Xiaofang Yi, Congcong Wang, Xiaoqi Yuan, Mi Zhang, Changwei Zhang, Tiaojiao Qin, Haiyun Wang, Liang Xu, Liwang Liu, Yan Wang
{"title":"通过发育调节剂和可见报告基因,探索经济高效的萝卜遗传转化和基因组编辑系统。","authors":"Xiaofang Yi, Congcong Wang, Xiaoqi Yuan, Mi Zhang, Changwei Zhang, Tiaojiao Qin, Haiyun Wang, Liang Xu, Liwang Liu, Yan Wang","doi":"10.1111/tpj.17068","DOIUrl":null,"url":null,"abstract":"<div>\n \n <p>Radish (<i>Raphanus sativus</i> L.) is one of the most important root vegetable crops worldwide. However, gene function exploration and germplasm innovation still face tremendous challenges due to its extremely low transformation efficiency. Here, an economic and highly efficient genetic transformation method for radish was explored by <i>Agrobacterium rhizogenes</i>-mediated transformation with the help of combining special developmental regulator (DR) genes and the visual identification reporter. Firstly, the <i>RUBY</i> gene, a betalain biosynthesis system, could result in a visual red-violet color used as a convenient and effective reporter for monitoring transgenic hairy roots screening of radish. However, the hairy roots-to-shoots conversion system of radish still stands as a barrier to the obtainment of whole transgenic plants, although different hormone combinations and various culture conditions were tried. Following, two DR genes including <i>Wuschel2</i> (<i>Wus2</i>) and isopentenyl transferase (<i>ipt</i>), as well as their combination <i>Wus2</i>-<i>ipt</i> were introduced for the shoot regeneration capacity improvement. The results showed that the transgenic shoots could be directly generated without externally supplying any hormones in the presence of a <i>Wus2</i>-<i>ipt</i> combination. Then, <i>Wus2</i>-<i>ipt</i> along with the <i>RUBY</i> reporter was employed to establish an efficient genetic transformation system of radish. Moreover, this system was applied in generating gene-edited radish plants and the phytoene desaturase (<i>RsPDS</i>) gene was effectively knockout through albino phenotype observation and sequencing analysis. These findings have the potential to be widely applied in genetic transformation and genome-editing genetic improvement of other vegetable species.</p>\n </div>","PeriodicalId":233,"journal":{"name":"The Plant Journal","volume":"120 4","pages":"1682-1692"},"PeriodicalIF":6.2000,"publicationDate":"2024-10-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Exploring an economic and highly efficient genetic transformation and genome-editing system for radish through developmental regulators and visible reporter\",\"authors\":\"Xiaofang Yi, Congcong Wang, Xiaoqi Yuan, Mi Zhang, Changwei Zhang, Tiaojiao Qin, Haiyun Wang, Liang Xu, Liwang Liu, Yan Wang\",\"doi\":\"10.1111/tpj.17068\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div>\\n \\n <p>Radish (<i>Raphanus sativus</i> L.) is one of the most important root vegetable crops worldwide. However, gene function exploration and germplasm innovation still face tremendous challenges due to its extremely low transformation efficiency. Here, an economic and highly efficient genetic transformation method for radish was explored by <i>Agrobacterium rhizogenes</i>-mediated transformation with the help of combining special developmental regulator (DR) genes and the visual identification reporter. Firstly, the <i>RUBY</i> gene, a betalain biosynthesis system, could result in a visual red-violet color used as a convenient and effective reporter for monitoring transgenic hairy roots screening of radish. However, the hairy roots-to-shoots conversion system of radish still stands as a barrier to the obtainment of whole transgenic plants, although different hormone combinations and various culture conditions were tried. Following, two DR genes including <i>Wuschel2</i> (<i>Wus2</i>) and isopentenyl transferase (<i>ipt</i>), as well as their combination <i>Wus2</i>-<i>ipt</i> were introduced for the shoot regeneration capacity improvement. The results showed that the transgenic shoots could be directly generated without externally supplying any hormones in the presence of a <i>Wus2</i>-<i>ipt</i> combination. Then, <i>Wus2</i>-<i>ipt</i> along with the <i>RUBY</i> reporter was employed to establish an efficient genetic transformation system of radish. Moreover, this system was applied in generating gene-edited radish plants and the phytoene desaturase (<i>RsPDS</i>) gene was effectively knockout through albino phenotype observation and sequencing analysis. 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Exploring an economic and highly efficient genetic transformation and genome-editing system for radish through developmental regulators and visible reporter
Radish (Raphanus sativus L.) is one of the most important root vegetable crops worldwide. However, gene function exploration and germplasm innovation still face tremendous challenges due to its extremely low transformation efficiency. Here, an economic and highly efficient genetic transformation method for radish was explored by Agrobacterium rhizogenes-mediated transformation with the help of combining special developmental regulator (DR) genes and the visual identification reporter. Firstly, the RUBY gene, a betalain biosynthesis system, could result in a visual red-violet color used as a convenient and effective reporter for monitoring transgenic hairy roots screening of radish. However, the hairy roots-to-shoots conversion system of radish still stands as a barrier to the obtainment of whole transgenic plants, although different hormone combinations and various culture conditions were tried. Following, two DR genes including Wuschel2 (Wus2) and isopentenyl transferase (ipt), as well as their combination Wus2-ipt were introduced for the shoot regeneration capacity improvement. The results showed that the transgenic shoots could be directly generated without externally supplying any hormones in the presence of a Wus2-ipt combination. Then, Wus2-ipt along with the RUBY reporter was employed to establish an efficient genetic transformation system of radish. Moreover, this system was applied in generating gene-edited radish plants and the phytoene desaturase (RsPDS) gene was effectively knockout through albino phenotype observation and sequencing analysis. These findings have the potential to be widely applied in genetic transformation and genome-editing genetic improvement of other vegetable species.
期刊介绍:
Publishing the best original research papers in all key areas of modern plant biology from the world"s leading laboratories, The Plant Journal provides a dynamic forum for this ever growing international research community.
Plant science research is now at the forefront of research in the biological sciences, with breakthroughs in our understanding of fundamental processes in plants matching those in other organisms. The impact of molecular genetics and the availability of model and crop species can be seen in all aspects of plant biology. For publication in The Plant Journal the research must provide a highly significant new contribution to our understanding of plants and be of general interest to the plant science community.