Genotyping sorghum germplasm in Tanzania using microsatellite markers

Abstract

Microsatellite markers are increasingly being used in crop plants to discriminate among genotypes and as tools in marker-assisted selection. In this study microsatellite markers were used to quantify the genetic diversity within as well as among 200 accessions sampled from sorghum germplasm collection at Tanzania National gene bank germplasm collection of sorghum. Although all methods did not provide similar description of relationships between accessions, there existed some consistency in discriminating accessions which are closely related and the ones which were distantly related. But, considerable variation was found at the 39 microsatellite markers analysed, with an average number of alleles per locus equal to 9.49 within accessions, the lowest was 2.0 from Xtxp114, Xcup61 and the highest number of allele was 25 as for Xgap206 marker. The collection of sorghum appeared moderately structured genetically with about 59% of the average gene diversity occurring among accessions. The SSR markers were moderately polymorphic, with diversity indices ranging from 0.07 to 0.91 with mean of 0.55.The UPGMA dendrogram based on SSR marker data clearly discriminated among clusters, even though some consistency in classification was observed among clusters. However, differentiation among morphologically accessions of sorghum, or among geographic origins, accounted for less than 35% of the total genetic diversity. Data in this study demonstrated that accessions of Tanzania sorghum contain a great deal of genetic diversity as indicated by the observed number of alleles. These results are in global agreement with those obtained previously with allozyme markers. It was also possible to show that microsatellite data are useful iniii identifying individual accessions with a high relative contribution to the overall allelic diversity of the collection. Therefore, from the result outcome the inventory was compiled that will be used in future to characterize the rest of the sorghum germplasm and make use of the identified potential parental genotypes for mapping populations and marker assisted selection programs.ICRISAT/Bec

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