Genetic diversity of garlic (Allium sativum L.) germplasm from China by fluorescent‐based AFLP, SSR and InDel markers

Abstract

AbstractGarlic (Allium sativum L.), an asexually propagated crop, is an important vegetable and medicinal plant. China is the biggest garlic producer in the world; however, the genetic background of garlic from China is not well understood. In this study, population structure and clustering analysis of garlic germplasm was performed using amplified fragment length polymorphism (AFLP), simple sequence repeat (SSR) and insertion–deletion (InDel) markers. Among 212 accessions of garlic, genetic diversity analysis identified 546 alleles amplified by AFLP, SSR and InDel primers, and 492 of these were polymorphic. All accessions were divided into five groups by structure analysis and neighbor‐joining clustering. Most traits, including allicin content, were only slightly affected by population structure, which indicated that this germplasm can be used as populations for association mapping. The results provide a molecular basis for understanding the genetic diversity of the garlic germplasm preserved in China.