Assessing genetic diversity, population structure and gene flow in the Korean red bean [Vigna angularis (Willd.) Ohwi & Ohashi] using SSR markers

2012 ◽  
Vol 10 (1) ◽  
pp. 74-82 ◽  
Author(s):  
Kim Banni ◽  
Kyaw Thu Moe ◽  
Yong-Jin Park
Keyword(s):  
Genetic Diversity ◽  
Population Structure ◽  
Gene Flow ◽  
Genetic Relationships ◽  
Vigna Angularis ◽  
Simple Sequence Repeat Markers ◽  
Breeding Programmes ◽  
Small Bean ◽  
Red Bean ◽  
Simple Sequence

Red bean, also known as azuki bean [Vigna angularis (Willd.) Ohwi & Ohashi], belongs to a group of legumes (family Fabaceae). The name azuki is a transliteration of the native Japanese name from the Chinese word Shōzu, which means small bean. In Korea, it is known as pat. In total, 178 red bean accessions were taken to analyse the genetic diversity, population structure and gene flow using 39 polymorphic simple sequence repeat markers. A total of 431 alleles were detected, with an average of 11 alleles per locus, among the 178 tested red bean accessions. Forty-six specific alleles were identified with 20 loci. Locus CEDG090 had the highest number (n = 22) of alleles, whereas only two alleles were observed at loci CEDG144 and CEDC018. The proportion of different alleles for microsatellite loci was analysed using a microsatellite toolkit. In locus CEDG029, one allele was shared in all the three groups of varieties and species, and three alleles were shared between the wild ancestors and cultivated varieties, while in locus CEDG090, one allele was shared in all the three groups and 12 alleles were shared between the wild ancestors and cultivated varieties. Our findings describe the genetic relationships and population structure of the red bean in Korea and will be useful for designing effective breeding programmes and broadening the genetic base of commercial varieties. Moreover, the results demonstrate substantial gene flow from the red bean to nearby wild relatives in a given region.

scholarly journals Genetic Diversity Analysis of Sugarcane Parents in Chinese Breeding Programmes Using gSSR Markers

2013 ◽  
Vol 2013 ◽  
pp. 1-11 ◽  
Author(s):  
Qian You ◽  
Liping Xu ◽  
Yifeng Zheng ◽  
Youxiong Que
Keyword(s):  
Genetic Diversity ◽  
Molecular Diversity ◽  
Genetic Relationships ◽  
Breeding Programs ◽  
Sugarcane Varieties ◽  
Breeding Station ◽  
The World ◽  
Breeding Programmes ◽  
Genetic Structures ◽  
Simple Sequence

Sugarcane is the most important sugar and bioenergy crop in the world. The selection and combination of parents for crossing rely on an understanding of their genetic structures and molecular diversity. In the present study, 115 sugarcane genotypes used for parental crossing were genotyped based on five genomic simple sequence repeat marker (gSSR) loci and 88 polymorphic alleles of loci (100%) as detected by capillary electrophoresis. The values of genetic diversity parameters across the populations indicate that the genetic variation intrapopulation (90.5%) was much larger than that of interpopulation (9.5%). Cluster analysis revealed that there were three groups termed as groups I, II, and III within the 115 genotypes. The genotypes released by each breeding programme showed closer genetic relationships, except the YC series released by Hainan sugarcane breeding station. Using principle component analysis (PCA), the first and second principal components accounted for a cumulative 76% of the total variances, in which 43% were for common parents and 33% were for new parents, respectively. The knowledge obtained in this study should be useful to future breeding programs for increasing genetic diversity of sugarcane varieties and cultivars to meet the demand of sugarcane cultivation for sugar and bioenergy use.

scholarly journals Genetic structure and diversity of a collection of Brassica rapa subsp. rapa L. revealed by simple sequence repeat markers

2011 ◽  
Vol 149 (5) ◽  
pp. 617-624 ◽  
Author(s):  
P. SOENGAS ◽  
M. E. CARTEA ◽  
M. FRANCISCO ◽  
M. LEMA ◽  
P. VELASCO
Keyword(s):  
Genetic Diversity ◽  
Genetic Structure ◽  
Brassica Rapa ◽  
Genetic Relationships ◽  
Population Level ◽  
Research Centre ◽  
Breeding Programmes ◽  
Western Spain ◽  
Genetic Structure And Diversity ◽  
Simple Sequence

SUMMARYBrassica rapa subsp. rapa L. includes three different crops: turnips (roots), turnip greens (leaves) and turnip tops (inflorescences). A collection of B. rapa subsp. rapa from north-western Spain is currently kept at ‘Misión Biológica de Galicia’ (a research centre of the Consejo Superior de Investigaciones Científicas (CSIC), Spain). This collection has been characterized based on morphological and agronomical traits. A better understanding of the genetic diversity present in the collection is necessary in order to optimize its use and maintenance. The objectives of the present work were to assess the genetic diversity present in the B. rapa subsp. rapa collection, to establish genetic relationships among populations and to study the genetic structure of the collection. Eighty populations were analysed based on 18 simple sequence repeats (SSRs). Populations showed a broad range of genetic diversity, thus offering good potential for further genetic improvement. Most of the variability was found within the population level, probably due to high rates of allogamy, to migration and/or interchange of seed among local growers. Populations showed a low level of differentiation, grouping in just one cluster, and therefore they can be considered as samples of a highly variable metapopulation that can be used for B. rapa breeding programmes.

scholarly journals Assessment of genetic diversity in Thai upland rice varieties using SSR markers

2020 ◽  
pp. 597-604
Author(s):  
Somrudee Nilthong ◽  
Ekachai Chukeatirote ◽  
Rungrote Nilthong
Keyword(s):  
Genetic Diversity ◽  
Population Structure ◽  
Simple Sequence Repeat ◽  
Genetic Resource ◽  
Upland Rice ◽  
Oryza Sativa L ◽  
Polymorphic Information Content ◽  
Rice Varieties ◽  
Simple Sequence Repeat Markers ◽  
Simple Sequence

Upland rice (Oryza sativa L.) is precious genetic resource containing some valuable alleles not common in modern germplasm. In this study, genetic diversity and population structure of 98 upland rice varieties from northern part of Thailand were examined using nine simple sequence repeat markers. Number of alleles detected by the above primers was 50 with a minimum and maximum frequency of 2 to 10 alleles per locus, respectively. The polymorphic information content (PIC) values ranged from 0.375 to 0.714 with an average of 0.605 for the primers RM164 and RM1, respectively. Dendrogram cluster analysis of the SSR data distinctly classified all genotypes into three major groups (I, II and III), which corresponded to their places of collection. Population structure divided these genotypes into two distinct subpopulations. Subpopulation 1 consisted of upland rice varieties that collected from Chiang Rai province while the majority of subpopulation 2 were collected from Phayao and Phitsanulok provinces. Analysis of molecular variance revealed 68% variance among two subpopulations and 32% variance within subpopulations, suggesting a high genetic differentiation between the two subpopulations. The huge genetic variability of upland rice in northern part of Thailand can be used to complement the gene pool of modern genotypes in rice breeding program.

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