Sweet potato (Ipomoea batatas (L.) Lam) is one of the major tuber crops in Asian countries, including India, yet the interrelationship and genetic variability among the cultivar and its crop wild relatives remain obscure. The wild relatives of sweet potato represent a vital source of untapped genetic diversity in the breeding programs. In this study, a set of 12 Simple Sequence Repeats (SSR) markers were utilized to understand the extent of genetic diversity and relationship within and between 20 sweet potato accessions, 23 wild Ipomoea species and two Merremia species for utilization in breeding programmes. The SSR primers produced 84 polymorphic alleles within the range of 105–393 bp, collectively showing an average polymorphism of 94.5 %. The average Polymorphic Information Content (PIC) value of 0.67 showed that all the primers were polymorphic in nature. Similarity coefficient based dendrogram and Principal Component Analysis (PCA) scatter plot clearly differentiated all the cultivars and wild species. The cluster dendrogram analysis revealed the close relationship of cultivars with I. triloba and I. trifida at a similarity index of 0.75. Our analysis showed a high degree of genetic variability within and between hexaploid sweet potato and diploid wild species, whereas lower within the cultivars, which shows that there is a high level of genetic diversity exists within the Ipomoea species for its utilization in breeding programs. Thus, the two wild species, I. trifida and I. triloba could be used in hybridization for improvement of sweet potato through ploidy manipulation.
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