Liu, Lei;Wang, Heng-bo;Li, Yi-han;Chen, Shu-qi;Wu, Ming-xing;Dou, Mei-jie;Qi, Yi-yin;Fang, Jing-ping;Zhang, Ji-sen

Fujian Agr & Forestry Univ, Ctr Genom & Biotechnol, Fujian Prov Key Lab Haixia Appl Plant Syst Biol, Key Lab Genet, Fuzhou 350002, Peoples R China;Fujian Normal Univ, Coll Life Sci, Fuzhou 350007, Peoples R China;Guangxi Univ, State Key Lab Conservat & Utilizat Subtrop Agrobio, Guangxi Key Lab Sugarcane Biol, Nanning 530004, Peoples R China

Saccharum;genome-wide;simple repeat sequences (SSR);microsatellite;molecular markers

Sugarcane has a large, complex, polyploid genome that has hindered the progress of genomic research and molecular marker-assisted selection. The user-friendly SSR markers have attracted considerable attention owing to their ideal genetic attributes. However, these markers were not characterized and developed at the genome-wide scale due to the previously lacking high-quality chromosome-level assembled sugarcane genomes. In this present study, 744 305 and 361 638 candidate SSRs were identified from the genomes of S. officinarum and S. spontaneum, respectively. We verified the reliability of the predicted SSRs by using 1 200 interspecific SSR primer pairs to detect polymorphisms among 11 representative accessions of Saccharum, including S. spontaneum, S. officinarum, S. robustum, and modern sugarcane hybrid. The results showed that 660 SSR markers displayed interspecific polymorphisms among these accessions. Furthermore, 100 SSRs were randomly selected to detect the genetic diversity for 39 representative Saccharum accessions. A total of 320 alleles were generated using 100 polymorphic primers, with each marker ranging from two to seven alleles. The genetic diversity analysis revealed that these accessions were distributed in four main groups, including group I (14 S. spontaneum accessions), group II (two S. officinarum accessions), group III (18 modern sugarcane hybrid accessions), and group IV (five S. robustum accessions). Experimental verification supported the reliability of the SSR markers based on genome-wide predictions. The development of a large number of SSR markers based on wet experiments is valuable for genetic studies, including genetic linkage maps, comparative genome analysis, genome-wide association studies, and marker-assisted selection in Saccharum.