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

Scientists at Brazil's National Center for Research in Energy and Materials (CNPEM) have discovered a biocatalyst called ...

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 ...

The National Center for Research in Energy and Materials has filed a patent application for the enzyme, which is now being ...

A perfectly cooked fillet steak is arguably the epitome of good eating. Its humbler cousin, the pack of minced beef, is one ...

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.

IT is a well-known fact that by the combined action of cellulose-decomposing and nitrogen-fixing bacteria in crude culture, elementary nitrogen may be fixed in quantities of as much as 10–12 mgm.

If you’ve ever made kombucha, you will be familiar with the term SCOBY – a symbiotic culture of bacteria and yeast. It’s impossible to miss – it’s the floating biofilm on top of your ...

What's so good about bacterial cellulose? Deriving cellulose from bacteria isn't new. It was first discovered back in 1886. Since then, the main use we've found for it has been in food and drink ...

Rajkishore Nayak works for RMIT University Vietnam. We received Tier II funding from the the office of Research & Innovation at RMIT University Vietnam & CSIRO Australia. Donna Cleveland works for ...