A basic scheme of soybean transformation for glyphosate tolerance using Agrobacterium tumefaciens through an approximation of patents: a review

Q4 Agricultural and Biological Sciences

Agronomia Colombiana Pub Date : 2021-05-01 DOI:10.15446/AGRON.COLOMB.V39N2.92644

A. C. Rojas Arias, Alejandro Chaparro-Giraldo (R. I. P.), S. López-Pazos

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引用次数: 0

Abstract

Concern has been expressed on the control of agricultural biotechnology through patents that may adversely affect the development of competing crops. Soybean is one of the most important crops around the world (~287 million t per year), above potatoes (45 million t per year), tomatoes (23 million t per year), or wheat (116 million t per year), with prices for American producers ranging between USD 278.8 and USD 650.3 t-1. Soybean belongs to the Fabaceae family and has been genetically modified (GM) to improve its tolerance to herbicides, including glyphosate, its resistance to insect pests, and the quality of soy oil. Glyphosate-tolerant soybean has received a gene coding for the 5-enolpyruvylshikimate-3-phosphate synthase (EPSPS). There are a number of variables that contribute to the development of a GM soybean event. Such variables include tissue culture, selection methods, cloning vectors, and Agrobacterium strains that affect transformation efficiency and can be associated with patents. Chlorine gas disinfection is the most appropriate technique for plant material. Production of explants with shoots and molecular and phenotypic features (e.g., antibiotic susceptibility) of bacterial strain must be assessed. A long-term glyphosate selection arrangement is the most suitable and a consistent approach for the selection of events of GM soybean with tolerance to glyphosate. Freedom-to-operate evaluation must be carried out to find the specific elements neccesary for GM plant development that do not infringe the rights of third parties. These rights come into effect from the patent application date for a definite geographical region involving construct design and its synthesis, transformation vector, bacterial strain, methods, or reporter gene. In this review, the protocols relating to experiments for the development of GM soybean using an epsps gene are included, and considerations relating to intellectual property rights are involved. The major elements associated with each stage of the development of patents are described including the following: the soybean genotype, seed disinfection, genetic construct design and its synthesis, tissue culture protocols, selection strategy without gene reporter, and Agrobacterium strain. This review is a guide for carrying out technical procedures when the desired product is the off-patent GM soybean with tolerance to glyphosate.

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利用农杆菌对大豆进行草甘膦抗性转化的基本方案:通过近似专利的回顾

有人对通过专利控制农业生物技术表示关切，这些专利可能对竞争作物的发展产生不利影响。大豆是世界上最重要的作物之一（每年约2.87亿吨），超过土豆（每年4500万吨）、西红柿（每年2300万吨）或小麦（每年1.16亿吨），美国生产商的价格在278.8美元至650.3美元之间。大豆属于蚕豆科，经过基因改造（GM）以提高其对除草剂的耐受性，包括草甘膦、对害虫的抵抗力和豆油的质量。草甘膦耐受性大豆已获得编码5-烯醇丙酮酸莽草酸-3-磷酸合成酶（EPSPS）的基因。有许多变量有助于转基因大豆事件的发展。这些变量包括组织培养、选择方法、克隆载体和影响转化效率并可能与专利相关的农杆菌菌株。氯气消毒是最适合植物材料的技术。必须评估具有芽的外植体的生产以及菌株的分子和表型特征（例如抗生素敏感性）。长期草甘膦选择安排是选择对草甘膦具有耐受性的转基因大豆事件的最合适和一致的方法。必须进行运营自由评估，以找出转基因植物开发所需的不侵犯第三方权利的具体要素。这些权利自涉及构建体设计及其合成、转化载体、菌株、方法或报告基因的特定地理区域的专利申请日起生效。在这篇综述中，包括与使用epsps基因开发转基因大豆的实验相关的协议，并涉及与知识产权相关的考虑因素。描述了与专利开发的每个阶段相关的主要元素，包括以下内容：大豆基因型、种子消毒、遗传构建体设计及其合成、组织培养方案、无基因报告基因的选择策略和农杆菌菌株。当所需产品是对草甘膦具有耐受性的非专利转基因大豆时，本综述是执行技术程序的指南。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Agronomia Colombiana Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

25 weeks

期刊介绍： Agronomia Colombiana journal it is intended to transfer research results in different areas of tropical agronomy. Original unpublished papers are therefore accepted in the following areas: physiology, crop nutrition and fertilization, genetics and plant breeding, entomology, phytopathology, integrated crop protection, agro ecology, weed science, environmental management, geomatics, biometry, soils, water and irrigation, agroclimatology and climate change, post-harvest and agricultural industrialization, food technology, rural and agricultural entrepreneurial development, agrarian economy, and agricultural marketing (Published: Quarterly).