Imagine if our bodies could grow new organs throughout our entire lives. Plants do this constantly, thanks to tiny, powerful ...

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 ...

Plant cell walls have a special ability to expand without breaking or weakening, which is crucial for plant growth. New research has shown that the cellulose skeleton of the plant cell wall is what ...

In a groundbreaking study on the synthesis of cellulose—a major constituent of all plant cell walls—a team of Rutgers University-New Brunswick researchers have captured images of the microscopic ...

Focusing on the human pathogen Staphylococcus aureus, new research led by scientists from the University of Sheffield in the U.K., examines how bacteria maintain their unique cell walls and how ...

The protein BICAT3 is one of the most important manganese distributors in plants. If defective, this can have devastating effects on a plant's growth; its leaves grow significantly smaller and it ...

A plant cell wall's unique ability to expand without weakening or breaking is due to the movement of its cellulose skeleton, according to new research that models the cell wall. The new study presents ...

In a new study published in Nature Communications, Associate Professor Tuo Wang and his research team from the Department of Chemistry at Louisiana State University revealed the molecular architecture ...

Imagine if our bodies could grow new organs throughout our entire lives. Plants do this constantly, thanks to the tiny, ...

Fungi are everywhere, and in many cases, a fungal infection can be eliminated by a person's immune system. But fungal infections can also send long hyphae into the body that are extremely difficult to ...