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

Developing targeted small molecule quantitative workflows for clinical research presents many challenges to researchers. From determining the optimum methods needed to enhance selectivity and ...

Mass spectroscopy research at CSHL introduces a new binning technique that improves molecular sensitivity, avoids ion overload and helps scientists better detect proteins, lipids and drug effects in ...

The advent of advanced mass spectrometric techniques has revolutionised lipid analysis, enabling detailed molecular-scale investigations into the complex architecture of lipid species. Mass ...

Forensic toxicology has evolved into an indispensable discipline for the detection and quantification of drugs, poisons, and their metabolites in biological matrices. Central to this evolution is the ...

Michael Skinnider and his team have developed DeepMet, a large language model–guided program that can assign a structure to ...

Waters’ newest tandem quadrupole mass spectrometer is up to 15X more sensitive for analyzing negatively ionized compounds Xevo TQ Absolute is up to 45% smaller, uses up to 50% less power and nitrogen, ...

A tool developed by IU professors is on the market and foreseeing developments in gene therapy, environmental science and more. One month into its commercial launch, the Xevo Charge Detection Mass ...

Immunopeptidomics is a cutting-edge field focused on identifying and characterizing peptides presented by major histocompatibility complex (MHC) Class I and II molecules on cell surfaces. These ...