RESUMO
Cucumis debilis W.J.de Wilde & Duyfjes is an annual and monoecious plant. This species is endemic to Southeast Asia, particularly Vietnam. However, C. debilis is rarely studied, and no detailed information is available regarding its basic chromosome number, 45S ribosomal DNA (rDNA) status, and divergence among other Cucumis species. In this study, we characterized the morphological characters and determined and investigated the basic chromosome number and chromosomal distribution of 45S rDNA of C. debilis using the fluorescent in situ hybridization (FISH) technique. A maximum likelihood tree was constructed by combining the chloroplast and internal transcribed spacer of 45S rDNAs to infer its relationship within Cucumis. C. debilis had an oval fruit shape, green fruit peel, and protrusion-like white spots during the immature fruit stage. FISH analysis using 45S rDNA probe showed three pairs of 45S rDNA loci located at the terminal region in C. debilis, similar to C. hystrix. Meanwhile, two, two, and five pairs of 45S rDNA loci were observed for C. melo, C. metuliferus, and C. sativus, respectively. One melon (P90) and cucumber accessions exhibited different chromosomal localizations compared with other members of Cucumis. The majority of Cucumis species showed the terminal location of 45S rDNA, but melon P90 and cucumber exhibited terminal-interstitial and all interstitial orientations of 45S rDNA loci. Based on molecular cytogenetics and phylogenetic evidence, C. debilis is more closely related to cucumber than melon. Therefore, C. debilis may serve as a potential parental accession for genetic improvement of cucumber through interspecific hybridization.
RESUMO
To understand the genetic diversity and differentiation of Vietnamese melon (Cucumis melo L.), we collected 64 landraces from the central and southern parts of the country and assessed molecular polymorphism using simple sequence repeat and random amplified polymorphic DNA markers. The Vietnamese melon was divided into seven cultivar groups, namely "Dua le", "Dua vang", "Dua bo", "Dua gang-andromonoecious", "Dua gang-monoecious", "Dua thom", "Montok", and the weedy-type melon "Dua dai". Among these, Dua le, Dua vang, Dua bo, and Dua gang-andromonoecious are cultivated on plains and they formed cluster II along with the reference accessions of Conomon and Makuwa. Based on genetic distance, Dua le and Dua vang were regarded as Makuwa and Dua bo and Dua gang-andromonoecious as Conomon. In contrast, Dua thom and Montok are cultivated in highlands, and they formed cluster III along with landraces from the southern and eastern foot of the Himalayas. Dua gang-monoecious which is commonly cultivated in the southern parts of Vietnam, exhibited the greatest genetic diversity, as explained by its possible origin through the hybridization between Dua gang-andromonoecious and Montok. Genetic differences in melon landraces between plains and highlands and hybridization between these two geographical groups have contributed to the enhancement of genetic diversity in Vietnamese melon.