News & events
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.
A team of researchers from the ANU Research School of Biology and CSIRO has been awarded more than $1 million to develop technology that harvests valuable resources from our wastewater.
Using cutting-edge technology, biologist Dr Benjamin Schwessinger from The Australian National University (ANU) is helping to protect the biosecurity of Australia's unique flora and agricultural industry.
In a new paper published in Nature Plants, we report on a natural secret that could ultimately be used to help plants thrive while using less water.
Events
Many photosynthetic organisms employ a CO2 concentrating mechanism (CCM) to increase the rate of CO2 fixation via the Calvin cycle. CCMs catalyze ≈50% of global photosynthesis, yet it remains unclear which genes and proteins are necessary for a CCM to function.
C-TERMINALLY ENCODED PEPTIDES (CEPs) interact with the CEPR1 receptor to control nitrate uptake and primary root growth, however the role of CEP-CEPR1 signalling in controlling overall root system architecture is unknown.
Disease resistance is mediated by recognition of pathogen avriulence effectors (AVR) through host nucleotide-binding leucine-rich repeat receptors (NLR).
The interaction of C-TERMINALLY ENCODED PEPTIDES (CEPs) with CEP RECEPTOR1 (CEPR1) controls root growth and development, as well as nitrate uptake, but has no known role in determining yield.
This seminar will discuss the terabytes of unused satellite data that observe the natural world, yet have not been widely used for field biology, in the context of agriculture.
Silencing of transposable elements (TEs) is essential for maintaining genome stability. Plants use small RNAs (sRNAs) to direct DNA methylation to TEs (RNA-directed DNA methylation; RdDM). Similar mechanisms of epigenetic silencing in the fungal kingdom have remained elusive.