A bacterial cellulose bandage significantly improves plant recovery and regeneration, offering new agricultural benefits.

Professor Bernard Carroll from UQ’s School of Chemistry and Molecular Biosciences said nanoparticle technology could help ...

EpiSeedLink explores marine technologies to enhance drought resilience in crops, involving BioAtlantis and University of ...

SYDNEY, Feb. 14 (Xinhua) -- Australian researchers have for the first time introduced genetic material into plants via their roots in a breakthrough they said could boost crop yield and food quality.

A groundbreaking study, co-led by researchers from the Center for Plant Biotechnology and Genomics (CBGP) and Centre for Research in Agricultural Genomics (CRAG), has elucidated the mechanism by which ...

University of Queensland researchers have for the first time introduced genetic material into plants via their roots, opening ...

Researchers have successfully uncovered the molecular mechanisms by which bacterial cellulose patches stimulate the regeneration of plant wounds.   - The regeneration process requires the activation ...

A study has elucidated the mechanism by which bacterial cellulose mediates plant tissue regeneration. The work has been ...

Recent research into bacterial cellulose patches may speed plants' recovery, improve grafting and help with preservation.

Plants survive climate change using genetic variations. Scientists studied Marchantia polymorpha to find key adaptation ...

As climate change accelerates, plants are under increasing pressure to adapt to changing habitats and environmental ...