纽结理论长期困扰着数学家，但随着人工智能的进步，有研究者在生物学中找到了突破口，因为纽结结构存在于许多重要的生物分子中，例如蛋白质、DNA等。对于难以识别归类的复杂纽结结构，AI给出了令人惊讶的结果。

Hubbard, K., and Wald, G., in Structural Chemistry and Molecular Biology (edit. by Rich, A., and Davidson, N.) (Freeman, San Francisco and London, 1968).

A complex system, such as a cluster of many atoms or a biomolecule, behaves differently: The atoms can often arrange themselves into different conformations, which often have very similar energies.

Indian R&D is set to receive a huge boost with the setting up of the Anusandhan National Research Foundation (ANRF).

Chemists in Canada have uncovered a surprising conformational effect using cyclopropane that provides a way to influence the ...

This year’s Nobel Prize in Chemistry is all about proteins, the chemical building blocks and tools that virtually all living ...

In a study published in PNAS, a research team developed a new reinforcement learning-based enhanced sampling method called ...

Nanoplastics can interfere with the biological activity of drugs, altering adsorption and transport and potentially promoting antibiotic resistance.

Researchers at the University of Chemistry and Technology, Prague (UCT Prague) have published new research about the ...

The framers of the Constitution may have included the clause to allow the government to continue functioning when the Senate was in recess — which, during the early years of the ...

the Spike protein in both its open and closed conformations as well as Ab94 are shown. The most important factor in our typical search for monoclonal antibody treatments is their neutralizing ...

The outline of this labyrinthine cellular machinery, the most complex in humans, opens up new ways of designing treatments ...