Multi-dimensional separations are essential to obtain a precise and detailed view of the content of complex proteomics samples in both targeted (quantitative) and discovery workflows, and since the ...

Understanding the proteome is a fundamental challenge of biology. Any large-scale, proteomics-related study will necessitate the ability to reliably identify as many components of the proteome as ...

PASEF uses trapped ion mobility spectrometry (TIMS) to accumulate precursors released in a particular order depending on the mobility of the ion. Following separation by liquid chromatography, ...

Innovations in mass spectrometry (MS) technology have enabled researchers to uncover previously unexplored parts of the proteome over the years, assisting the discovery of new drugs and pushing the ...

At ASMS, Bruker Corporation (Nasdaq: BRKR) announced the launch of the unique timsMRMS system, bringing the power of trapped ...

Bruker further announced the release of PaSER, a complete GPU-based device enabling proteomics database search in ‘real time’, building on the recently announced acquisition of IP2 software. The term ...

The accessibility of blood, and hence plasma, from patients makes it a popular source of samples for clinical research. Routine quantitative analysis on these samples is primarily conducted using ...

Robust, Unbiased and Affordable 4D-Proteomics™ for Highest-Specificity Protein IDs & Quant Enables High-Fidelity Large-Scale Plasma Proteomics Typical Sequence Coverage >10 Peptides/protein and >100k ...