Advancing plant synthetic gene circuit capability, robustness, and use. This project aims to advance our ability to control gene expression in plants using synthetic gene circuits. By expanding the toolkit and optimizing circuit components, we aim to achieve more complex capabilities and robust implementation. Furthermore, we will apply gene circuit technologies to enhance plant frost tolerance. The expected project outcomes include a significant advance in gene circuit capabilities, a better un ....Advancing plant synthetic gene circuit capability, robustness, and use. This project aims to advance our ability to control gene expression in plants using synthetic gene circuits. By expanding the toolkit and optimizing circuit components, we aim to achieve more complex capabilities and robust implementation. Furthermore, we will apply gene circuit technologies to enhance plant frost tolerance. The expected project outcomes include a significant advance in gene circuit capabilities, a better understanding of their behavior in plant cells, and the ability to use them to confer advantageous traits. The benefits of this research include new plant biotechnology tools that will underpin future crop yield improvements, and advances in plant-based pharmaceuticals and materials.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100377
Funder
Australian Research Council
Funding Amount
$423,659.00
Summary
Facilitating control of Queensland fruit fly and other insect pests. This project aims to address the need for a Queensland fruit fly male-only sterile release strain for the national Sterile Insect Technique program to control this devastating Australian horticulture pest. By combining two molecular technologies in a new strain that responds to temperature cues to trigger development of only male flies, this project expects to produce twice as many sterile males for release to mate with wild fe ....Facilitating control of Queensland fruit fly and other insect pests. This project aims to address the need for a Queensland fruit fly male-only sterile release strain for the national Sterile Insect Technique program to control this devastating Australian horticulture pest. By combining two molecular technologies in a new strain that responds to temperature cues to trigger development of only male flies, this project expects to produce twice as many sterile males for release to mate with wild females in fruit fly outbreak areas, preventing production of the next generation. Expected outcomes include significant reduction in production costs and increased efficiency of the national sterile release program, facilitating control of this damaging pest to protect Australia's billion dollar horticultural industry.Read moreRead less