Byrt Group – Engineering plant membrane proteins and solute transport to increase yield security
We work on engineering strategies to increase crop tolerance to salinity and drought, and to advance water filtration technology.
About
Our crop yields are limited by osmotic stresses, which often occur as a result of drought and salinity. There is potential for us to be able to improve crop osmotic stress tolerance by manipulating the function of aquaporins. Aquaporins are membrane intrinsic proteins, which are renowned for functioning as water channels. Our team discovered that a subset of plant aquaporins can switch between functioning as water channels and functioning as channels that are permeable to salt ions. We have identified aquaporin post-translational modifications that function like “molecular switches”, regulating the ion and water channel activity of dual ion:water aquaporins. We are working on translating these discoveries into engineering strategies to increase crop tolerance to salinity and drought, and to advance water filtration technology.
Awards
- Jan Anderson Award, 2023
Projects
Members
Group Leader
Postdoctoral Fellow
Research Officer
Research Assistant
Technical Assistant
PhD Student
Honours Student
Honorary Senior Lecturer
Divisional Visitor
Visiting PhD Student
News
Scientists from ANU are drawing inspiration from plants to develop new techniques to separate and extract valuable minerals, metals and nutrients from resource-rich wastewater.
Not content with the challenging conditions for crop production here on Earth, Associate Professor Caitlin Byrt is lending her expertise to an ambitious space mission to grow plants on the moon.
ANU will lend its unique expertise in plant biology to an ambitious mission led by Australian space start-up Lunaria One that aims to grow plants on the moon by as early as 2025.