Xia Xiaodong , Zhang Xiaobo , Wang Zhonghao , Cheng Benyi , Sun Huifeng , Xu Xia , Gong Junyi , Yang Shihua , Wu Jianli , Shi Yongfeng , Xu Rugen
{"title":"水稻黄化致死突变体LE基因的定位与功能分析","authors":"Xia Xiaodong , Zhang Xiaobo , Wang Zhonghao , Cheng Benyi , Sun Huifeng , Xu Xia , Gong Junyi , Yang Shihua , Wu Jianli , Shi Yongfeng , Xu Rugen","doi":"10.1016/j.rsci.2023.07.001","DOIUrl":null,"url":null,"abstract":"<div><p>An EMS (ethy methanesulfonate)-induced lethal etiolated (<em>le</em>) mutant obtained from the rice variety Zhongjian 100 was characterized by lethal etiolated phenotypes, with significantly reduced levels of chlorophyll a, chlorophyll b, total chlorophyll, and carotenoids. Additionally, the mutant displayed a significantly decreased number of chloroplast grana, along with irregular and less-stacked grana lamellae. The <em>le</em> mutant showed markedly diminished root length, root surface area, and root volume compared with the wild type. It also exhibited significantly lower catalase activity and total protein content, while peroxidase activity was significantly higher. Using the map-based cloning method, we successfully mapped the <em>LE</em> gene to a 48-kb interval between markers RM16107 and RM16110 on rice chromosome 3. A mutation (from T to C) was identified at nucleotide position 692 bp of <em>LOC_Os03g59640</em> (<em>ChlD</em>), resulting in a change from leucine to proline. By crossing <em>HM133</em> (a pale green mutant with a single-base substitution of A for G in exon 10 of ChlD subunit) with a heterozygous line of <em>le</em> (<em>LEle</em>), we obtained two plant lines heterozygous at both the <em>LE</em> and <em>HM133</em> loci. Among 15 transgenic plants, 3 complementation lines displayed normal leaf color with significantly higher total chlorophyll, chlorophyll a, and chlorophyll b contents. The mutation in <em>le</em> led to a lethal etiolated phenotype, which has not been observed in other ChlD mutants. The mutation in the AAA<sup>+</sup> domain of ChlD disrupted the interaction of ChlD<sup><em>le</em></sup> with ChlI as demonstrated by a yeast two-hybrid assay, leading to the loss of ChlD function and hindering chlorophyll synthesis and chloroplast development. Consequently, this disruption is responsible for the lethal etiolated phenotype in the mutant.</p></div>","PeriodicalId":56069,"journal":{"name":"Rice Science","volume":"30 6","pages":"Pages 567-576"},"PeriodicalIF":5.6000,"publicationDate":"2023-11-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1672630823000823/pdfft?md5=127875405e0b89e5a15a909e0b17f7ae&pid=1-s2.0-S1672630823000823-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Mapping and Functional Analysis of LE Gene in a Lethal Etiolated Rice Mutant at Seedling Stage\",\"authors\":\"Xia Xiaodong , Zhang Xiaobo , Wang Zhonghao , Cheng Benyi , Sun Huifeng , Xu Xia , Gong Junyi , Yang Shihua , Wu Jianli , Shi Yongfeng , Xu Rugen\",\"doi\":\"10.1016/j.rsci.2023.07.001\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>An EMS (ethy methanesulfonate)-induced lethal etiolated (<em>le</em>) mutant obtained from the rice variety Zhongjian 100 was characterized by lethal etiolated phenotypes, with significantly reduced levels of chlorophyll a, chlorophyll b, total chlorophyll, and carotenoids. Additionally, the mutant displayed a significantly decreased number of chloroplast grana, along with irregular and less-stacked grana lamellae. The <em>le</em> mutant showed markedly diminished root length, root surface area, and root volume compared with the wild type. It also exhibited significantly lower catalase activity and total protein content, while peroxidase activity was significantly higher. Using the map-based cloning method, we successfully mapped the <em>LE</em> gene to a 48-kb interval between markers RM16107 and RM16110 on rice chromosome 3. A mutation (from T to C) was identified at nucleotide position 692 bp of <em>LOC_Os03g59640</em> (<em>ChlD</em>), resulting in a change from leucine to proline. By crossing <em>HM133</em> (a pale green mutant with a single-base substitution of A for G in exon 10 of ChlD subunit) with a heterozygous line of <em>le</em> (<em>LEle</em>), we obtained two plant lines heterozygous at both the <em>LE</em> and <em>HM133</em> loci. Among 15 transgenic plants, 3 complementation lines displayed normal leaf color with significantly higher total chlorophyll, chlorophyll a, and chlorophyll b contents. The mutation in <em>le</em> led to a lethal etiolated phenotype, which has not been observed in other ChlD mutants. The mutation in the AAA<sup>+</sup> domain of ChlD disrupted the interaction of ChlD<sup><em>le</em></sup> with ChlI as demonstrated by a yeast two-hybrid assay, leading to the loss of ChlD function and hindering chlorophyll synthesis and chloroplast development. 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Mapping and Functional Analysis of LE Gene in a Lethal Etiolated Rice Mutant at Seedling Stage
An EMS (ethy methanesulfonate)-induced lethal etiolated (le) mutant obtained from the rice variety Zhongjian 100 was characterized by lethal etiolated phenotypes, with significantly reduced levels of chlorophyll a, chlorophyll b, total chlorophyll, and carotenoids. Additionally, the mutant displayed a significantly decreased number of chloroplast grana, along with irregular and less-stacked grana lamellae. The le mutant showed markedly diminished root length, root surface area, and root volume compared with the wild type. It also exhibited significantly lower catalase activity and total protein content, while peroxidase activity was significantly higher. Using the map-based cloning method, we successfully mapped the LE gene to a 48-kb interval between markers RM16107 and RM16110 on rice chromosome 3. A mutation (from T to C) was identified at nucleotide position 692 bp of LOC_Os03g59640 (ChlD), resulting in a change from leucine to proline. By crossing HM133 (a pale green mutant with a single-base substitution of A for G in exon 10 of ChlD subunit) with a heterozygous line of le (LEle), we obtained two plant lines heterozygous at both the LE and HM133 loci. Among 15 transgenic plants, 3 complementation lines displayed normal leaf color with significantly higher total chlorophyll, chlorophyll a, and chlorophyll b contents. The mutation in le led to a lethal etiolated phenotype, which has not been observed in other ChlD mutants. The mutation in the AAA+ domain of ChlD disrupted the interaction of ChlDle with ChlI as demonstrated by a yeast two-hybrid assay, leading to the loss of ChlD function and hindering chlorophyll synthesis and chloroplast development. Consequently, this disruption is responsible for the lethal etiolated phenotype in the mutant.
Rice ScienceAgricultural and Biological Sciences-Agronomy and Crop Science
CiteScore
8.90
自引率
6.20%
发文量
55
审稿时长
40 weeks
期刊介绍:
Rice Science is an international research journal sponsored by China National Rice Research Institute. It publishes original research papers, review articles, as well as short communications on all aspects of rice sciences in English language. Some of the topics that may be included in each issue are: breeding and genetics, biotechnology, germplasm resources, crop management, pest management, physiology, soil and fertilizer management, ecology, cereal chemistry and post-harvest processing.