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Investigating Genetic Diversity and Population Structure in Rice Breeding from Association Mapping of 116 Accessions Using 64 Polymorphic SSR Markers

A.K. Singh, Alok Singh, Devendra Kumar, Donato Gemmati, Ranjith Kumar Ellur, Ashutosh Singh, Ashutosh Singh, Veronica Tisato, Devendra Dwivedi, Sanjay Kumar Singh, Kishor Kumar Sadasivuni, Nawaz Ahmad Khan, Ajay Vikram Singh, Ajay Vikram Singh

2024Crops13 citationsDOIOpen Access PDF

Abstract

Genetic variability in rice breeding programs plays a very crucial role. It provides an outstanding pool of superior alleles governing better agronomic and quality characters through association mapping. For a greater understanding of population structure, the genetic relationship among different rice lines is indispensable prior to the setting of a correlation among dynamic alleles and traits. In the present investigation, the genetic diversity and population structure of 116 rice accessions were studied to understand genetic relatedness and diversity among them using 64 polymorphic SSR markers. A genotyping assessment based on SSR markers revealed a total of 225 alleles, with an average PIC value of 0.755. The germplasm lines were classified into three distinct subgroups through population structure analysis, utilizing both model- and distance-based approaches. AMOVA analysis showed that 11% of the total variation could be attributed to differences between groups, while the remaining 89% was likely due to differences within groups. This study suggested that population structure and genetic relatedness should be considered to establish marker–trait associations for association mapping when working with the core collection of germplasm lines.

Topics & Concepts

Genetic diversityBiologyPopulation structureMicrosatelliteDiversity (politics)Association mappingAssociation (psychology)Evolutionary biologyPopulationGeneticsGenotypeAlleleSingle-nucleotide polymorphismGeneAnthropologySociologyDemographyPsychologyPsychotherapistGenetic Mapping and Diversity in Plants and AnimalsPlant Disease Resistance and GeneticsRice Cultivation and Yield Improvement