Webinars |
Mass Spectrometry
Mass Spectrometry Webinars
Promoted Webinars
Mass Spectrometry Webinars
In this webinar - Deciphering Acute Kidney Injury Mechanisms and Breast Cancer Subtypes with Fast Acquisition Mass Spectrometry - Birgit will share her research around Acute Kidney Injury (AKI) and human breast cancer.
In this presentation, Bruker Life Sciences Mass Spectrometry shows how PASEF, implemented on the Bruker timsTOF Pro, can be applied to HCP analysis.
The webinar will update on latest developments in MALDI mass spectrometry for high-throughput screening and CPD profiling (rapifleX MALDI PharmaPulse) and introduce Bruker's new surface plasmon resonance (SPR) instrument, the SIERRA SPR-32.
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.
Mass spectrometry imaging produces highly complex data that is difficult to access and understand. This webinar demonstrates feature extraction with principal components and advanced visualization techniques in SCiLS Lab
The webinar provides a detailed overview of how high-resolution mass spectrometry and data acquisition using a 'catch all compound' acquisition scan mode can reduce instances of reporting false positives and negatives.
The webinar will briefly introduce the field of forensic toxicology and focus on the use of the Toxtyper system for urine screening within this field. A special focus will be on urine sample preparation to improve time- and cost-effectiveness in the lab.
The presentation will give a current overview of label-free high-throughput MALDI TOF mass spectrometry and its use in drug discovery screening. It will explain the basics of MALDI TOF mass spectrometry and the benefits of label-free screening compared to current labeled approaches.
Worldwide, serious concern has arisen about the increased incidence of learning and developmental disorders in children.
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.