GENETIC DIVERSITY AND MOLECULAR TAXONOMY STUDY OF GENUS FESTUCA

August 1985 Pub Date : 2020-04-25 DOI:10.36899/japs.2020.4.0109

A. Alsaleh, M. Dogrusoz, U. Başaran, A. Tamkoç, M. Avcı

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Abstract

The genus Festuca (Poaceae) occupies a wide range of lands in both hemispheres, with astounding significance endowed by the genetic diversity, intra/inter-species discriminations, and structure analysis of Fescue species based on a reliable molecular marker. While still in the infancy stage, information on genetic structure and relationships of Festuca species from Turkish gene pool have rarely, or never, been subjected to the most needed studies. Six species of genus Festuca were put in the limelight. A total of 598 loci were generated through molecular characterization of 68 accessions by using 19 inter-simple sequence repeats primers. Molecular variance revealed a variation within species and among species of 75% and 25, respectively. The F. ovina showed high values in relation to the number of different alleles, Shannon's information index, and percentage of polymorphic loci. The highest genetic variability, expected and unbiased expected heterozygosity values were detected for F. arundinacea . Nei genetic distance showed that the lowest value was found between F. ovina and F. valesiaca species, while the highest was identified between F. heterophylla and F. pratensis species. An obvious convergence has been detected through Principal Coordinate Analysis, neighbor-joining dendrogram and Structure output, with accessions divided into number-of- species-based groups. The study resulted in implications for genetic revision, which, in turn, may clear the misty vision that geneticists might have regarding fescue; and could be exploited in future genetic resources conservation and breeding

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羊茅属植物遗传多样性及分子分类研究

羊茅属(禾科)在南北半球分布广泛，基于可靠分子标记的羊茅属遗传多样性、种内/种间判别和结构分析具有惊人的意义。虽然仍处于初级阶段，但土耳其基因库中羊茅属物种的遗传结构和关系信息很少或从未受到最需要的研究。六种羊茅属植物成为人们关注的焦点。利用19条简单序列重复引物对68份材料进行分子鉴定，共获得598个位点。分子变异显示种内变异75%，种间变异25%。在不同等位基因数量、香农信息指数和多态位点百分率方面均表现出较高的值。在遗传变异、期望杂合度和无偏期望杂合度方面，黄花菊具有最高的遗传变异性。内遗传距离表明，羊角镰刀菌与白叶镰刀菌之间的遗传距离最低，而异叶镰刀菌与草地镰刀菌之间的遗传距离最高。通过主坐标分析、邻接树形图和结构输出，发现了明显的收敛性，并将物种划分为基于数量的类群。这项研究对基因修改产生了影响，反过来，这可能会澄清遗传学家对羊茅的模糊看法;并可在今后的遗传资源保护和育种中加以利用

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来源期刊

August 1985

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