Just like workers need the right environment to efficiently perform their tasks, proteins require placement within specific cellular compartments to function properly. Therefore, understanding where ...

Structural mass spectrometry has emerged as a powerful approach to elucidate the three‐dimensional conformations of proteins and their complexes under near‐physiological conditions. In particular, ...

Proteins are large, complex molecules that carry out the tasks of life. They direct our bodies' activities, organize our thoughts, and defend us against infection, keeping us healthy. But in their ...

(A) Illustrates the limited understanding of MG1 induced complex stabilization. (B) Schematic representation of MG1 ligation. (C) Enlarged view of the 14-3-3/Pin1/MG1 interface . (D) MG1 covalently ...

Technological advances in mass spectrometry are aiding researchers to image and characterize protein and other cellular components with increasing resolution. Using native ambient mass spectrometry ...

High-resolution analytical platforms, proteomics-driven workflows, and expanding CRO outsourcing reshape strategic priorities ...

Proteomic mass spectrometry can identify key biomarkers in IPF, aiding in diagnosis and prognosis despite the disease's ...

To identify specific chemicals or molecules in the life sciences and medical research, scientists often use mass spectrometry (MS), usually paired with liquid chromatography (LC). These technologies ...

Proteomics is the large-scale study of proteins, particularly their structures and functions. It involves the systematic identification, quantification, and analysis of the entire protein complement ...

A new mass spectrometry technique captures molecules of lower abundance in a sample, providing a more comprehensive sample ...