RFLP variation and genetic relationships in cultivated cucumber

Abstract

Two sets of cucumber (Cucumis sativus L.) germplasm were used to determine the potential use of restriction fragment length polymorphisms (RFLPs) for estimating genetic relationships. Sixteen accessions [15 domesticated variety sativus and one feral variety hardwickii (PI 183967)] of diverse origin were used to assess RFLP variation in cucumber, and to determine if genetic relationships based on RFLPs were similar to those obtained by isozyme analysis. Additionally, 35 commercial lines or cultivars were surveyed to determine genetic relationships among and within common cucumber types (narrow genetic base). The 16 accessions were surveyed with 440 low copy clones from two libraries (Pst I partial genomic and cDNA) using two restriction enzymes. Data from a subset of 104 random (mapped and unmapped) and a set of 30 mapped RFLPs were used to estimate genetic relationships among the 16 cultigens. Variability was low among RFLPs (33% of all probes) and putative alleles (∼ 2.2 polymorphic fragments/probe). RFLP variation between sativus lines and hardwickii (21±4%) was greater than among sativus lines (12±2%). RFLPs among the 16 accessions revealed genetic relationships which agree with those obtained using isozymes. Genetic relationships estimated using mapped and unmapped RFLPs were similar. The 35 elite lines were surveyed using a set of 40 RFLPs from 3 libraries (Pst I and EcoR I partial genomic and cDNA) to evaluate the discriminatory value of RFLPs among and between commercial cucumber types. The RFLP-derived genetic relationships among this germplasm were in agreement with predictions based on fruit type and pedigree information. Thus, RFLPs are a useful addition to the morphological characters and isozyme loci currently used for taxonomic classification and plant variety protection of cucumber.