Common bean is a species belonging to the Phaseolus genus of the Leguminosae family. It has economic importance due to being rich in protein, vitamin A and C, and minerals. Being one of the most cultivated species of legumes, the determination of genetic diversity in bean genotypes or populations has an important role in terms of our genetic resources. The objective of this study was to evaluate the genetic structure of 94 genotypes which were cultivated in different parts of the world and our country with SSR and SNP markers. 10 SSR loci and 73 SNP primers were used for the determination of genetic structure in commercial cultivars and breeding lines. All of the SSR and SNP loci used in the study were found to be polymorphic. A total of 89 alleles were identified for 10 SSR loci. Mean number of alleles per locus (Na?=?8.9), effective allele number (Ne?=?3.731), Shannon information index (I?=?1.468), observed heterozygosity (Ho?=?0.023), and expected heterozygosity (He?=?0.654) were calculated based on SSR analysis. According to the results of Bayesian-based STRUCTURE analysis using SSR and SNP data, 94 bean genotypes were genetically divided into three main clusters. According to genetic distance based UPGMA dendrogram obtained from SNP analysis, 94 bean genotypes were divided into 2 main clusters corresponding Mesoamerican and Andean gene pools. The obtained results provide important information about the genetic structures of the studied bean cultivars and breeding lines. With the obtained results, it will be possible to develop breeding programs to develop new cultivars by using our gene resources.