烟草中移植物接合点外荧光素酶蛋白的不连续转运

Food safety (Tokyo, Japan) Pub Date : 2024-03-22 eCollection Date: 2024-03-01 DOI:10.14252/foodsafetyfscj.D-23-00010
Taira Miyahara, Hitomi Ohkubo, Yukiko Umeyama, Taichi Oguchi, Takumi Ogawa, Daisaku Ohta, Tomofumi Mochizuki, Hiroaki Kodama
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引用次数: 0

摘要

转基因嫁接是一种同时使用转基因植物和非转基因植物的嫁接技术,是一种新型的植物育种技术,可用于提高作物栽培效率,而不会将外来基因引入非转基因植物的食用部分。这项技术可促进作物获得抗病性和/或提高产量。然而,低分子量化合物、核糖核酸(RNA)和蛋白质通过嫁接接头的转位会给食用作物带来潜在的安全风险。在这里,我们利用表达萤火虫荧光素酶基因(LUC)的转基因烟草植物,研究了嫁接植物中 LUC 蛋白在嫁接接合部以外的转位情况。我们观察到 LUC 蛋白在转基因烟草植株中的双向转位,即从砧木到接穗,反之亦然。转录组分析表明,在非转基因植物体中检测不到 LUC 基因的转录物,这表明 LUC 蛋白本身发生了转位。此外,LUC 蛋白的移动是偶发的(即非连续的),因为在显示高 LUC 活性的非转基因样本的两侧,非转基因样本没有显示明显的 LUC 活性。从转基因部分到非转基因部分的转运取决于转基因植物体的特征;在这里,当使用带有毛根的 LUC 表达砧木时,观察到 LUC 蛋白向非转基因接穗的转运增强。此外,转运的 LUC 蛋白数量远远低于诱导过敏原反应所需的一般水平。最后,由于用于转基因植物的 LUC 蛋白水平适中,而且 LUC 蛋白本身相对不稳定,因此有必要进一步研究转基因植物中新表达的蛋白是否高度稳定、易转运和/或高表达。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Discontinuous Translocation of a Luciferase Protein beyond Graft Junction in Tobacco.

Transgrafting, a grafting technique that uses both genetically modified (GM) and non-GM plants, is a novel plant breeding technology that can be used to improve the efficiency of crop cultivation without introducing foreign genes into the edible parts of non-GM plants. This technique can facilitate the acquisition of disease resistance and/or increased yield. However, the translocation of low-molecular-weight compounds, ribonucleic acid (RNA), and proteins through graft junctions raises a potential safety risk for food crops. Here, we used a transgenic tobacco plant expressing a firefly luciferase gene (LUC) to examine the translocation of the LUC protein beyond the graft junction in grafted plants. We observed the bi-directional translocation of LUC proteins in transgrafted tobacco plants, i.e., from the rootstock to scion and vice versa. Transcriptomic analysis revealed that transcripts of the LUC gene were undetectable in non-GM plant bodies, indicating that the LUC protein itself was translocated. Moreover, the movement of the LUC protein is an episodic (i.e., non-continuous) event, since non-GM samples showing high LUC activity were flanked by non-GM samples showing no apparent LUC activity. Translocation from the GM to non-GM part depends on the characteristics of GM plant bodies; here, the enhanced translocation of the LUC protein into the non-GM scion was observed when LUC-expressing rootstocks with hairy roots were used. Moreover, the quantity of translocated LUC protein was far below the level that is generally required to induce an allergenic response. Finally, since the LUC protein levels of plants used for transgrafting are moderate and the LUC protein itself is relatively unstable, further investigation is necessary regarding whether the newly expressed protein in GM plants is highly stable, easily translocated, and/or highly expressed.

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