基于SSR标记的耐旱玉米基因型遗传特性研究

O. Abegunde, E. Idehen, O. Oduwaye, T. Fabunmi, O. Kehinde
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引用次数: 1

摘要

利用位于玉米遗传组成每条染色体上的20对SSR引物,对尼日利亚伊巴丹国际热带农业研究所(IITA)种质资源部门获得的27个耐旱玉米基因型的多样性进行了检测。使用CIMMYT(2005)规定的CTAB程序提取样品的基因组DNA (gDNA)。本研究使用的20对SSR标记均具有高度多态性,共得到122个可重复多态性条带,平均有12.20个等位基因。每个引物产生的主等位基因频率不大于0.5。10个引物的主等位基因平均频率为0.3036。所有标记的基因多样性值均大于0.6,平均值为0.8334。多态信息含量(PIC)平均值为0.8164,从引物umc1042的0.9051到Umc1669的0.6639不等。由于引物umc1042最好地识别了这种变异,因此每个引物产生的主要等位基因的频率表明在所研究的样品中存在显著的分子遗传变异。引物的基因多样性(GD)和多态性信息含量(PIC)值进一步支持了这一现象。因此,可以推断,引物都适合遗传多样性的基因分型。由于其不同的遗传关系,品种IWD C2 SYN F2和SAMMAZ 52具有最多样化的基因型,可作为玉米育种计划的亲本材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genetic Characterization of Drought-Tolerant Maize Genotypes Based on SSR Markers
Using 20 pairs of SSR primers situated on each chromosome of the maize genetic makeup, 27 drought-tolerant maize genotypes obtained from the  Germplasm Unit of the International Institute of Tropical Agriculture (IITA), Ibadan, Nigeria, were examined for diversity. The samples' genomic DNA  (gDNA) was extracted using the CTAB procedure specified by CIMMYT (2005). All 20 pairs of SSR markers used in this investigation were extremely  polymorphic, resulting in 122 repeatable and polymorphic bands that were scored with an average of 12.20 alleles. Each primer yielded a main allele  frequency of no more than 0.5. The average major allele frequency for the 10 primers was 0.3036. With an average of 0.8334, all markers had gene  diversity values greater than 0.6. Similar to this, the Polymorphic Information Content (PIC) values had an average of 0.8164 and varied from 0.9051  (primer umc1042) to 0.6639 (Umc1669). Since primer umc1042 best identified this variability, the frequency of the main alleles generated by each primer  points to the presence of significant molecular genetic variation across the samples under study. This occurrence is further supported by the gene  diversity (GD) and polymorphism information content (PIC) values of the primers. Therefore, it can be inferred that the primers are all appropriate for  genotyping genetic diversity. Due to their different genetic relationships, varieties IWD C2 SYN F2 and SAMMAZ 52 have the most diversified genotypes  and can be utilised as parent materials in a maize breeding programme.
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