Human life depends on plants, which feeds us, our livestock or fulfils our biofuel needs. Thus to feed this growing population, it will be necessary to double agricultural yields without increasing the amount of arable land.
A fine knowledge of the molecular processes that finely regulate plant reproduction, will allow increasing crop productivity and high quality seed production in a sustainable manner by agricultural engineering, safeguarding the increase of arable land usage.
EpiAGPs is a research project dedicated to plant reproduction study (Fig 1) in the model plant Arabidopsis. Plant reproduction is the ultimate goal of all flowering plants, leading to the formation of seeds and the perpetuation of the next generation of plants.
EpiAGPs was achieved using a combination of genetic, proteomic and transcriptomic approaches in Arabidopsis, an excellent model to study the reproductive process, as it shares a conserved developmental program with major seed-producing crop plants. The main goal was to elucidate in which pathways AGPs act and how they modulate the epigenetic activity during reproduction, in order to make possible, as a long-term goal, to improve seed production and the generation of novel interspecific hybrids.
Overall, EpiAGPs has shed light into the involvement of AGPs in Arabidopsis reproductive process. Dr Pereira has found evidences, which reinforce the prominence of this family of glycoproteins not only in plant reproduction, but also in the plant developmental process. EpiAGPs revealed that the transcription factors NTT and HEC3 are involved in AGPs regulation, and that the epigenetic control involves HDACs.