Recent breakthroughs in AI, quantum computing, and advanced microscopy are redefining how scientists simulate and visualize molecular systems. New methods capture long-range atomic interactions, model ...

A new method developed at Baylor College of Medicine and collaborating institutions allows researchers to better understand ...

(spidroins) through long-read transcriptomics across a broad phylogenetic range, with theoretical implications for protein family evolution, biomaterials, and silk biology. By identifying putative ...

HIV-1 envelope glycoprotein (Env), a gp120–gp41 trimer, undergoes coordinated conformational changes that drive membrane fusion and allow immune evasion by transiently concealing ...

A new single-cell technology is giving scientists their clearest view yet of immune cell behavior—capturing not just genetic intent, but real-time activity. By measuring RNA and proteins ...

ABSTRACT: The current study was conducted to detect the pathogenic fungus causing leaf blight disease of guava in Bangladesh, and to evaluate the effect of various physical factors on the fungal ...

The three-dimensional structure of a protein underpins its biological function, making structure determination and prediction central challenges in structural biology. Although experimental techniques ...

Dr. Travis Craddock, professor and Canada Research Chair, says the team's findings change our basic knowledge of biology (University of Waterloo). A novel method to manipulate the inner structure of ...

Astronomers use the term dark energy to refer to energy in the universe that is unaccounted for by ordinary matter but necessary to explain cosmology. Astronomy, however, isn't the only field with ...

Artificial intelligence isn’t just changing how we search the web or generate images. It is reshaping how scientists approach one of biology’s oldest problems: the folding of proteins. Google DeepMind ...