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