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Unique parental epitranscriptome states regulate seed development. This project aims to investigate how developing central cell epitranscriptomes are linked to seed growth, how the cell regulates the unique epigenetic states, and the role of the system in driving phenotypic diversity. Maternal and paternal effects determine growth and development of multicellular angiosperm plants. Previous work has discovered unique ribonucleic acid (RNA) epitranscriptome states dependent on the parent-of-origi ....Unique parental epitranscriptome states regulate seed development. This project aims to investigate how developing central cell epitranscriptomes are linked to seed growth, how the cell regulates the unique epigenetic states, and the role of the system in driving phenotypic diversity. Maternal and paternal effects determine growth and development of multicellular angiosperm plants. Previous work has discovered unique ribonucleic acid (RNA) epitranscriptome states dependent on the parent-of-origin in developing central cell that gives rise to the endosperm tissue of the seed that impacts on growth of the seed. This project expects to provide economic benefits by increasing yield of agricultural crops during increasingly challenging conditions.Read moreRead less
The hunt for Ribonucleic Acid riboswitches and genetic sensors of metabolic flux in plants. Ribonucleic Acid (RNA) contains both structural and sequence information that coordinates feedback of metabolic processes in response to environmental change, thereby promoting cellular adaptation and survival. This project will discover ancient RNA modules and structural switches in plants that sense chemical reactions and regulate pathway flux.
Systemic gene silencing in Arabidopsis, and relevance to plant biology. Gene silencing is a highly conserved process in plants and animals. It is of fundamental importance to gene regulation, virus defence, genome response to environment, and genome evolution. Remarkably, when gene silencing is triggered in plants it can spread throughout the organism. The aim of this project is to define the mechanism of intercellular movement of gene silencing in plants, and its relevance to plant growth and d ....Systemic gene silencing in Arabidopsis, and relevance to plant biology. Gene silencing is a highly conserved process in plants and animals. It is of fundamental importance to gene regulation, virus defence, genome response to environment, and genome evolution. Remarkably, when gene silencing is triggered in plants it can spread throughout the organism. The aim of this project is to define the mechanism of intercellular movement of gene silencing in plants, and its relevance to plant growth and defence against pathogens. Expected outcomes include increased understanding of intercellular genetic signalling in plants and its role in plant growth and disease resistance. The findings may also shed new light on mechanisms of gene silencing in animals.Read moreRead less