Center, an empty capsid showing the double-layered architecture of Jyvaskylavirus; C marks the capsid, and IM marks the putative internal membrane ... The best-fit model selected using ModelFinder ...

Antimicrobial peptides have not typically lived up to their promise, especially when it comes to beating antibiotic ...

Axons in brain cells resemble a string of pearls rather than smooth tubes, according to Johns Hopkins researchers. This ...

In a study, scientists challenge a fundamental tenet in neuroscience about the shape of axons -- the long, thin filaments radiating from nerve cells that transmit electrical signals from cell to cell ...

Researchers from the University of Illinois have discovered a key factor responsible for facilitating signal transduction in Cys-loop receptors, providing insight into a longstanding question in the ...

New research challenges traditional views on axon structure, presenting a "pearls-on-a-string" model where action potential ...

In a provocative new study, scientists challenge a fundamental tenet in neuroscience about the shape of axons -- the long, ...

Seasonal change is reflected everywhere in our daily lives--leaves change color, the produce section at the grocery store ...

A research team from Tianjin University has introduced a digitally-assisted structure design for large-size proton exchange membrane PEM fuel cells ...

The lab of Hassane Mchaourab, director of the Center for Applied Artificial Intelligence in Protein Dynamics and professor of ...

Biomanufacturers can avoid downstream detours if they are guided less by trial and error, and more by machine learning.

Biology textbooks may need a revision, say Johns Hopkins Medicine scientists, who present new evidence that an armlike structure of mammalian brain cells may be a different shape than scientists have ...