Gynogenesis of Chinese long cucumber (Cucumis sativus L.) was induced in unpollinated ovules cultured on cucumber basal medium (CBM) supplemented with thidiazuron (TDZ) and in some experiments AgNO 3 . High induction frequencies (7.85 -12.14 %) were found in unpollinated ovules at the time of anthesis and at 0.03 -0.07 mg dm -3 TDZ. Histological analysis indicated that embryo sacs developed completely at the time of anthesis. Further, the highest plant regeneration rate was achieved at CBM supplemented with 0.05 mg dm -3 a-naphthaleneacetic acid, 0.2 mg dm -3 6-benzyladenine, and 5 -10 mg dm -3 AgNO 3 . Flow cytometry analysis showed that 80 % of the regenerated plants were haploid. Histological micrographs and ploidy level analyses clearly revealed initiation, development, and germination of embryos from the unpollinated ovules.
The development of chloroplast microsatellite (cpSSR) markers in Cucumis species and analysis of their polymorphism and transferability were reported. Fifteen microsatellite markers, represented by mononucleotide repeats, were developed from the complete sequence of Cucumis sativus chloroplast genome. Intraspecific variation was successfully detected in C. sativus and C. melo and revealed mean 1.6 and 1.9 alleles per cpSSR locus, respectively. With the exception of two exon region-located cpSSR markers being monomorphic, each of the others amplified polymorphic fragments in C. sativus or C. melo. A total of 34 polymorphic loci were detected with these cpSSR markers in the two species. Transferability of the newly developed cpSSR markers was checked on an additional set of 41 Cucurbitaceae accessions (belonging to 12 different species), and except for two markers with no amplification in Cucurbita maxima, the others could be transferable to all the accessions tested. Of the 15 cpSSR markers, 14 markers generated fragments with expected band sizes and 13 markers detected interspecific polymorphism among the accessions. Intraspecific polymorphism was also observed within four Cucurbitaceae species excluding C. sativus and C. melo.
Fifteen chloroplast microsatellite (cpSSR) markers were tested to analyze cytoplasmic variation in a set of watermelon accessions containing 67 Chinese watermelon germplasms (CWGs) and 19 non-Chinese watermelon germplasms (NCGs), and 11 were polymorphic. These polymorphic cpSSR markers detected 2-4 alleles (mean = 2.8) in all the accessions, with diversity values ranging from 0.047 to 0.427 (mean = 0.252). Based on the polymorphic cpSSR loci, 17 distinct haplotypes were identified, of which six were from CWGs, seven were from NCGs, and four were shared by both of them. Most haplotypes from CWGs were nearly identical at the 11 cpSSR loci, but those from NCGs revealed higher variations. Of the haplotypes from CWGs, a predominant haplotype was found in 76.1% of CWGs, indicating that CWGs suffered a cytoplasmic bottleneck in domestication process and lost most of their cytoplasmic variability. To analyze the relationships among these 17 haplotypes, a dendrogram was constructed based on the cpSSR data using the unweighted pair-group method with arithmetic average (UPGMA). Three distinct groups were generated, revealing a genetic divergence between CWGs and NCGs. From this analysis, we obtained five rare haplotypes which had quite low genetic similarity to the others and would be useful for watermelon breeding in China. The results enriched the knowledge in genetic diversity of CWGs and could be informative for broadening the genetic base of watermelon.
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