Webinars |
Protein Analysis
Protein Analysis Webinars
Promoted Webinars
Protein Analysis Webinars
In this webinar - Application of Microfluidic Diffusional Sizing (MDS) in deciphering mechanisms driving myosin filament dynamics - Dr. Colleen Kelly, a renowned postdoctoral researcher from the Previs Lab at the University of Vermont, will discuss cellular and molecular methods used to study myosin.
Exploring Protein Oligomerization and Stoichiometry of Protein Complexes with MALS: Case Studies from Phage-Bacteria Conflict. Understand the basic principles of SEC-MALS and its application to purified proteins in aqueous solution plus much more.
This webinar will shed light on the theory and technology of light scattering and how it is used for the biophysical characterization of viral proteins, mAbs, and their interactions.
Biognosys’ Spectronaut 15 Launch Seminar, featuring lead developer Oliver Bernhardt from Biognosys and Andreas-David Brunner from Matthias Mann’s lab at the Max Planck Institute of Biochemistry.
This webinar features a demonstration of the separation of whole blood, plasma, and serum using asymmetric-flow field-flow fractionation (AF4) with a minimum of sample pre-treatment.
RAS GTPases are prototypical members of the RAS protein superfamily and regulate a diverse range of cytoplasmic signaling networks.
Targeted Protein Degradation refers to the use of bifunctional small molecule Degraders, such as PROTACs, to achieve proteasomal degradation.
In this presentation, Bruker Life Sciences Mass Spectrometry shows how PASEF, implemented on the Bruker timsTOF Pro, can be applied to HCP analysis.
Applications of proteomics to cell biology and biomedical research require further developments of mass spectrometry (MS) technology to overcome long-standing limitations in speed, sensitivity and robustness.
Proteins are highly versatile macromolecules that enact a wide range of biological functions such as catalysis, regulation, communication, mechanical support, movement, and transport. At least several million unique proteins exist in the human body which are, surprisingly, encoded by only fifteen thousand genes.