This detailed overview explains the technical mechanisms of LC-MS proteomics, including peptide separation, ion generation, ...

The success of any large-scale proteomics study is fundamentally determined at the sample preparation stage, which serves as the critical bridge between the biological system and the analytical ...

Tissue dissociation and homogenization are excellent candidates for automation in LC-MS workflows, helping scientists achieve consistent and reproducible protein analysis. Scientists use liquid ...

LC-MS and GC-MS datasets can be challenging to process and extract meaningful information from. However, when correctly executed, these techniques can be unmatched for detecting unknown components or ...

The sample throughput of high-sensitivity liquid chromatography-mass spectrometry (LC-MS) based proteomics analysis is restricted by the pressure limitations of LC and column hardware, with some ...

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 ...

Discover how Novartis and Genedata partnered in the development of a robust, efficient, and user-friendly New Peak Detection (NPD) workflow to facilitate the implementation of the Multi-Attribute ...

Pharmaceutical Separation Science Session Day two of HPLC 2025 concluded with a session on pharmaceutical separations chaired ...

In 2025, MOBILion Systems achieved a decisive technical milestone through proof-of-concept demonstration that high-resolution ion mobility (HRIM), operated in MOBILion's unique PAMAF mode, ...