Authenticity Identification of Saccharum officinarum and Saccharum spontaneum Germplasm Materials

Abstract

Sugarcane is an important sugar and energy crop in the world. Germplasm innovation is a significant way to breed breakthrough sugarcane varieties. Modern sugarcane varieties all contain the blood relationship of Saccharum officinarum and Saccharum spontaneum. High sugar results from S. officinarum and the resistance genes from S. spontaneum. In order to improve the sugarcane quality, breeders use S. officinarum and S. spontaneum to cross and obtain hybrid offspring with high sugar and high resistance. Therefore, the authenticity of S. officinarum and S. spontaneum progeny materials directly affects the efficiency of sugarcane breeding. In this study, the tetra-primer amplification hindered mutation system (ARMS PCR) was used to identify ten suspected S. officinarum and eleven suspected S. spontaneum germplasm materials, then further validated by chromosome counting and genome in situ hybridization (GISH). Among the ten suspected S. officinarum materials to be identified, three were real S. officinarum materials, they were 14NG124, 51NG103, and Guan A. Nine of the eleven suspected S. spontaneum to be identified were fake S. spontaneum materials, these were Yunge 2007-12-165, Guangxi 87-20, Yunnan 82-16, Yunge 2007-11, YNLC 16, Laos No. 2, Yunnan 82-29, 2015-83, and 2013-20. The ARMS PCR results were the same as the GISH results. The three real S. officinarum materials had 80 chromosomes. Using ARMS PCR and GISH, three S. officinarum and nine S. spontaneum materials were proven to be authentic. Through chromosome number statistics, it was found that the three real S. officinarum had 80 chromosomes. Authentic materials were identified and selected to enrich the genetic background of sugarcane through hybridization and reduce the influence on the breeding process of the misuse of fake S. officinarum and S. spontaneum.