| In higher plants, embryogenesis is a key phase of development during which the embryo establishes the main structures that will form the future plant, synthesizes, and accumulates the reserves that will define the yield and nutritional quality of the seeds. Thus, understanding the molecular and physiological events leading to the formation of the seed is of major agronomic interest. However, analysis of early stages of development is often difficult because the embryo is small and integrated within the maternal tissue. Solanum chacoense, whose relatively large flowers facilitate the isolation of ovules, was used to study the biology of reproduction, in particular the formation of female gametes, pollination, fertilization and embryo development. To analyze the transcriptional program induced during these stages of sexual reproduction, we produced amplicon-derived microarrays with 7741 ESTs isolated from ovules bearing embryos from different developmental stages. These chips were first used to compare cDNA of unfertilized ovule with ovule cells of each stage of embryonic development (from zygote to mature embryo). During embryogenesis, three major expression profiles corresponding to early, middle and late stages of embryo development were identified. Further analysis, of time points taken every 2 days from 0 to 22 days after pollination allowed the identification of a subset of stage-specific and transition-specific genes. Functional annotation of differentially expressed genes allowed us to identify the major cell processes implicated at each stage of development and revealed that embryos are engaged in active differentiation. The DNA microarrays were then used to compare different types of pollination (compatible, incompatible, semi-compatible and inter-species) to identify genes responding to various stimuli before the pollen tube reach the ovules (activation at distance). We found that the signal received by the ovary was different and depended on several factors including the pollen source and the distance traveled by the pollen in the style. Another analysis comparing different pollinations with wounding of the style showed that the genetic programs of pollination overlap with those of stress. This was confirmed by treating the flowers with a stress hormone, methyl jasmonate. Lastly, we used the microarrays to study transcriptional changes in mutant ScFRK2. The over expression of FRK2 affect the ovule identity. We were able to select several candidate genes that may have a role in ovules identity signaling.;Keywords: Solanum chacoense, DNA microarray, pollination, fertilization, embryogenesis, activation at distance, female gametophyte, ovule, ovary, guidance, MAPK.;These chips were used to determine the variation in transcription of genes involved at various stages of sexual reproduction in plants and has allowed us to better understand these steps at the transcriptional level. |
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