Scientists reveal new plant cell walls can have significantly different mechanical properties compared to surrounding parental cell walls, enabling cells to change their local shape and influence the ...

Plant cell walls, composed primarily of cellulose, hemicellulose and pectins, serve as dynamic structures that not only provide mechanical strength and protection but also regulate growth, ...

Using a new method to isolate and reprogram plant cells into other cell types, biologists explored how banding patterns that increase the stability of plant cell walls are created and how their ...

However, a new frontier in nanotechnology is beginning to crack this barrier, offering a novel approach to plant engineering that could redefine the field. In recent research, published in Advanced ...

A newly discovered way of optimising plant enzymes through bioengineering has increased knowledge of how plant material can be converted into biofuels, biochemicals and other high-value products. The ...

Channels in plant cell walls, called plasmodesmata, provide molecules with a bridge to move between cells, an essential phenomenon for cellular growth and development. The mystery has long been how ...

Plants are a rich and renewable source of compounds used in medicines, food ingredients, and cosmetics. Since growing an ...

Similar to humans, plants have an immune system to help defend against parasites and other deleterious infections. The human body is interconnected with cell-to-cell communication to orchestrate an ...

Biomechanics reveals cell wall age properties and how newly born cells can change their local shape and influence the growth of plant organs Scientists reveal new plant cell walls can have ...