Germplasm of industrial brewing yeast of the worldwide have a richer diversity, and various successes in improving the performance of brewing yeasts. However, they are limited in that they have relatively low odds of combining desirable traits in a correct manner. To improve germplasm resource preservation, management, and utilization efficiency. In this study, the genetic diversity of 35 industrial brewing yeasts were analyzed based upon inter simple sequence repeat (ISSR) markers, in which 151 out of 167 SSR loci (90.42%) were polymorphic between two or more strains. Three preliminary core collections were established using ISSR data, and based on three different strategies as follows: an advanced maximization (M) strategy, an allele preferred sampling (A) strategy, and a random sampling (R) strategy. Comparison of genetic parameters, including polymorphic information content, Nei's genetic diversity (H), effective allele number, observed allele number, Shannon's index (I), and principal coordinate analyses, confirmed that all the core collections accurately recapitulated the diversity of the initial germplasm. Considering the loci retention ratio and trait coverage efficiency, Core1 was considered the best core collection.

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Journal Article

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Liu J, Li X, Liu Y, Xing C, Xie Y, Cai G, Lu J

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