Plant & Animal Genomes XI Conference Plant & Animal Genomes XI ConferenceJanuary 11-15, 2003
Town & Country Convention Center
San Diego, CA
Workshop: Apomixis
Poa pratensis L., one of the most important forage and turf grasses in temperate climates, has a versatile and dynamic mode of reproduction that ranges naturally from nearly obligate apomixis to complete sexuality. In this species apomixis is functionally the result of two processes: apospory and parthenogenesis. Despite extensive efforts aimed at understanding the inheritance of apomixis, the identity of the gene/s controlling the reproductive process is still obscure as well as it is not known whether the combination of apomictic features (apospory with parthenogenesis) derives from the expression of one single gene or a few linked genes. Our research project deals with the elucidation of the genetic control of apomixis and with the cloning of candidate genes for both apomixis as a whole and its elements (i.e. apospory and parthenogenesis). A gene expression study was carried out by using the cDNA-AFLP technique in order to select and isolate differentially expressed mRNAs for apospory and parthenogenesis. Within an F1 population of P. pratensis segregating for the mode of reproduction an highly apomictic (aposporic and parthenogenetic), a completely sexual (non-aposporic and non-parthenogenetic), and also a recombinant (aposporic and non-parthenogenetic) genotypes were selected on the basis of auxin test and cytohistological investigations and used for mRNA profiling by AFLP markers. The approach enabled us to select 160 mRNAs either apomictic- or sexual-specific and to detect transcriptional changes potentially related to apospory and parthenogenesis.