INTRINSIC PROPERTIES OF THE PORE FORMING DOMAIN OF THE RYANODINE RECEPTOR CALCIUM CHANNEL. The project is to understand how a calcium ion channel is able to regulate muscle performance. The ion channel, known as the ryanodine receptor, is essential for human and animal survival. The results of the project will be integral to understanding muscle performance in humans and will have long term implications for Australian sports physiology and sports science. The project will also be integral to ....INTRINSIC PROPERTIES OF THE PORE FORMING DOMAIN OF THE RYANODINE RECEPTOR CALCIUM CHANNEL. The project is to understand how a calcium ion channel is able to regulate muscle performance. The ion channel, known as the ryanodine receptor, is essential for human and animal survival. The results of the project will be integral to understanding muscle performance in humans and will have long term implications for Australian sports physiology and sports science. The project will also be integral to understanding muscle performance and development in animals and will have repercussions for the Australian livestock and racing industries. The results may lead to the development of new insecticides since insect mobility depends on ryanodine receptor activity. This will benefit to Australian agriculture.Read moreRead less
The role of the Ttyh1 protein in cell activation. We have cloned TTYH1, a human homologue of the Drosophila melanogaster tweety gene. The mouse gene has also been identified. The predicted structure of the protein is a membrane protein with 5 transmembrane domains. We have also expressed a GFP-tagged fusion protein in mouse fibroblasts. Confocal microscopy indicates that this protein is likely to be a novel adhesion molecule, with a cellular distribution characteristic of molecules such as integ ....The role of the Ttyh1 protein in cell activation. We have cloned TTYH1, a human homologue of the Drosophila melanogaster tweety gene. The mouse gene has also been identified. The predicted structure of the protein is a membrane protein with 5 transmembrane domains. We have also expressed a GFP-tagged fusion protein in mouse fibroblasts. Confocal microscopy indicates that this protein is likely to be a novel adhesion molecule, with a cellular distribution characteristic of molecules such as integrins. We aim to determine the function of Ttyh1, its interacting intra- and extra-cellular proteins and to assess its candidature as a molecule of importance in cell migration and adhesion.Read moreRead less