The Proteome is far more complex than was ever expected at the genesis of the Proteomics revolution.
Reach for the Full Potential of Proteomics.
Open Your Eyes to PRIME
The Proteome is far more complex than was ever expected at the genesis of the Proteomics revolution. Dynamics in time, space and concentration as well as variability due to modifications and mutations require novel and complementary approaches to generate useful, reliable and complete information. There is no „one size fits all“ in unraveling the Proteome. PRIME delivers a multidimensional toolbox to unlock the complexity.
Protemics through Integrated MALDI and ESI
Bruker’s PRIME solution (Protemics through Integrated MALDI and ESI) leads the way to integrated approaches for modern proteomics and harnesses the strengths of a range of mass spectrometry technologies as well as bioinformatics without compromises. This results in enhanced protein identification and data rich interpretation about the proteome.
Protein Identification
Bottom-up Protein Identification
Protein Characterization
In depth analysis of Protein Modifications and Structure
Protein Quantitation
Multiplexed Quantitation based on various labelling methodologies
Inside the Laboratory: The Chromatography Laboratory at the University of Rouen
April 18th 2024In this edition of “Inside the Laboratory,” Pascal Cardinael and Valérie Agasse of the University of Rouen in Mont‑Saint-Aignan, France, discuss their laboratory’s work with miniaturizing gas chromatography (GC) columns and systems to improve on-site air analysis of volatile organic compounds (VOCs).
Inside the Laboratory: The McLean Group at Vanderbilt University
April 16th 2024In this edition of "Inside the Laboratory," John A. McLean, the dean of graduate education and research at the College of Arts & Science of Vanderbilt University, discusses his laboratory's recent work regarding ion mobility-mass spectrometry (IM-MS) and how it can be applied in various fields.