{"title":"GhRPRS1顺式元素的自然变化导致棉花花瓣颜色的多样性","authors":"Wei Hu, Yanli Chen, Zhenzhen Xu, Linqiang Liu, Da Yan, Miaoyang Liu, Qingdi Yan, Yihao Zhang, Lan Yang, Chenxu Gao, Renju Liu, Wenqiang Qin, Pengfei Miao, Meng Ma, Peng Wang, Babai Gao, Fuguang Li, Zhaoen Yang","doi":"10.1111/pbi.14468","DOIUrl":null,"url":null,"abstract":"The cotton genus comprises both diploid and allotetraploid species, and the diversity in petal colour within this genus offers valuable targets for studying orthologous gene function differentiation and evolution. However, the genetic basis for this diversity in petal colour remains largely unknown. The red petal colour primarily comes from C, G, K, and D genome species, and it is likely that the common ancestor of cotton had red petals. Here, by employing a clone mapping strategy, we mapped the red petal trait to a specific region on chromosome A07 in upland cotton. Genomic comparisons and phylogenetic analyses revealed that the red petal phenotype introgressed from <i>G. bickii</i>. Transcriptome analysis indicated that <i>GhRPRS1</i>, which encodes a glutathione S-transferase, was the causative gene for the red petal colour. Knocking out <i>GhRPRS1</i> resulted in white petals and the absence of red spots, while overexpression of both genotypes of <i>GhRPRS1</i> led to red petals. Further analysis suggested that <i>GhRPRS1</i> played a role in transporting pelargonidin-3-O-glucoside and cyanidin-3-O-glucoside. Promoter activity analysis indicated that variations in the promoter, but not in the gene body of <i>GhRPRS1</i>, have led to different petal colours within the genus. Our findings provide new insights into orthologous gene evolution as well as new strategies for modifying promoters in cotton breeding.","PeriodicalId":221,"journal":{"name":"Plant Biotechnology Journal","volume":"9 1","pages":""},"PeriodicalIF":10.1000,"publicationDate":"2024-09-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Natural variations in the Cis-elements of GhRPRS1 contributing to petal colour diversity in cotton\",\"authors\":\"Wei Hu, Yanli Chen, Zhenzhen Xu, Linqiang Liu, Da Yan, Miaoyang Liu, Qingdi Yan, Yihao Zhang, Lan Yang, Chenxu Gao, Renju Liu, Wenqiang Qin, Pengfei Miao, Meng Ma, Peng Wang, Babai Gao, Fuguang Li, Zhaoen Yang\",\"doi\":\"10.1111/pbi.14468\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"The cotton genus comprises both diploid and allotetraploid species, and the diversity in petal colour within this genus offers valuable targets for studying orthologous gene function differentiation and evolution. However, the genetic basis for this diversity in petal colour remains largely unknown. The red petal colour primarily comes from C, G, K, and D genome species, and it is likely that the common ancestor of cotton had red petals. Here, by employing a clone mapping strategy, we mapped the red petal trait to a specific region on chromosome A07 in upland cotton. Genomic comparisons and phylogenetic analyses revealed that the red petal phenotype introgressed from <i>G. bickii</i>. Transcriptome analysis indicated that <i>GhRPRS1</i>, which encodes a glutathione S-transferase, was the causative gene for the red petal colour. Knocking out <i>GhRPRS1</i> resulted in white petals and the absence of red spots, while overexpression of both genotypes of <i>GhRPRS1</i> led to red petals. Further analysis suggested that <i>GhRPRS1</i> played a role in transporting pelargonidin-3-O-glucoside and cyanidin-3-O-glucoside. Promoter activity analysis indicated that variations in the promoter, but not in the gene body of <i>GhRPRS1</i>, have led to different petal colours within the genus. 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引用次数: 0
摘要
棉花属包括二倍体和异源四倍体物种,该属花瓣颜色的多样性为研究正交基因功能分化和进化提供了宝贵的目标。然而,花瓣颜色多样性的遗传基础在很大程度上仍然未知。红色花瓣主要来自 C、G、K 和 D 基因组物种,棉花的共同祖先很可能具有红色花瓣。在此,我们采用克隆作图策略,将红色花瓣性状绘制到陆地棉 A07 染色体上的一个特定区域。基因组比较和系统进化分析表明,红色花瓣表型是从 G. bickii 传入的。转录组分析表明,编码谷胱甘肽 S-转移酶的 GhRPRS1 是红色花瓣的致病基因。敲除 GhRPRS1 会导致花瓣变白且没有红色斑点,而过表达两种基因型的 GhRPRS1 则会导致花瓣变红。进一步的分析表明,GhRPRS1 在运输鹅掌楸素-3-O-葡萄糖苷和青花素-3-O-葡萄糖苷中发挥作用。启动子活性分析表明,启动子(而非 GhRPRS1 基因体)的变异导致了花瓣属中花瓣颜色的不同。我们的研究结果为同源基因的进化提供了新的视角,也为棉花育种中修改启动子提供了新的策略。
Natural variations in the Cis-elements of GhRPRS1 contributing to petal colour diversity in cotton
The cotton genus comprises both diploid and allotetraploid species, and the diversity in petal colour within this genus offers valuable targets for studying orthologous gene function differentiation and evolution. However, the genetic basis for this diversity in petal colour remains largely unknown. The red petal colour primarily comes from C, G, K, and D genome species, and it is likely that the common ancestor of cotton had red petals. Here, by employing a clone mapping strategy, we mapped the red petal trait to a specific region on chromosome A07 in upland cotton. Genomic comparisons and phylogenetic analyses revealed that the red petal phenotype introgressed from G. bickii. Transcriptome analysis indicated that GhRPRS1, which encodes a glutathione S-transferase, was the causative gene for the red petal colour. Knocking out GhRPRS1 resulted in white petals and the absence of red spots, while overexpression of both genotypes of GhRPRS1 led to red petals. Further analysis suggested that GhRPRS1 played a role in transporting pelargonidin-3-O-glucoside and cyanidin-3-O-glucoside. Promoter activity analysis indicated that variations in the promoter, but not in the gene body of GhRPRS1, have led to different petal colours within the genus. Our findings provide new insights into orthologous gene evolution as well as new strategies for modifying promoters in cotton breeding.
期刊介绍:
Plant Biotechnology Journal aspires to publish original research and insightful reviews of high impact, authored by prominent researchers in applied plant science. The journal places a special emphasis on molecular plant sciences and their practical applications through plant biotechnology. Our goal is to establish a platform for showcasing significant advances in the field, encompassing curiosity-driven studies with potential applications, strategic research in plant biotechnology, scientific analysis of crucial issues for the beneficial utilization of plant sciences, and assessments of the performance of plant biotechnology products in practical applications.
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