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

Mass spec–based methods coupled with chromatography separation techniques are fundamental to success in proteomics research and biopharmaceutical development, and low-flow liquid chromatography has ...

Synthetic oligonucleotides have been used as critical research reagents in the biotechnology industry since its beginning in the 1970s. Their increasing use first led to the formation of many core ...

Shimadzu Scientific Instruments announces the release of the Nexera MX ultra-high speed LCMS system for multiplex analysis. Equipped with Nexera MX Dual Stream Technology (MX-DST), the system can ...

Relationship between immune-inflammatory markers and clinical features and deepness of tumor response and prognosis of patients with PD-L1 ≥50% metastatic NSCLC receiving first-line immunotherapy.

Unlock the full potential of your LC-MS system with Thermo Scientific™ Chromeleon™ software features. This webinar will demonstrate the system suitability test with intelligent run control (SST/IRC) ...

Monoclonal antibodies (mAbs) are complex biotherapeutic proteins, commonly generated in a mammalian cell line to attain adequate yield and, importantly, to decorate the antibody with essential ...

High-throughput LC-MS/MS workflows can dramatically boost efficiency in routine contaminant analysis, but understanding the technical limits of mass spectrometry remains essential to achieving ...

Sample preparation is essential when employing chromatography for bioanalytical analysis as system performance will be negatively affected if it is not performed. Preparation methods include protein ...

Turn around times for each set of experiments will primarily be determined based on the type of service that is provided, the number and type of metabolites of interest per sample, along with the lab ...