基于胚胎培养的玉米(玉米)组织培养、转化和基因编辑的历史与现状

Frank L. McFarland, Heidi F. Kaeppler
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摘要

胚胎性胼胝体和体细胞胚胎的生产是通过基因转化和基因编辑进行作物遗传改良不可或缺的一部分。可再生的胚胎培养物也是许多作物物种微繁殖过程的支柱。在包括玉米在内的许多物种中,产生胚胎培养物的能力高度依赖于基因型。虽然一些现代转化和基因组编辑方法降低了基因型依赖性,但这些努力最终还是无法产生真正独立于基因型的组织培养方法。在这些基因型灵活的过程中,仍然会发现一些难以克服的基因型,它们的存在与更适应的品系形成鲜明对比,后者的反应效率可能要高出几个数量级。本综述旨在介绍体细胞胚胎发生、胚胎组织培养和植物转化的研究历史,尤其关注玉米。本综述还将介绍基于基因型柔性形态发生基因的转化和基因组工程的当代研究。植物生物技术从 20 世纪后半叶的新兴技术迅速发展为成熟的工作母机生产工艺,已经并将继续从根本上改变农业和植物遗传学研究。
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History and current status of embryogenic culture‐based tissue culture, transformation and gene editing of maize (Zea mays L.)
The production of embryogenic callus and somatic embryos is integral to the genetic improvement of crops via genetic transformation and gene editing. Regenerable embryogenic cultures also form the backbone of many micro‐propagation processes for crop species. In many species, including maize, the ability to produce embryogenic cultures is highly genotype dependent. While some modern transformation and genome editing methods reduce genotype dependence, these efforts ultimately fall short of producing truly genotype‐independent tissue culture methods. Recalcitrant genotypes are still identified in these genotype‐flexible processes, and their presence is magnified by the stark contrast with more amenable lines, which may respond more efficiently by orders of magnitude. This review aims to describe the history of research into somatic embryogenesis, embryogenic tissue cultures, and plant transformation, with particular attention paid to maize. Contemporary research into genotype‐flexible morphogenic gene‐based transformation and genome engineering is also covered in this review. The rapid evolution of plant biotechnology from nascent technologies in the latter half of the 20th century to well‐established, work‐horse production processes has, and will continue to, fundamentally changed agriculture and plant genetics research.
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