根癌农杆菌介导甘蔗胚性愈伤组织遗传转化的改进。

Q1 Agricultural and Biological Sciences Current protocols in plant biology Pub Date : 2018-02-13 DOI:10.1002/cppb.20055

Marcos Fernando Basso, Bárbara Andrade Dias Brito da Cunha, Ana Paula Ribeiro, Polyana Kelly Martins, Wagner Rodrigo de Souza, Nelson Geraldo de Oliveira, Thiago Jonas Nakayama, Raphael Augusto das Chagas Noqueli Casari, Thais Ribeiro Santiago, Felipe Vinecky, Letícia Jungmann Cançado, Carlos Antônio Ferreira de Sousa, Patricia Abrão de Oliveira, Silvana Aparecida Creste Dias de Souza, Geraldo Magela de Almeida Cançado, Adilson Kenji Kobayashi, Hugo Bruno Correa Molinari

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引用次数: 13

摘要

甘蔗（Saccharum spp.）是禾本科的一种单子叶半多年生C4草。其积累高含量蔗糖和生物量的能力使其成为食糖和生物燃料生产中最重要的作物之一。传统的甘蔗育种方法由于其复杂的多倍体和非整倍体基因组而显示出一些局限性。然而，通过生物技术工程进行改良是目前引入经济上重要性状的最有希望的替代方案。在这项工作中，我们提出了一种改良的方案，用于根癌农杆菌介导的商业甘蔗杂交种的转化，使用未成熟的顶端茎衍生的胚性愈伤组织培养。用携带二元载体的预处理根癌分枝杆菌转化愈伤组织培养物，所述二元载体编码感兴趣基因和双磷抗性基因的表达盒（bar赋予对草膦铵除草剂的抗性）。该方案已被用于成功转化商业甘蔗品种SP80-3280，强调：（i）减少了顽固性和氧化；（ii）胚性愈伤组织的高产率；（iii）改进选择；和（iv）转化植物的芽再生和生根。总的来说，这些改进产生了2.2%的转化效率。该方案为通过基因工程进行甘蔗改良的常规程序提供了可靠的工具。©2017 John Wiley&Sons，股份有限公司版权所有。

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Improved Genetic Transformation of Sugarcane (Saccharum spp.) Embryogenic Callus Mediated by Agrobacterium tumefaciens

Sugarcane (Saccharum spp.) is a monocotyledonous semi-perennial C4 grass of the Poaceae family. Its capacity to accumulate high content of sucrose and biomass makes it one of the most important crops for sugar and biofuel production. Conventional methods of sugarcane breeding have shown several limitations due to its complex polyploid and aneuploid genome. However, improvement by biotechnological engineering is currently the most promising alternative to introduce economically important traits. In this work, we present an improved protocol for Agrobacterium tumefaciens-mediated transformation of commercial sugarcane hybrids using immature top stalk-derived embryogenic callus cultures. The callus cultures are transformed with preconditioned A. tumefaciens carrying a binary vector that encodes expression cassettes for a gene of interest and the bialaphos resistance gene (bar confers resistance to glufosinate-ammonium herbicide). This protocol has been used to successfully transform a commercial sugarcane cultivar, SP80-3280, highlighting: (i) reduced recalcitrance and oxidation; (ii) high yield of embryogenic callus; (iii) improved selection; and (iv) shoot regeneration and rooting of the transformed plants. Altogether, these improvements generated a transformation efficiency of 2.2%. This protocol provides a reliable tool for a routine procedure for sugarcane improvement by genetic engineering. © 2017 by John Wiley & Sons, Inc.

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Current protocols in plant biology Agricultural and Biological Sciences-Plant Science

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期刊介绍： Sound and reproducible laboratory methods are the foundation of scientific discovery. Yet nuances that are critical for an experiment''s success are not captured in the primary literature but exist only as part of a lab''s oral tradition. Current Protocols in Plant Biology provides reproducible step-by-step instructions for protocols relevant to plant research. Furthermore, Current Protocols content is thoughtfully organized by topic for optimal usage and to maximize contextual knowledge. Quarterly issues allow Current Protocols in Plant Biology to constantly evolve to keep pace with the newest discoveries and developments. Current Protocols in Plant Biology is the comprehensive source for protocols in the multidisciplinary field of plant biology, providing an extensive range of protocols from basic to cutting edge. Coverage includes: Extraction and analysis of DNA, RNA, proteins Chromosome analysis Transcriptional analysis Protein expression Metabolites Plant enzymology Epigenetics Plant genetic transformation Mutagenesis Arabidopsis, Maize, Poplar, Rice, and Soybean, and more.