Viewing posts tagged peptides

Adding FAIMS to the phosphoproteomic workflow

Mass spectrometry is the premier tool for identifying and quantifying protein phosphorylation on a global scale. Analysis of phosphopeptides requires enrichment, and even after the samples remain highly complex and exhibit a broad dynamic range of abundance. A recent publication by Muehlbauer et. al. found that incorporating a commercialized aerodynamic high-field asymmetric waveform ion mobility spectrometry (FAIMS) device into the phosphoproteomic workflow was a valuable addition with greater benefits emerging from longer analyses and higher amounts of material.

Read the article, Global Phosphoproteome Analysis Using High-Field Asymmetric Waveform Ion Mobility Spectrometry on a Hybrid Orbitrap Mass Spectrometer.

Creating efficient and effective peptide fragmentation in tandem MS (MS/MS)

Photoactivation and photodissociation have long proven to be useful tools in tandem mass spectrometry, but implementation often involves cumbersome and potentially dangerous configurations. To remedy this problem, a fiber-optic cable was coupled to an infrared (IR) laser on a mass spectrometer. These advances allow for a more robust, straightforward, and safe instrumentation platform, permitting implementation of AI-ETD and IRMPD on commercial mass spectrometers and broadening the accessibility of these techniques.

This research is described in a recent Analytical Chemistry publication by Trent Peters-Clarke titled Optical Fiber-Enabled Photoactivation of Peptides and Proteins.