Abstract
Abstract Petunia is a very important ornamental plant with a broad range of flower colour and size, and most of the cultivars grown are propagated through seeds. Cytoplasmic male sterility (CMS) is a maternally inherited character determined by mitochondrial genes that results in impaired pollen development. The unique and well characterized male sterile cytoplasm in Petunia is a valuable resource for hybrids production because it prevents self-fertilization of mother plants and ensures the purity of F1s. Introgression of the male sterile cytoplasm in elite lines of Petunia is achieved following a backcross scheme and can be assisted using molecular markers associated to the trait of interest. The objective of this study was to develop a molecular marker to identify the male sterile cytoplasm of Petunia. A PCR-based marker amplifying a region of the mitochondrial CMS-associated urfS only in the male sterile plants was designed. Results showed differential PCR amplification of a ≈ 600 bp product in plants carrying male sterile cytoplasm in four Petunia species and their F1s and BC1 generations. A multiplex PCR reaction was subsequently set up, adding specific primers amplifying a ≈ 800 bp product from the conserved region trnT-trn-L of the chloroplast genome as a positive control in order to unambiguously identify the cytoplasm types as normal or sterile. A rapid, simple and precise molecular marker is now available for assisting breeding of F1 hybrids in Petunia.
Highlights
Cytoplasmic male sterility (CMS) is a trait resulting from the expression of mitochondrial genes which impair the normal development of pollen
Plant material The germplasm used in this study includes the line 3688 of Petunia axillaris ssp. parodii carrying the male sterile cytoplasm (S) and 5 male fertile lines of P. axillaris ssp. parodii, P. interior, P. hybrida and P. integrifolia, carrying normal cytoplasm (N)
Amplification of the urfS region Specific primers were designed on the urfS region of the mitochondrial chimeric gene pcf associated to CMS in Petunia
Summary
Cytoplasmic male sterility (CMS) is a trait resulting from the expression of mitochondrial genes which impair the normal development of pollen. As in most angiosperms mitochondria genome is maternally inherited (Corriveau and Coleman, 1988; Mogensen, 1996), CMS is maternally transmitted as well. This condition can be suppressed by the effect of nuclear genes known as restorers of fertility (Rf) genes. In the case of ornamental species CMS is a desirable trait for breeding purposes to produce hybrid seed, to increase flowering duration, to avoid pollen allergens and to control invasiveness (Colombo et al, 2017). Petunia (Petunia hybrida) is a very important ornamental plant in worldwide horticulture It is characterized by its diversity in flower colour and morphology. There are numerous commercial cultivars and most of them propagate through seeds (Ganga et al, 2011; Cao et al, 2019)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
