The newly discovered algae species Streptofilum arcticum possesses a potentially highly flexible cell wall to help it survive ...

Hugh O'Neill conducts plant cell wall research as part of the DOE Solvent Disruption of Biomass and Biomembranes Science ...

The newly discovered algae species Streptofilum arcticum possesses a potentially highly flexible cell wall: When water is ...

Hugh O'Neill uses neutron beams at ORNL to study biological materials, potentially advancing biofuel production by ...

Two Washington University in St. Louis faculty members are being honored by the Academy of Science - St. Louis for their ...

In conclusion, foliar Ca spray can decrease F accumulation in tea plant leaves by changing cell wall composition, structure and related-gene expression, i.e., Ca had an overall suppressing effect on ...

An international research team has described a newly discovered algae species Streptofilum arcticum and its cell functions for the first time in a recent publication in the journal Environmental ...

The world is searching for sustainable solutions for future food production, and microalgae appear to have the potential to play a crucial role. The microalga Nannochloropsis oceanica is particularly ...

The plant cell wall is a dynamic network of several biopolymers and structural proteins including cellulose, pectin, hemicellulose and lignin. Cellulose is one of the main load bearing components of ...

Lutein is more than an eye-protecting nutrient. New research reveals its role in brain health and disease prevention. Learn ...