DNA Fingerprinting of Vegetable Soybean Cultivar ‘Zhexian No.9’ Using 101 New Developed HRM-Based SNP Markers

Abstract

Single nucleotide polymorphisms (SNPs) have been proved to be powerful markers in genetic analysis due to their high abundance and polymorphism in plant genomes. The recently developed high-resolution melting (HRM) analysis method provides a novel, quick, and close-tube PCR approach to analyze SNP variations. In present study, 101 HRM-based SNP markers from 20 soybean chromosomes were developed for genotyping vegetable soybean cultivar ‘Zhexian No.9’ with ‘Williams 82’ as reference. 33.7% of these markers were polymorphic between ‘Zhexian No.9’ and ‘Williams 82’. Polymorphic markers were found on 85% (17 of 20) of the soybean chromosomes when comparing ‘Zhexian No.9’ and ‘Williams 82’. Finally, an array of 101 in-sequence nucleotide letters was generated as the first precise SNP fingerprint of ‘Zhexian No.9’. The described marker-developing methodology could be used in other crops with known genomic information.