Genetic Diversity Analysis and Development of DNA Fingerprints of 20 Indonesian Local Chili Pepper Varieties Based on SSR Markers

Chili pepper is one of the most valuable horticultural crops, widely cultivated in Indonesia. Analysis of its genetic diversity is needed to develop successful breeding programs of local varieties. Simple sequence repeat (SSR), a robust molecular marker used for genetic diversity analysis in plant species, offers potential, reliable DNA fingerprinting method to assess genetic variation and varietal identification of chili pepper. Fifteen SSR markers were used in this study to analyze the genetic diversity and develop profiling identification of DNA fingerprint of local chili pepper varieties. Twenty local and two improved varieties of three chili pepper species, consisting of 3, 1, and 18 varieties of Capsicum frutescens, C. chinense, and C. annuum, respectively, were assessed for their SSR polymorphism. A total of 87 alleles was obtained from the polymorphism analysis with high alleles variation (2–16 alleles) with average total allele of 5.8 and average polymorphism information content (PIC) of 0.59 (0.34–0.83). Clustering and Principle Coordinate Analyses (PCoA) classified the varieties into two groups with coefficient of similarity of 0.65 indicating their high genetic variability. Most local varieties belonged to the same cluster and separated from the two improved varieties. Based on PIC values and dendrogram with selected markers, five SSR markers, i.e. EPMS441, EPMS331, EPMS335, GPMS194, and CaSSRBio1.1, were identified as SSR marker set for DNA fingerprinting purposes. SSR marker set used in this study was successful in developing the varietal identity of local chili pepper varieties, as indicated by unique code of each variety.

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An RNA Sequencing Transcriptome Analysis and Development of EST-SSR Markers in Chinese Hawthorn through Illumina Sequencing

Forests ◽

10.3390/f10020082 ◽

2019 ◽

Vol 10 (2) ◽

pp. 82 ◽

Cited By ~ 11

Author(s):

Suliya Ma ◽

Wenxuan Dong ◽

Tong Lyu ◽

Yingmin Lyu

Keyword(s):

Genetic Diversity ◽

Ssr Markers ◽

Gene Diversity ◽

Low Cost ◽

Polymorphism Analysis ◽

Diversity Analysis ◽

Large Set ◽

Mean Values ◽

Genetic Diversity Analysis ◽

Geographical Regions

Chinese hawthorn (Crataegus pinnatifida) is an important ornamental and economic horticultural plant. However, the lack of molecular markers has limited the development and utilization of hawthorn germplasm resources. Simple sequence repeats (SSRs) derived from expressed sequence tags (ESTs) allow precise and effective cultivar characterization and are routinely used for genetic diversity analysis. Thus, we first reported the development of polymorphic EST-SSR markers in C. pinnatifida with perfect repeats using Illumina RNA-Seq technique. In total, we investigated 14,364 unigenes, from which 5091 EST-SSR loci were mined. Di-nucleotides (2012, 39.52%) were the most abundant SSRs, followed by mono- (1989, 39.07%), and tri-nucleotides (1024, 20.11%). On the basis of these EST-SSRs, a total of 300 primer pairs were designed and used for polymorphism analysis in 70 accessions collected from different geographical regions of China. Of 239 (79.67%) pairs of primer-generated amplification products, 163 (54.33%) pairs of primers showed polymorphism. Finally, 33 primers with high polymorphism were selected for genetic diversity analysis and tested on 70 individuals with low-cost fluorescence-labeled M13 primers using capillary electrophoresis genotyping platform. A total of 108 alleles were amplified by 33 SSR markers, with the number of alleles (Na) ranging from 2 to 14 per locus (mean: 4.939), and the effective number of alleles (Ne) ranging from 1.258 to 3.214 (mean: 2.221). The mean values of gene diversity (He), observed heterozygosity (Ho), and polymorphism information content (PIC) were 0.524 (range 0.205–0.689), 0.709 (range 0.132–1.000), and 0.450 (range 0.184–0.642), respectively. Furthermore, the dendrogram constructed based on the EST-SSR separated the cultivars into two main clusters. In sum, our study was the first comprehensive study on the development and analysis of a large set of SSR markers in hawthorn. The results suggested that the use of NGS techniques for SSR development represented a powerful tool for genetic studies. Additionally, fluorescence-labeled M13 markers proved to be a valuable method for genotyping. All of these EST-SSR markers have agronomic potential and constitute a scientific basis for future studies on the identification, classification, and innovation of hawthorn germplasms.

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