非转基因番茄Scion在转基因砧木上的多组学分析。

Food safety (Tokyo, Japan) Pub Date : 2023-09-06 eCollection Date: 2023-09-01 DOI:10.14252/foodsafetyfscj.D-23-00005
Takumi Ogawa, Kanae Kato, Harue Asuka, Yumi Sugioka, Tomofumi Mochizuki, Takumi Nishiuchi, Taira Miyahara, Hiroaki Kodama, Daisaku Ohta
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引用次数: 1

摘要

嫁接技术已广泛应用于农业生产中,以利用农业上有价值的性状。使用转基因植物与非转基因作物进行嫁接将很快实施,以产生嵌合植物(转基因)*,由此获得的非转基因可食用部分可能不在现行法律法规范围内。许多代谢产物和大分子在接穗和砧木之间相互交换,影响作物作为食物的特性。因此,应该根据科学证据仔细评估与嫁接相关的潜在风险,特别是与转基因植物转基因相关的风险。在本研究中,我们制备了一个由非转基因番茄接穗和表达萤火虫萤光素酶的转基因烟草砧木组成的异源移植物系。我们还制备了一个同源移植物系(砧木和接穗都来自非转基因番茄)和一个异源移植物株系(非转基因烟草砧木和非转基因番茄接穗)。从这些嫁接系中收获非转基因番茄果实,并通过多组学分析对其进行综合表征。蛋白质组学分析检测到来自异源和异源转基因系的烟草衍生蛋白质,表明蛋白质从烟草砧木转移到番茄果实。没有这两种烟草衍生蛋白质的致敏性信息。编码两种致敏番茄内在蛋白(Sola l 4.0101和Sola l 4.0 201)的基因的转录水平在异移植物和异移植物系中降低。在代谢谱中观察到一些差异,包括α-番茄碱和尼古丁。烟草衍生的尼古丁在异种和异种番茄果实中的积累表明,不良代谢产物从砧木转移到接穗应被评估为食品安全问题。需要进一步的研究来澄清可变的环境条件和生长期是否会影响这种转基因植物生产的非转基因可食用部分的质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Multi-omics Analyses of Non-GM Tomato Scion Engrafted on GM Rootstocks.

Multi-omics Analyses of Non-GM Tomato Scion Engrafted on GM Rootstocks.

Multi-omics Analyses of Non-GM Tomato Scion Engrafted on GM Rootstocks.

Multi-omics Analyses of Non-GM Tomato Scion Engrafted on GM Rootstocks.

Grafting has been widely applied in agricultural production in order to utilize agriculturally valuable traits. The use of genetically modified (GM) plants for grafting with non-GM crops will soon be implemented to generate chimeric plants (transgrafting)*, and the non-GM edible portions thus obtained could fall outside of the current legal regulations. A number of metabolites and macromolecules are reciprocally exchanged between scion and rootstock, affecting the crop properties as food. Accordingly, the potential risks associated with grafting, particularly those related to transgrafting with GM plants, should be carefully evaluated based on scientific evidence. In this study, we prepared a hetero-transgraft line composed of non-GM tomato scion and GM-tobacco rootstock expressing firefly luciferase. We also prepared a homograft line (both rootstock and scion are from non-GM tomato) and a heterograft line (non-GM tobacco rootstock and non-GM tomato scion). The non-GM tomato fruits were harvested from these grafted lines and subjected to comprehensive characterization by multi-omics analysis. Proteomic analysis detected tobacco-derived proteins from both heterograft and hetero-transgraft lines, suggesting protein transfer from the tobacco rootstock to the tomato fruits. No allergenicity information is available for these two tobacco-derived proteins. The transcript levels of the genes encoding two allergenic tomato intrinsic proteins (Sola l 4.0101 and Sola l 4.0201) decreased in the heterograft and hetero-transgraft lines. Several differences were observed in the metabolic profiles, including α-tomatine and nicotine. The accumulation of tobacco-derived nicotine in the tomato fruits of both heterograft and hetero-transgraft lines indicated that the transfer of unfavorable metabolites from rootstock to scion should be assessed as a food safety concern. Further investigations are needed to clarify whether variable environmental conditions and growth periods may influence the qualities of the non-GM edible parts produced by such transgrafted plants.

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