Researchers at EPFL and Kyoto University have created a stable hydrogen-rich liquid formed by mixing two simple chemicals.

These dipoles enable hydrogen bonding between the polypeptide backbone of different parts of the same protein chain, which drives the formation of the protein's secondary structure.

Tertiary Structure of a Protein The tertiary structure of a protein is the overall 3-dimensional structure of a polypeptide also caused by interactions of the R-groups of specific amino acids. These ...

However, while many existing models have succeeded in incorporating structural information on target proteins, they have not been able to address important interactions between protein and drug ...

Researchers reveal the intricate structure of a biohybrid catalyst that combines photosystem I with platinum nanoparticles to efficiently generate hydrogen fuel.

As seen in Figure 12A, in the crystal structure of the ternary complex the backbone amide of E121 hydrogen bonds to the backbone carbonyl of K105, while the backbone carbonyl of E121 hydrogen bonds ...

A research team has successfully developed a new approach to create switchable magnetic materials by using hydrogen bonding at the molecular level. This groundbreaking study shows how certain ...

Discover how hydrogen bonding influences compound properties like boiling points, solubility, and molecular structure in our insightful article.

AlphaFold3 uses AI to helps scientists more accurately predict how proteins interact with other biological molecules.

Molecular simulations show that hydrogen bond energies are stable between oxidized and unoxidized variants of the same protein, and that, consequentially, the secondary-structure elements are stable.

Hydrogen bonds form between two atoms and a hydrogen atom. Atoms, such as oxygen, can be covalently bound to hydrogen, and giving the hydrogen (H) in the OH group a slight positive charge due to ...