Japanese Regulatory Framework and Approach for Genome-edited Foods Based on Latest Scientific Findings.

Kazunari Kondo, Chie Taguchi
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引用次数: 3

Abstract

The food supply system is facing important challenges and its sustainability has to be considered. Genome-editing technology, which accelerates the development of new variety, could be used to achieve sustainable development goals, thereby protecting the environment and ensuring the stable production of food for an increasing global population. The most widely used genome-editing tool, CRISPR/Cas9, is easy to use, affordable, and versatile. Foods produced by genome-editing technologies have been developed worldwide to create novel traits. In the first half of the review, the latest scientific findings on genome-editing technologies are summarized, and the technical challenge in genome sequence analysis are clarified. CRISPR/Cas9 has versatile alternative techniques, such as base editor and prime editor. Genome sequencing technology has developed rapidly in recent years. However, it is still difficult to detect large deletions and structural variations. Long-read sequencing technology would solve this challenge. In the second part, regulatory framework and approach for genome-edited foods is introduced. The four government ministries, including the Ministry of Environment, the Ministry of Agriculture, Forestry and Fisheries, and the Ministry of Health, Labour and Welfare (MHLW), started to discuss how the regulation should be implemented in 2019. The SDN-1 technique is excluded from the current genetically modified organism (GMO) regulation. The Japanese regulatory framework includes pre-submission consultation and submission of notification form. In the last part of this review, transparency of regulatory framework and consumer confidence were described. Since maintaining consumer trust is vital, transparency of regulatory framework is a key to consumers. The information of notification process on approved genome-edited foods is made public immediately. This review will help regulators build regulatory frameworks, and lead to harmonization of the framework between the countries.

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基于最新科学发现的日本基因组编辑食品监管框架和方法。
粮食供应系统正面临重大挑战,必须考虑其可持续性。基因组编辑技术加速了新品种的开发,可用于实现可持续发展目标,从而保护环境并确保为不断增长的全球人口提供稳定的粮食生产。使用最广泛的基因组编辑工具CRISPR/Cas9易于使用,价格实惠,用途广泛。利用基因组编辑技术生产的食品已经在世界范围内开发出来,以创造新的性状。前半部分综述了基因组编辑技术的最新科学发现,阐明了基因组序列分析面临的技术挑战。CRISPR/Cas9有多种替代技术,如碱基编辑器和主要编辑器。基因组测序技术近年来发展迅速。然而,仍然很难检测到大的缺失和结构变化。长读测序技术将解决这一挑战。第二部分介绍了基因编辑食品的监管框架和方法。环境部、农林水产部、厚生劳动省等4个政府部门开始讨论如何在2019年实施该规定。SDN-1技术被排除在目前的转基因生物(GMO)监管之外。日本的监管框架包括提交前咨询和提交通知表格。在本综述的最后一部分,监管框架的透明度和消费者信心进行了描述。由于维持消费者的信任至关重要,监管框架的透明度对消费者来说是一个关键。经批准的基因编辑食品的通报程序信息立即对外公布。这一审查将有助于监管机构建立监管框架,并导致各国之间框架的协调。
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