Youmna Melzi , Francesca La Bella , Alessandro Silvestre Gristina , Marcello Zerbo , Douadi Khelifi , Sakina Bechkri , Guglielmo Puccio , Francesco Carimi , Silvio Fici , Francesco Mercati
{"title":"地中海地区 Capparis spinosa 群的遗传分化","authors":"Youmna Melzi , Francesca La Bella , Alessandro Silvestre Gristina , Marcello Zerbo , Douadi Khelifi , Sakina Bechkri , Guglielmo Puccio , Francesco Carimi , Silvio Fici , Francesco Mercati","doi":"10.1016/j.ppees.2024.125794","DOIUrl":null,"url":null,"abstract":"<div><p>The <em>Capparis spinosa</em> group is represented in the Mediterranean by a complex of taxa widespread in North Africa, the Middle East, and southern Europe. The taxonomy of this group used to be based on morphological characters with little work on the genetics of the group, and there is still much to be learned about its evolutionary history and diversification. We sampled 431 individuals of two subspecies and five varieties of <em>C. spinosa</em> and analysed them using highly informative EST-SSR markers to evaluate the population genetic diversity, structure and differentiation of the species in the Mediterranean. In addition, comparisons with the genetic profiles of <em>C. spinosa</em> subsp. <em>cartilaginea,</em> the putative ancestral taxon were made to investigate the phylogeographic history and possible gene flow across taxa. Integrated Bayesian approaches showed: <em>i)</em> a high divergence among <em>C. spinosa</em> subsp. <em>spinosa</em> var. <em>canescens</em>, <em>C. spinosa</em> subsp. <em>spinosa</em> var. <em>aegyptia</em> and the three varieties belonging to <em>C. spinosa</em> subsp. <em>rupestris</em> (var. <em>rupestris</em>, var. <em>ovata</em> and var. <em>myrtifolia</em>), with a clear separation between var. <em>aegyptia</em> and var. <em>canescens</em> which allows to consider var. <em>aegyptia</em> as a subspecies of <em>C. spinosa</em>; <em>ii)</em> a significant correlation between genetic divergence and geographic distance between the five varieties studied; <em>iii)</em> that the different varieties in the Mediterranean may have been derived from <em>C. spinosa</em> subsp. <em>cartilaginea</em>. Further genomic investigations are required to confirm our results. However, the findings presented allows us to suggest the genus <em>Capparis</em> can be considered a model for the study of the gene flow and differentiation in species occurring in a wide range of habitats.</p></div>","PeriodicalId":3,"journal":{"name":"ACS Applied Electronic Materials","volume":null,"pages":null},"PeriodicalIF":4.3000,"publicationDate":"2024-04-12","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1433831924000179/pdfft?md5=a710d329c6d1499c2c5edc3d4d4dfbed&pid=1-s2.0-S1433831924000179-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Genetic differentiation of the Capparis spinosa group in the Mediterranean area\",\"authors\":\"Youmna Melzi , Francesca La Bella , Alessandro Silvestre Gristina , Marcello Zerbo , Douadi Khelifi , Sakina Bechkri , Guglielmo Puccio , Francesco Carimi , Silvio Fici , Francesco Mercati\",\"doi\":\"10.1016/j.ppees.2024.125794\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>The <em>Capparis spinosa</em> group is represented in the Mediterranean by a complex of taxa widespread in North Africa, the Middle East, and southern Europe. The taxonomy of this group used to be based on morphological characters with little work on the genetics of the group, and there is still much to be learned about its evolutionary history and diversification. We sampled 431 individuals of two subspecies and five varieties of <em>C. spinosa</em> and analysed them using highly informative EST-SSR markers to evaluate the population genetic diversity, structure and differentiation of the species in the Mediterranean. In addition, comparisons with the genetic profiles of <em>C. spinosa</em> subsp. <em>cartilaginea,</em> the putative ancestral taxon were made to investigate the phylogeographic history and possible gene flow across taxa. Integrated Bayesian approaches showed: <em>i)</em> a high divergence among <em>C. spinosa</em> subsp. <em>spinosa</em> var. <em>canescens</em>, <em>C. spinosa</em> subsp. <em>spinosa</em> var. <em>aegyptia</em> and the three varieties belonging to <em>C. spinosa</em> subsp. <em>rupestris</em> (var. <em>rupestris</em>, var. <em>ovata</em> and var. <em>myrtifolia</em>), with a clear separation between var. <em>aegyptia</em> and var. <em>canescens</em> which allows to consider var. <em>aegyptia</em> as a subspecies of <em>C. spinosa</em>; <em>ii)</em> a significant correlation between genetic divergence and geographic distance between the five varieties studied; <em>iii)</em> that the different varieties in the Mediterranean may have been derived from <em>C. spinosa</em> subsp. <em>cartilaginea</em>. Further genomic investigations are required to confirm our results. 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引用次数: 0
摘要
地中海地区的 Capparis spinosa 类群由广泛分布于北非、中东和南欧的多个类群组成。该类群的分类过去一直以形态特征为基础,对该类群的遗传学研究甚少,对其进化史和多样化仍有许多问题需要了解。我们对 C. spinosa 的两个亚种和五个变种的 431 个个体进行了采样,并使用信息量很大的 EST-SSR 标记对它们进行了分析,以评估地中海地区该物种的种群遗传多样性、结构和分化情况。此外,还与 C. spinosa subsp. cartilaginea(假定的祖先类群)的遗传图谱进行了比较,以研究类群间的系统地理历史和可能的基因流动。综合贝叶斯方法显示: i) C. spinosa subsp.canescens,因此可将 aegyptia 变种视为 C. spinosa 的一个亚种;ii) 所研究的五个变种之间的遗传差异与地理距离之间存在显著相关性;iii) 地中海地区的不同变种可能源自 C. spinosa 亚种 cartilaginea。要证实我们的结果,还需要进一步的基因组研究。不过,我们的研究结果表明,Capparis 属可被视为研究广泛栖息地物种基因流动和分化的典范。
Genetic differentiation of the Capparis spinosa group in the Mediterranean area
The Capparis spinosa group is represented in the Mediterranean by a complex of taxa widespread in North Africa, the Middle East, and southern Europe. The taxonomy of this group used to be based on morphological characters with little work on the genetics of the group, and there is still much to be learned about its evolutionary history and diversification. We sampled 431 individuals of two subspecies and five varieties of C. spinosa and analysed them using highly informative EST-SSR markers to evaluate the population genetic diversity, structure and differentiation of the species in the Mediterranean. In addition, comparisons with the genetic profiles of C. spinosa subsp. cartilaginea, the putative ancestral taxon were made to investigate the phylogeographic history and possible gene flow across taxa. Integrated Bayesian approaches showed: i) a high divergence among C. spinosa subsp. spinosa var. canescens, C. spinosa subsp. spinosa var. aegyptia and the three varieties belonging to C. spinosa subsp. rupestris (var. rupestris, var. ovata and var. myrtifolia), with a clear separation between var. aegyptia and var. canescens which allows to consider var. aegyptia as a subspecies of C. spinosa; ii) a significant correlation between genetic divergence and geographic distance between the five varieties studied; iii) that the different varieties in the Mediterranean may have been derived from C. spinosa subsp. cartilaginea. Further genomic investigations are required to confirm our results. However, the findings presented allows us to suggest the genus Capparis can be considered a model for the study of the gene flow and differentiation in species occurring in a wide range of habitats.