Genomics techniques cover a range of tools designed to study, manipulate, and modify genetic material with unparalleled precision. Technologies such as CRISPR-Cas9, TALENs, and ZFNs have enabled scientists to precisely edit an organism’s genetic code, allowing for targeted modifications that can imbue crops with beneficial traits, like disease resistance or improved nutritional content.
The European Union has been at the forefront of discussions surrounding the regulation and implementation of cutting-edge genomic techniques in various sectors, particularly agriculture and food production.
EU Legislative Perspectives:
Within the European Union, the application of genomic techniques falls under the broader spectrum of the regulations concerning genetically modified organisms. Recent discussions and legislative efforts have revolved around defining and categorizing organisms altered through these new genomic methods. The aim is to differentiate between organisms developed via traditional genetic modification and those produced using newer, more precise genomic tools.
Challenges and Opportunities:
The incorporation of new genomic techniques into EU legislation poses multifaceted challenges and opportunities. One of the key challenges is establishing clear and comprehensive regulatory frameworks that strike a balance between fostering innovation and ensuring safety, ethical considerations, and environmental protection.
As the EU navigates the intricate landscape of genomic techniques, the focus remains on harmonizing scientific progress with robust regulatory mechanisms. The aim is to uphold stringent safety measures while capitalizing on the transformative potential that these technologies offer.
The integration of new genomics techniques into EU legislation outlines a critical juncture in science, policy, and ethical discourse. By fostering an environment that encourages innovation while upholding rigorous safety standards and ethical considerations, the European Union aims to leverage the immense potential of these technologies for the betterment of agriculture and food systems while safeguarding the interests of its citizens and the environment.
Bibliography
Eufic. (2023). New Genomic Techniques: what are they and how can they improve our food systems?. Retrieved from: Eufic – Food Production: https://www.eufic.org/en/food-production/article/new-genomic-techniques-what-are-they-and-how-can-they-improve-our-food-systems
European Commission. (2023). Frequently Asked Questions: Proposal on New Genomic Techniques. Retrieved from: European Commission – Press corner: https://ec.europa.eu/commission/presscorner/detail/en/qanda_23_3568
European Commission. (2023). REGULATION OF THE EUROPEAN PARLIAMENT AND OF THE COUNCIL on plants obtained by certain new genomic techniques and their food and feed, and amending Regulation (EU) 2017/625. Retrieved from: https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52023PC0411&qid=1701708835661
Foreign Agricultural Service USDA. (2023). European Union: Corrected – European Commission Adopts New Regulation for Plants Obtained by Certain New Genomic Techniques. Retrieved from: Foreign Agricultural Service USDA – Data Analysis: https://fas.usda.gov/data/european-union-corrected-european-commission-adopts-new-regulation-plants-obtained-certain-new
Written by Marina Scelta
Born in Palermo (Italy), passionate about learning languages since a very young age, she studied Interpreting and Translation for English and French in her hometown, then moved to London for a Master’s Degree in the same domain (University of Westminster), eager to earn some first-hand experience in an international environment. In 2020, she decided to move back to Italy, where she applied for her second Master’s Degree in Foreign Languages for International Communication (Università degli Studi di Torino). In 2021, she had the opportunity to move to Strasbourg as an Erasmus student for almost one year, at the end of which she made of that city her new home. Currently in the process of writing her master’s thesis, in her free time Marina enjoys travelling, singing, walking in the nature, solving crosswords puzzles, and mostly looking around for vegan food.
基因组学技术涵盖了一系列旨在以无与伦比的精确度研究、操作和修改遗传物质的工具。CRISPR-Cas9、TALENs和ZFNs等技术使科学家能够精确编辑生物体的遗传密码,允许有针对性的修改,使作物具有有益的特性,如抗病性或改善营养成分。
欧洲联盟一直站在讨论各个部门,特别是农业和粮食生产中尖端基因组技术的监管和实施的最前沿。
欧盟立法观点:
在欧洲联盟内部,基因组技术的应用属于有关转基因生物的更广泛的法规范围。最近的讨论和立法努力都围绕着定义和分类通过这些新的基因组方法改变的生物。目的是区分通过传统基因改造开发的生物和使用更新、更精确的基因组工具生产的生物。
挑战与机遇:
将新的基因组技术纳入欧盟立法带来了多方面的挑战和机遇。关键挑战之一是建立清晰全面的监管框架,在促进创新和确保安全、道德考虑和环境保护之间取得平衡。
随着欧盟在基因组技术的错综复杂的环境中航行,重点仍然是协调科学进步与健全的监管机制。目的是坚持严格的安全措施,同时利用这些技术提供的变革潜力。
新基因组学技术融入欧盟立法勾勒出科学、政策和伦理话语的关键时刻。通过营造一种鼓励创新的环境,同时坚持严格的安全标准和道德考虑,欧洲联盟旨在利用这些技术的巨大潜力来改善农业和粮食系统,同时保护其公民的利益和环境。
书目
太棒了。(2023)。新的基因组技术:它们是什么?它们如何改善我们的食物系统?。检索自:eufic-food production:https://www.eufic.org/en/food-production/article/new-genomic-technies-what-are-they-and-how-can-they-improve-our-food-systems
欧洲委员会。(2023)。常见问题:关于新基因组技术的建议。检索自:European Commission-Press Corner:https://ec.europa.eu/Commission/presscorner/detail/en/qanda_23_3568
欧洲委员会。(2023)。欧洲议会和理事会关于通过某些新基因组技术获得的植物及其食品和饲料的法规,以及修订法规(EU)2017/625。检索自:https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52023PC0411&qid=1701708835661
美国农业部外国农业服务局。(2023)。欧盟:更正——欧盟委员会对通过某些新基因组技术获得的植物采用新法规。检索自:Foreign Agricultural Service USDA-Data Analysis:https://fas.usda.gov/Data/european-union-corrected-European-Commission-adopts-new-regulation-plants-consied-cathety-new
作者:Marina Scelta
她出生在巴勒莫(意大利),从很小的时候就热衷于学习语言,在家乡学习英语和法语的口译和笔译,然后搬到伦敦攻读同一领域的硕士学位(威斯敏斯特大学),渴望在国际环境中获得一些第一手经验。2020年,她决定搬回意大利,在那里她申请了第二个国际交流外语硕士学位(Universit à degli Studi di Torino)。2021年,她有机会作为伊拉斯谟的学生搬到斯特拉斯堡近一年,在这一年结束时,她把这座城市作为自己的新家。目前正在写硕士论文,闲暇时,玛丽娜喜欢旅游、唱歌、在大自然中散步、解填字游戏,大部分时间都在寻找素食。
以上中文文本为机器翻译,存在不同程度偏差和错误,请理解并参考英文原文阅读。
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