Epigenetic regulation of genomic stability and inheritance. Sperm mediate inheritance by transmitting DNA and associated chemical (epigenetic) modifications to offspring. We hypothesise that epigenetic modifications protect DNA from mutations during sperm formation. Using innovative models, our interdisciplinary team will determine whether loss of specific epigenetic modifications permits mutations in sperm and whether these mutations are transmitted to offspring. Our work will contribute to und ....Epigenetic regulation of genomic stability and inheritance. Sperm mediate inheritance by transmitting DNA and associated chemical (epigenetic) modifications to offspring. We hypothesise that epigenetic modifications protect DNA from mutations during sperm formation. Using innovative models, our interdisciplinary team will determine whether loss of specific epigenetic modifications permits mutations in sperm and whether these mutations are transmitted to offspring. Our work will contribute to understanding how new mutations arise in sperm and potentially affect offspring phenotype, adaptation and evolution. As chemicals, drugs and diet can affect epigenetic function, our studies will also contribute to determining how epigenetic inheritance affects environmental, agricultural and healthcare outcomes.Read moreRead less
The T cell genome in 3D: linking chromatin structure to cellular function. Adaptive immune cell activation results in the acquisition and long term maintenance of specific cellular function that enables efficient immune control of infections. Using advanced cellular and genomic approaches, combined with high-resolution microscopy and cutting edge computational biology, this proposal aims to address major gaps in our knowledge about how alterations in genomic 3D architecture and targeted biochemi ....The T cell genome in 3D: linking chromatin structure to cellular function. Adaptive immune cell activation results in the acquisition and long term maintenance of specific cellular function that enables efficient immune control of infections. Using advanced cellular and genomic approaches, combined with high-resolution microscopy and cutting edge computational biology, this proposal aims to address major gaps in our knowledge about how alterations in genomic 3D architecture and targeted biochemical modifications impact cell specific gene nuclear positioning and how this regulates changes in gene expression associated with immune cell activation. An outcome will be identification of novel molecular mechanisms that will have broad applicability across cellular biology, and provide novel targets for drug development.Read moreRead less
Is 'junk DNA' involved in gene editing in human cells. Exciting results suggest that non-coding RNAs (ncRNA), some of which emanate from regions in the human genome traditionally known as “junk DNA”, actually function to regulate protein-coding gene transcription. The goal of this project is to explore the role of ncRNAs on a genome-wide level to determine those proteins involved in this process and to what extent this process results in directed genome editing. Knowledge of the ncRNA pathways m ....Is 'junk DNA' involved in gene editing in human cells. Exciting results suggest that non-coding RNAs (ncRNA), some of which emanate from regions in the human genome traditionally known as “junk DNA”, actually function to regulate protein-coding gene transcription. The goal of this project is to explore the role of ncRNAs on a genome-wide level to determine those proteins involved in this process and to what extent this process results in directed genome editing. Knowledge of the ncRNA pathways may lead to a novel methodology to activate silenced genes as well as determine the role of ncRNAs in genome evolution.Read moreRead less
Epigenetic inheritance: how does it work? This project aims to determine the mechanisms responsible for the inheritance of acquired traits. Sometimes the environment can have effects on the phenotype of not only the exposed individual, but also their children and grandchildren. While it is clear that this can occur, what is not clear is the mechanism by which this happens and the frequency at which it happens. This project will use the model organism Caenorhabditis elegans, innovative new techni ....Epigenetic inheritance: how does it work? This project aims to determine the mechanisms responsible for the inheritance of acquired traits. Sometimes the environment can have effects on the phenotype of not only the exposed individual, but also their children and grandchildren. While it is clear that this can occur, what is not clear is the mechanism by which this happens and the frequency at which it happens. This project will use the model organism Caenorhabditis elegans, innovative new techniques for the discovery of low abundance RNA molecules, and fluorescence microscopy to analyse structures within the cell nucleus to determine what the molecular mechanism is by which this "transgenerational epigenetic inheritance" occurs. This will have an impact on evolutionary theory, as well as long-term consequences for the understanding of human health and disease, and the impact of a changing climate on agriculture.Read moreRead less
Epigenetic regulation of centromere and telomere chromatin. Epigenetics is a system that turns genes on and off without sequence alterations in the DNA. This process works by attaching chemical tags, known as epigenetic marks, to DNA. Centromeres and telomeres are chromosomal DNA domains essential for faithful chromosome segregation and genome stability. Their function and structural integrity are tightly regulated by specific epigenetic marks. This project aims to assess the functions of key ep ....Epigenetic regulation of centromere and telomere chromatin. Epigenetics is a system that turns genes on and off without sequence alterations in the DNA. This process works by attaching chemical tags, known as epigenetic marks, to DNA. Centromeres and telomeres are chromosomal DNA domains essential for faithful chromosome segregation and genome stability. Their function and structural integrity are tightly regulated by specific epigenetic marks. This project aims to assess the functions of key epigenetic factors including chromatin remodelers, histone variants and non-coding RNA in controlling centromere and telomere activity. The data should describe novel pathways that maintain the identity, transcription silencing, DNA replication fidelity and structural stability at these domains.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101669
Funder
Australian Research Council
Funding Amount
$430,485.00
Summary
Polycomb Group Proteins - Shaping Chromatin Architecture to Silence Genes . This project aims to address the fundamental question of how genes are switched off by studying a group of molecular off-switches, the polycomb group proteins. The project is expected to generate new knowledge in the area of gene regulation and epigenetics by combining innovative methods of structural biology and cell biology in an interdisciplinary way. The expected outcomes include a more complete picture of the molecu ....Polycomb Group Proteins - Shaping Chromatin Architecture to Silence Genes . This project aims to address the fundamental question of how genes are switched off by studying a group of molecular off-switches, the polycomb group proteins. The project is expected to generate new knowledge in the area of gene regulation and epigenetics by combining innovative methods of structural biology and cell biology in an interdisciplinary way. The expected outcomes include a more complete picture of the molecular mechanisms that regulate gene expression and the development of novel methods to image the genome. This should provide significant benefits, such as facilitated development of gene editing tools and regulatory circuits for synthetic biology, as well as novel capabilities to image the genome at high resolution Read moreRead less
Role of R-loops and double R-loops in genome organisation and transcription. The majority of our genome is converted to an extensive network of non-protein-coding RNA molecules (ncRNAs), but the function of these ncRNAs is unknown. This project aims to identify and determine the mechanism of action of nuclear ncRNA networks with a particular focus on nuclear ncRNAs that form RNA-DNA hybrids with the genomic DNA. These studies have the potential to lead to ground-breaking discoveries in our under ....Role of R-loops and double R-loops in genome organisation and transcription. The majority of our genome is converted to an extensive network of non-protein-coding RNA molecules (ncRNAs), but the function of these ncRNAs is unknown. This project aims to identify and determine the mechanism of action of nuclear ncRNA networks with a particular focus on nuclear ncRNAs that form RNA-DNA hybrids with the genomic DNA. These studies have the potential to lead to ground-breaking discoveries in our understanding of genome organisation and the mechanism of transcription control, and might provide an entirely new tool-box to manipulate genome function. This should provide significant benefits to efforts to develop innovative biotechnology and genome editing technologies in plants and animals.Read moreRead less
RNA surveillance and the initial steps of RNA biogenesis. This project aims to understand the initial steps of RNA biogenesis and how this process is linked to the chromatin environment. Although less than five per cent of our genome encodes proteins, almost the entire genome is transcribed to RNA. A large portion of these transcripts are degraded during the early steps of RNA biogenesis by the RNA surveillance machinery, but the mechanism for the recognition and degradation of these transcripts ....RNA surveillance and the initial steps of RNA biogenesis. This project aims to understand the initial steps of RNA biogenesis and how this process is linked to the chromatin environment. Although less than five per cent of our genome encodes proteins, almost the entire genome is transcribed to RNA. A large portion of these transcripts are degraded during the early steps of RNA biogenesis by the RNA surveillance machinery, but the mechanism for the recognition and degradation of these transcripts is not understood. New evidence suggests that the chromatin environment of the transcribed locus plays an important role in this process. This project will lead to significant benefits in the implementation of emerging RNA-based technologies and in understanding how genome stability is maintained.Read moreRead less
Dissecting a RNA-histone variant interaction and its role in splicing. This project aims to define the molecular details of how a chromatin component, histone H2A.B, binds RNA and influences RNA splicing. This is unprecedented for histones, which are typically associated with DNA and transcriptional regulation. Over 90 per cent of human genes may be alternatively spliced. This explains how complex organisms develop from a limited set of genes, but how alternative splicing decisions are made is u ....Dissecting a RNA-histone variant interaction and its role in splicing. This project aims to define the molecular details of how a chromatin component, histone H2A.B, binds RNA and influences RNA splicing. This is unprecedented for histones, which are typically associated with DNA and transcriptional regulation. Over 90 per cent of human genes may be alternatively spliced. This explains how complex organisms develop from a limited set of genes, but how alternative splicing decisions are made is unclear. The intended outcome is to reveal links between chromatin, RNA splicing and gene expression regulation to explain how multicellular organisms have evolved. The translation of this knowledge will ultimately provide long-term economic and health benefits for Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140100199
Funder
Australian Research Council
Funding Amount
$395,220.00
Summary
Determining the mechanisms of transgenerational epigenetic inheritance. Although previously controversial, there is now little doubt that transgenerational inheritance of epigenetic marks can occur. This phenomenon is difficult to study in humans and many model organisms, in part due to long generation times. To avoid this difficulty, this project will use genetic and molecular biology approaches in the model organism Caenorhabditis. elegans. The project will utilise a robust assay for transgene ....Determining the mechanisms of transgenerational epigenetic inheritance. Although previously controversial, there is now little doubt that transgenerational inheritance of epigenetic marks can occur. This phenomenon is difficult to study in humans and many model organisms, in part due to long generation times. To avoid this difficulty, this project will use genetic and molecular biology approaches in the model organism Caenorhabditis. elegans. The project will utilise a robust assay for transgenerational epigenetic inheritance established to identify a collection of genes involved in the process and will determine the interplay between chromatin modifications and small RNA molecules. This project aims to determine the exact epigenetic mark that is transmitted and the mechanisms by which the transmission occurs.Read moreRead less