Virology researchers have found that a specific protein modification to the immune protein MDA5 is key to how our bodies detect and respond to viruses and viral replication. The publication explains ...

A new study on fatty acid acylation, or attachment, patterns onto proteins in Caenorhabditis elegans, a type of roundworm, provides a foundation for future discoveries around protein function and its ...

Exploring the post-translational modifications of a key protein in Parkinson's disease, researchers uncover potential pathways for future therapies in neurodegenerative diseases in general.

Boston College researchers have used a mild charge of electricity to precisely modify proteins—a new and inexpensive tool that can be used to develop novel biotherapeutics and protein-based research ...

The new reaction enables selective modification of anti-cancer drugs, rapid synthesis of medicinal compounds, and production of recyclable polymers, enhancing drug and materials science.

Proteoforms, the diverse molecular variants of proteins, are key to understanding cellular functions, disease mechanisms, and biomarker discovery in proteomics.

Cardiovascular disease remains the leading cause of mortality worldwide, necessitating deeper insights into its molecular underpinnings beyond genetic predisposition. Epigenetic modifications, ...

N-terminal acetylation represents one of the most ubiquitous protein modifications in eukaryotic cells, with significant implications for protein stability, folding, and interactions. This covalent ...

Protein AMPylation represents a specialised post‐translational modification (PTM) in which an adenosine monophosphate (AMP) moiety is covalently attached to specific amino acid residues on target ...

Neurodegenerative diseases, such as Alzheimer’s and Parkinson’s, present a significant health challenge, affecting over 50 million people globally. One common feature of these diseases is the ...