Somatic Embryogenesis, Genetic Modification, and GMOs at the Department of Plant Biotechnology and Cytogenetics at the IHAR

IF 1.1 4区 生物学 Q3 PLANT SCIENCES Acta Societatis Botanicorum Poloniae Pub Date : 2022-12-19 DOI:10.5586/asbp.9129
J. Zimny, S. Sowa
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引用次数: 1

Abstract

At the Plant Breeding and Acclimatization Institute, National Research Institute (IHAR), research on plant tissue cultures began in 1970s. Some in vitro methods, such as anther cultures or isolated microspore cultures, have been directly used to produce homozygous lines in plant breeding. These methods are also a prerequisite for genetic manipulation for both scientific and practical purposes. Here, we describe the achievements of the Department of Biotechnology and Cytogenetics over the last few decades in the area of somatic embryogenesis of cereals, genetic modifications, GMO detection and identification, and GMO legislation. This long-term research on plant regeneration systems has led to the development of the first transgenic triticale plants in the world and the first transgenic plants in Poland, which was followed by a multi-generation study of triticale transgene stability. The gene flow of transgenic triticale and transgenic maize investigated in field studies under Polish environmental conditions, as well as the evaluation of triticale pollen flow, provided scientific data for the development of coexistence measures and GMO risk assessment in case of plant authorization for cultivation. Based on the experience gained over the years, a GMO Controlling Laboratory was established to support the official control of GMOs in Poland and the EU. It was later nominated as one of the National Reference Laboratories collaborating with the Joint Research Center (JRC) of the European Commission, providing scientific and technical support in areas related to health and consumer protection. The GMO Controlling Laboratory is accredited by the Polish Center for Accreditation according to the ISO 17025 standard, ensuring high-quality analyses and flexible accreditation scope. It participates in the ongoing debate in Poland and the EU on the legal aspects of new genomic techniques in plant breeding through publications, lectures at scientific conferences, and by providing expertise to relevant bodies.
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IHAR植物生物技术和细胞遗传学系的体细胞胚胎发生、遗传修饰和转基因生物
在国家研究院植物育种与驯化研究所,植物组织培养的研究始于20世纪70年代。一些体外培养方法,如花药培养或分离的小孢子培养,已直接用于植物育种中产生纯合系。这些方法也是出于科学和实际目的进行基因操作的先决条件。在这里,我们介绍了生物技术和细胞遗传学系在过去几十年中在谷物体细胞胚胎发生、基因修饰、转基因检测和鉴定以及转基因立法方面取得的成就。这种对植物再生系统的长期研究导致了世界上第一个转基因小黑麦植物和波兰第一个转基因植物的发展,随后又进行了小黑麦转基因稳定性的多代研究。在波兰环境条件下实地研究中调查的转基因小黑麦和转基因玉米的基因流,以及对小黑麦花粉流的评估,为制定共存措施和在植物授权种植的情况下进行转基因风险评估提供了科学数据。根据多年来获得的经验,成立了转基因控制实验室,以支持波兰和欧盟对转基因生物的官方控制。它后来被提名为与欧盟委员会联合研究中心(JRC)合作的国家参考实验室之一,在健康和消费者保护相关领域提供科学和技术支持。GMO控制实验室根据ISO 17025标准获得波兰认证中心的认证,确保了高质量的分析和灵活的认证范围。它通过出版物、科学会议讲座以及向相关机构提供专业知识,参与了波兰和欧盟正在进行的关于植物育种中新基因组技术法律方面的辩论。
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来源期刊
CiteScore
2.00
自引率
10.00%
发文量
18
审稿时长
1 months
期刊介绍: The journal has been published since 1923 and offers Open Access publication of original research papers, short communications, and reviews in all areas of plant science, including evolution, ecology, genetics, plant structure and development, physiology and biochemistry.
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