The formation of nicotine heterosis is mainly achieved by enhancing the nicotine transport capacity in hybrids.

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL
Zejun Mo, Ying Huang, Lili Duan, Kai Pi, Benshan Long, Min Xie, Shuxian Yang, Guizhi Wu, Renxiang Liu
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Abstract

Nicotine exhibits obvious heterosis, which can be used to create Nicotiana tabacum L. (tobacco) varieties with varying nicotine content. However, the reasons for the formation of nicotine heterosis and its relationship to nicotine transport and accumulation remain unknown. This study conducted a comprehensive analysis of six tobacco hybrids with varying heterosis levels and their parent materials from various aspects, such as phenotype, physiology, and transcriptomics. The results showed that the direct path coefficient of transport heterosis to nicotine heterosis was highest in hybrids, at 0.98, and a highly significant positive correlation between the two. The plant height, thick stalk circumference, large flow of tissue fluid in the stalk, and high nicotine concentration of tobacco were the underlying factors that led to the strong nicotine transport capacity of hybrids. The formation of nicotine transport heterosis in hybrids was mainly influenced by non-additive gene effects (accounting for 89.93%), with over-dominant effects playing a dominant role (accounting for 58.79%). Among non-additive expression DEGs, nicotine transporter related multi antimicrobial extrusion protein, drug/metabolite transporter, ABC family transporter, and glutathione S-transferase were significantly upregulated in hybrid strains. The RT-qPCR results indicated that these genes related nicotine transport also exhibited heterosis at the expression level. Our results revealed that the formation of nicotine heterosis is mainly achieved by enhancing the nicotine transport capacity in hybrids. The results are not only beneficial for promoting the theoretical study of nicotine heterosis in tobacco and the breeding and utilization of hybrids, but are also of great significance for guiding nicotine production and promoting its multipurpose utilization.

尼古丁杂交的形成主要是通过提高杂交种的尼古丁运输能力来实现的。
尼古丁具有明显的异株性,可用于培育尼古丁含量不同的烟草品种。然而,尼古丁杂交形成的原因及其与尼古丁转运和积累的关系仍不清楚。本研究从表型、生理、转录组学等多方面对6个异交程度不同的烟草杂交种及其亲本材料进行了综合分析。结果表明,杂交种的运输异质性与烟碱异质性的直接路径系数最高,为0.98,二者之间存在极显著的正相关。烟草的株高、茎秆周长粗、茎秆组织液流量大和烟碱浓度高是杂交种烟碱转运能力强的基本因素。杂交种尼古丁运输异质性的形成主要受非加性基因效应的影响(占 89.93%),其中超显性效应起主导作用(占 58.79%)。在非加成表达 DEGs 中,与尼古丁转运体相关的多抗菌素挤出蛋白、药物/代谢物转运体、ABC 家族转运体和谷胱甘肽 S 转移酶在杂交菌株中显著上调。RT-qPCR 结果表明,这些与尼古丁转运相关的基因在表达水平上也表现出异质性。我们的研究结果表明,尼古丁异质性的形成主要是通过提高杂交种的尼古丁转运能力来实现的。这些结果不仅有利于促进烟草烟碱异质性的理论研究和杂交种的培育与利用,而且对指导烟碱生产和促进烟碱的多用途利用具有重要意义。
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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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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