定点诱变——一个应对环境挑战和为人们提供健康食品的机会,或者对人类、动物和环境造成不可接受的危害。欧洲法院对C-528/16号案件判决的后果

Q3 Agricultural and Biological Sciences
L. Michalczuk
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引用次数: 2

摘要

摘要欧盟的战略目标之一是减少欧盟粮食系统的环境和气候足迹,增强其抵御能力,同时确保欧洲公民的粮食安全。因此,作为欧洲绿色协议的核心支柱之一,欧盟农场到叉子战略为2030年设定了雄心勃勃的目标,将农业中的农药使用量减少50%,化肥使用量减少20%,同时将地表和地下水的营养物质泄漏量减少50%。此外,建议至少25%的欧盟农业用地应保持有机农业。这些目标意义深远,但最近的几项研究表明,如果在研究和创新方面没有取得重大进展,实施这些目标可能会导致产量下降30%,具体取决于作物,农产品价格上涨18%。尤其受影响的是园艺,因为它高度依赖植物的病虫害保护。因此,研究建议加快植物育种,以培育出对病虫害具有遗传抗性的新植物品种,并更好地应对营养有限和缺水等非生物胁迫。经典植物育种的进展是一个漫长的过程。与大多数果树一样,木本物种的生长速度特别慢,因为它们的幼年期长,遗传变异有限。功能基因组学、生物信息学和分子方法的最新进展提供了显著加快育种过程的工具。几种位点定向突变技术允许通过缺失或插入单个或多个核苷酸在预定位点修饰特定基因,而不会影响脱靶基因。到目前为止,已经用这些方法培育出了几个有价值的品种,还有大量其他品种正在试验中。然而,欧盟法院2018年7月25日的裁决将严重阻碍其释放,该裁决规定,通过位点特异性突变获得的生物体(而不是通过诱导随机突变获得的生物)的释放受关于转基因生物体的2001/18/EC2号指令的控制。本文综述了新一代育种技术,特别是定点诱变技术,及其对消费者和环境的益处和潜在危害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Site-Directed Mutagenesis – A Chance to Meet Environmental Challenges and Provide Healthy Food for People or an Unacceptable Hazard to Humans, Animals, and the Environment. Consequences of the European Court of Justice Judgment in Case C-528/16
Abstract One of the EU's strategic goals is to reduce the environmental and climate footprint of the EU food system and strengthen its resilience, while ensuring food security for European citizens. Thus, the EU Farm to Fork strategy, which is one of the central pillars of the European Green Deal, set ambitious targets for 2030 to reduce pesticide use in agriculture by 50% and fertilizers use by 20%, with a concomitant 50% reduction of nutrient leakage to surface and groundwater. Additionally, it is recommended that at least 25% of the EU agricultural land shall be kept under organic farming. These goals are far-reaching, but several recent studies indicate that implementing them without significant progress in research and innovation (R & I) may result in a yield decrease by up to 30%, depending on the crop, and an increase in the price of agricultural commodities by up to 18%. Especially affected would be horticulture due to its high dependence on plant protection against pests and diseases. Therefore, the studies recommend accelerating plant breeding in order to produce new plant cultivars genetically resistant to pests and diseases and better equipped to cope with abiotic stresses like limited nutrition and water deficit. The progress in classical plant breeding is a lengthy process. It is especially slow in the case of woody species, like most fruit plants, due to their long juvenile periods and limited genetic variance. Recent advances in functional genomics, bioinformatics, and molecular methods provided tools that speed up the breeding process significantly. Several site-directed mutation technologies allow modifying a specific gene at a predefined site, by deletion or insertion of single or multiple nucleotides, without affecting off-target genes. Several valuable cultivars have been bred so far using these methods, and a large number of others are under trials. However, their release will be severely impeded by the decision of the Court of Justice of the European Union, dated 25 July 2018, that the release of organisms obtained by site-specific mutations, as opposed to organisms obtained by induced random mutation, is controlled by Directive 2001/18/EC2 on genetically modified organisms. This paper reviews the new generation breeding techniques, especially site-directed mutagenesis, and their benefits as well as potential hazards to consumers and the environment.
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来源期刊
Journal of Horticultural Research
Journal of Horticultural Research Agricultural and Biological Sciences-Horticulture
CiteScore
1.90
自引率
0.00%
发文量
14
审稿时长
20 weeks
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