Department of Biological Sciences, School of Life Sciences and the Environment, Royal Holloway University of London, Egham, TW20 0EX, United Kingdom.
Department of Biological Sciences, School of Life Sciences and the Environment, Royal Holloway University of London, Egham, TW20 0EX, United Kingdom.
J Plant Physiol. 2021 Mar-Apr;258-259:153378. doi: 10.1016/j.jplph.2021.153378. Epub 2021 Feb 6.
Over the previous decades, biotechnological innovations have led to improved agricultural productivity, more nutritious foods and lower chemical usage. Both in western societies and Low Medium Income Countries (LMICs). However, the projected increases in the global population, means the production of nutritious food stuffs must increase dramatically. Building on existing genetic modification technologies a series of New Plant Breeding Technologies (NPBT) has recently emerged. These approaches include, Agro-infiltration, grafting, cis and intragenesis and gene editing technologies. How these new techniques should be regulated has fostered considerable debate. Concerns have also been raised, to ensure over-regulation does not arise, creating administrative and economic burden. In this article the existing landscape of genetically modified crops is reviewed and the potential of several New Plant Breeding Techniques (NPBT) described. Metabolomics is an omic technology that has developed in a concurrent manner with biotechnological advances in plant breeding. There is potentially further opportunities to advance our metabolomic technologies to characterise the outputs of New Plant Breeding Technologies, in a manner that is beneficial both from an academic, biosafety and industrial perspective.
在过去几十年中,生物技术创新提高了农业生产力,使食品更富有营养,减少了化学物质的使用。无论是在西方社会还是在中低收入国家(LMICs)都是如此。然而,全球人口的预计增长意味着必须大幅增加营养食品的产量。在现有基因修饰技术的基础上,最近出现了一系列新的植物育种技术(NPBT)。这些方法包括农杆菌浸润、嫁接、顺式和内源基因以及基因编辑技术。如何对这些新技术进行监管引发了相当大的争议。人们还担心,为了确保不会出现过度监管,不会带来行政和经济负担。本文回顾了转基因作物的现有格局,并描述了几种新的植物育种技术(NPBT)的潜力。代谢组学是一种与植物生物技术进步同步发展的组学技术。在从学术、生物安全和工业角度出发,以有益的方式来描述新植物育种技术的产物方面,我们有可能进一步推进我们的代谢组学技术。
