I G Loskutov, A A Gnutikov, E V Blinova, A V Rodionov
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This process can be clearly traced in Spain on the example of the cultivated diploid species A. strigosa, A. abyssinica in Ethiopia, A. byzantina in Turkey and Iran, and on segetal forms of A. sativa. The studies of the morphological features as a whole do not yield a complete picture of the evolutionary and systematic status of some oat species and forms. The methods and approaches that use DNA markers and genomic technologies, and are promising for the study of oat polymorphism and phylogeny have been actively researched recently. A number of works devoted to the molecular aspects of the evolution and phylogeny of the genus Avena have recently appeared. The research uses various markers of genes, gene regions, intergenic spacers (internal and external), both nuclear and chloroplast and mitochondrial, genomic approaches and other modern methods. On the basis of a comprehensive study of the complete intraspecific diversity from different zones of the distribution range of cultivated oat species as well as on the basis of an analysis of data on the geography of forms and species distribution ranges, it was established that the process of hexaploid species formation also took place in the western part of the Mediterranean, and subsequently, when moving eastward, these forms started occupying all the vast spaces in the region of the Southwest Asian center, forming a large intraspecific diversity of wild forms and weedy ones in transit to cultivated hexaploid oat species. An analysis of the intraspecific diversity of landraces has specified the centers of morphogenesis of all cultivated oat species. The phylogenetic analysis of the representative intraspecific diversity of cultivated and wild Avena species carried out using next generation sequencing (NGS) showed that diploid species with A-genome variants are in fact not primary diploids, but a peculiar Mediterranean introgressive hybridization complex of species that sporadically enter into interspecific hybridization. It was established that the tetraploid cultivated species A. abyssinica had most likely originated from the wild A. vaviloviana. An analysis of the ways of A. sativa and A. byzantina domestication showed that the most widespread ribotype of the A. sativa hexaploid was inherited from A. ludoviciana, and the second most widespread one, from A. magna, while A. byzantina has two unique ribotype families, most likely inherited from an extinct oat species or a still undiscovered cryptospecies.</p>","PeriodicalId":44339,"journal":{"name":"Vavilovskii Zhurnal Genetiki i Selektsii","volume":null,"pages":null},"PeriodicalIF":0.9000,"publicationDate":"2023-12-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10792501/pdf/","citationCount":"0","resultStr":"{\"title\":\"The application of Vavilov's approaches to the phylogeny and evolution of cultivated species of the genus Avena L.\",\"authors\":\"I G Loskutov, A A Gnutikov, E V Blinova, A V Rodionov\",\"doi\":\"10.18699/VJGB-23-107\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>The central problem that Vavilov was investigating was the overall concept of global plant genetic resources. The theoretical basis of this concept consisted of the law of homologous series in variation, research on the problem of species as a system, botanical and geographical bases of plant breeding, and the key theory of the centers of origin of cultivated plants. The VIR global collection of plant genetic resources collected by Vavilov and his associates from all over the world reflects the fullness of botanical, morphological and genetic diversity, and can be used for historical, evolutionary, phylogenetic and applied breeding research aimed at unlocking the potential of all the collection material. The whole diversity of cultivated oats, as was proved by Vavilov, had originated from segetal weeds. This process can be clearly traced in Spain on the example of the cultivated diploid species A. strigosa, A. abyssinica in Ethiopia, A. byzantina in Turkey and Iran, and on segetal forms of A. sativa. The studies of the morphological features as a whole do not yield a complete picture of the evolutionary and systematic status of some oat species and forms. The methods and approaches that use DNA markers and genomic technologies, and are promising for the study of oat polymorphism and phylogeny have been actively researched recently. A number of works devoted to the molecular aspects of the evolution and phylogeny of the genus Avena have recently appeared. The research uses various markers of genes, gene regions, intergenic spacers (internal and external), both nuclear and chloroplast and mitochondrial, genomic approaches and other modern methods. On the basis of a comprehensive study of the complete intraspecific diversity from different zones of the distribution range of cultivated oat species as well as on the basis of an analysis of data on the geography of forms and species distribution ranges, it was established that the process of hexaploid species formation also took place in the western part of the Mediterranean, and subsequently, when moving eastward, these forms started occupying all the vast spaces in the region of the Southwest Asian center, forming a large intraspecific diversity of wild forms and weedy ones in transit to cultivated hexaploid oat species. An analysis of the intraspecific diversity of landraces has specified the centers of morphogenesis of all cultivated oat species. 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引用次数: 0
摘要
瓦维洛夫研究的核心问题是全球植物遗传资源的总体概念。这一概念的理论基础包括变异中的同源系列定律、物种作为一个系统问题的研究、植物育种的植物学和地理学基础以及栽培植物起源中心的关键理论。瓦维洛夫和他的同事们从世界各地收集的 VIR 全球植物遗传资源集反映了植物学、形态学和遗传学的多样性,可用于历史、进化、系统发育和应用育种研究,旨在发掘所有收集材料的潜力。正如瓦维洛夫(Vavilov)所证明的那样,栽培燕麦的全部多样性都源自杂草。这一过程在西班牙的栽培二倍体燕麦 A. strigosa、埃塞俄比亚的燕麦 A. abyssinica、土耳其和伊朗的燕麦 A. byzantina 以及燕麦 A. sativa 的杂交种上都有清晰的痕迹。对形态特征的整体研究并不能全面反映某些燕麦物种和形态的进化和系统状况。利用 DNA 标记和基因组技术的方法和途径,对燕麦多态性和系统发育的研究很有前景,近来已得到积极研究。最近出现了一些专门研究燕麦属进化和系统发育的分子方面的著作。研究采用了基因、基因区域、基因间距(内部和外部)、核和叶绿体及线粒体的各种标记、基因组学方法和其他现代方法。在对栽培燕麦物种分布范围内不同区域的完整种内多样性进行综合研究的基础上,以及在对形态地理和物种分布范围数据进行分析的基础上,确定了六倍体物种的形成过程也发生在地中海西部,随后向东移动时,这些形态开始占据西南亚中心区域的所有广阔空间,形成了野生形态和杂草形态向栽培六倍体燕麦物种过渡的大量种内多样性。对陆生品系种内多样性的分析明确了所有栽培燕麦物种的形态发生中心。利用新一代测序技术(NGS)对栽培燕麦和野生燕麦物种的代表性种内多样性进行的系统发育分析表明,具有 A 基因组变体的二倍体物种实际上并不是原生二倍体,而是一种特殊的地中海引种杂交复合体,偶尔会发生种间杂交。研究发现,四倍体栽培种 A. abyssinica 很可能起源于野生种 A. vaviloviana。对A. sativa和A. byzantina驯化方式的分析表明,A. sativa六倍体最普遍的核糖体型继承自A. ludoviciana,第二普遍的核糖体型继承自A. magna,而A. byzantina有两个独特的核糖体型家族,很可能继承自一个已灭绝的燕麦物种或一个尚未发现的隐种。
The application of Vavilov's approaches to the phylogeny and evolution of cultivated species of the genus Avena L.
The central problem that Vavilov was investigating was the overall concept of global plant genetic resources. The theoretical basis of this concept consisted of the law of homologous series in variation, research on the problem of species as a system, botanical and geographical bases of plant breeding, and the key theory of the centers of origin of cultivated plants. The VIR global collection of plant genetic resources collected by Vavilov and his associates from all over the world reflects the fullness of botanical, morphological and genetic diversity, and can be used for historical, evolutionary, phylogenetic and applied breeding research aimed at unlocking the potential of all the collection material. The whole diversity of cultivated oats, as was proved by Vavilov, had originated from segetal weeds. This process can be clearly traced in Spain on the example of the cultivated diploid species A. strigosa, A. abyssinica in Ethiopia, A. byzantina in Turkey and Iran, and on segetal forms of A. sativa. The studies of the morphological features as a whole do not yield a complete picture of the evolutionary and systematic status of some oat species and forms. The methods and approaches that use DNA markers and genomic technologies, and are promising for the study of oat polymorphism and phylogeny have been actively researched recently. A number of works devoted to the molecular aspects of the evolution and phylogeny of the genus Avena have recently appeared. The research uses various markers of genes, gene regions, intergenic spacers (internal and external), both nuclear and chloroplast and mitochondrial, genomic approaches and other modern methods. On the basis of a comprehensive study of the complete intraspecific diversity from different zones of the distribution range of cultivated oat species as well as on the basis of an analysis of data on the geography of forms and species distribution ranges, it was established that the process of hexaploid species formation also took place in the western part of the Mediterranean, and subsequently, when moving eastward, these forms started occupying all the vast spaces in the region of the Southwest Asian center, forming a large intraspecific diversity of wild forms and weedy ones in transit to cultivated hexaploid oat species. An analysis of the intraspecific diversity of landraces has specified the centers of morphogenesis of all cultivated oat species. The phylogenetic analysis of the representative intraspecific diversity of cultivated and wild Avena species carried out using next generation sequencing (NGS) showed that diploid species with A-genome variants are in fact not primary diploids, but a peculiar Mediterranean introgressive hybridization complex of species that sporadically enter into interspecific hybridization. It was established that the tetraploid cultivated species A. abyssinica had most likely originated from the wild A. vaviloviana. An analysis of the ways of A. sativa and A. byzantina domestication showed that the most widespread ribotype of the A. sativa hexaploid was inherited from A. ludoviciana, and the second most widespread one, from A. magna, while A. byzantina has two unique ribotype families, most likely inherited from an extinct oat species or a still undiscovered cryptospecies.
期刊介绍:
The "Vavilov Journal of genetics and breeding" publishes original research and review articles in all key areas of modern plant, animal and human genetics, genomics, bioinformatics and biotechnology. One of the main objectives of the journal is integration of theoretical and applied research in the field of genetics. Special attention is paid to the most topical areas in modern genetics dealing with global concerns such as food security and human health.