if they indicate a relevant application in plant genetics or breeding. Emphasizing the practical, the journal focuses on research into leading crop plants and articles presenting innovative approaches.
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