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

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

Plant cell walls are primarily made of cellulose, which is the most abundant macromolecule on Earth. Cellulose fibers are long, linear polymers of hundreds of glucose molecules. These fibers ...

It was once believed that cellulose was the structural material in the cell walls of all green plants. Now it appears that other substances are employed for this purpose in certain marine algae ...

The plant uses this glucose to grow as well as make other useful substances, such as cellulose found in the cell walls and starch used as energy storage. The glucose can also be broken down in the ...

Experts said the continuing rise in the price of the renewable material is a result of fewer cellulose plants, operational problems, and increased demand from Asia and Europe. Environmental issues ...

But plant-based ‘bioplastics’ are not new. The first man-made plastic was made in 1862 using cellulose, the main component of plant cell walls, pre-dating the petroleum-based plastics that ...

The efficient use of cellulose—the primary plant scaffold and a major natural building block—could address many issues ...

A research team has identified key microbial genomes and enzymatic strategies responsible for breaking down the ...

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

The plant uses this glucose to grow as well as make other useful substances, such as cellulose found in the cell walls and starch used as energy storage. The glucose can also be broken down in the ...