利用引物内结合位点(iPBS)标记探索 5 种野生二粒小麦属物种的遗传多样性和种群结构。
Exploring genetic diversity and Population structure of five Aegilops species with inter-primer binding site (iPBS) markers.
机构信息
Kiziltepe Vocational School, Mardin Artuklu University, Mardin, Türkiye.
Department of Field Crops, Faculty of Agriculture, Dicle University, Diyarbakır, Türkiye.
出版信息
Mol Biol Rep. 2022 Sep;49(9):8567-8574. doi: 10.1007/s11033-022-07689-3. Epub 2022 Jul 17.
BACKGROUND
Turkey is not only a center of origin for wheat, but also contains wild forms of various cereals. Turkey, located in the Fertile Crescent, has conserved its genetic richness to the present day. The aim of the study was to investigate the genetic diversity of 70 wild wheat species, to evaluate the structure of diversity in germplasm and to generate useful data for further breeding programs.
METHODS AND RESULTS
Genetic diversity and population structure of 70 wild wheat species (Ae. cylindrica, Ae. geniculata, Ae. triuncialis, T. dicocoides, Ae. columnaris) collected from Eastern and Southeastern Anatolia regions of Turkey were investigated in this study with the use of inter-primer binding site (iPBS) markers. Of 35 iPBS primers used, 11 yielded a total of 61 alleles. Number of alleles per marker varied between 2 (iPBS-2085) and 9 (iPBS-2394) with an average value of 5.55. Polymorphic information content (PIC) values varied between 0.22 and 0.47, with an average value of 0.35. Average number of effective alleles (Ne) was identified as 1.9488, Nei's genetic diversity (H) as 0,4861 and Shannon's information index (I) as 0.6791. Cluster analysis through unweighted pair-group mean average (UPGMA) method revealed that 70 wild wheats were divided into three main clusters. Genetic similarity between the genotypes, calculated with the use of NTSYS-pc software, varied between 19% (YB2 and YB70) and 98% (YB66 and YB67). Principal coordinate analysis (PCoA) revealed that three principal coordinates explained 62.33% of total variation. Moreover, population structure analysis showed that all genotypes formed three sub-populations. Expected heterozygosity values varied between 0.2666 (the first sub-population) and 0.2330 (third sub-population), with an average value of 0.2500. Average population differentiation measurement (Fst) was identified as 0.3716 for the first sub-population, 0.3930 for the second subpopulation and 0.4804 for the third sub-population.
CONCLUSIONS
Based on present findings population structure of 70 wild wheat genotypes collected from Eastern and Southeastern Anatolia regions of Turkey were successfully characterized with the use of iPBS markers. Present findings suggested that iPBS-retrotransposon markers could reliably be used to elucidate genetic diversity of Aegilops genotypes.
背景
土耳其不仅是小麦的起源中心,还包含各种谷物的野生形式。土耳其位于新月沃地,至今仍保留着其遗传丰富度。本研究的目的是调查 70 种野生小麦物种的遗传多样性,评估种质多样性的结构,并为进一步的育种计划生成有用的数据。
方法和结果
本研究利用引物结合位点(iPBS)标记,对来自土耳其东部和东南部安纳托利亚地区的 70 种野生小麦(Ae. cylindrica、Ae. geniculata、Ae. triuncialis、T. dicocoides、Ae. columnaris)的遗传多样性和种群结构进行了研究。在所使用的 35 个 iPBS 引物中,有 11 个引物共产生了 61 个等位基因。每个标记的等位基因数在 2(iPBS-2085)和 9(iPBS-2394)之间,平均值为 5.55。多态信息含量(PIC)值在 0.22 和 0.47 之间,平均值为 0.35。有效等位基因数(Ne)平均值为 1.9488,Nei 遗传多样性(H)为 0.4861,香农信息指数(I)为 0.6791。通过非加权组平均法(UPGMA)聚类分析,70 种野生小麦分为 3 个主要类群。使用 NTSYS-pc 软件计算的基因型间遗传相似性在 19%(YB2 和 YB70)和 98%(YB66 和 YB67)之间变化。主坐标分析(PCoA)表明,前三个主坐标解释了总变异的 62.33%。此外,种群结构分析表明,所有基因型形成了 3 个亚群。预期杂合度值在 0.2666(第一亚群)和 0.2330(第三亚群)之间变化,平均值为 0.2500。第一个亚群的平均种群分化度量(Fst)为 0.3716,第二个亚群为 0.3930,第三个亚群为 0.4804。
结论
基于目前的研究结果,成功地利用 iPBS 标记对来自土耳其东部和东南部安纳托利亚地区的 70 种野生小麦基因型的种群结构进行了特征描述。目前的研究结果表明,iPBS-逆转座子标记可以可靠地用于阐明 Aegilops 基因型的遗传多样性。
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