Webinar
Enhancing MS-Based Omics Analysis in a Model Organism
On-Demand
Mass spectrometry (MS)-based omics technologies have revolutionized our understanding of molecular changes in organisms and are crucial for studying metabolism and related diseases through lipidomics and metabolomics. Despite significant advances, there is still a need for robust analytical methodologies in data acquisition, data processing and annotation.
This webinar will demonstrate how LC-Zeno SWATH DIA outperforms conventional DDA in annotating metabolites and lipids in the model organism Gammarus fossarum. Additionally, the presentation will showcase the effectiveness of electron activated dissociation (EAD) in characterizing lipid species and elucidating metabolite isomers. Finally, the webinar will illustrate how EAD and high-resolution targeted approaches improve structural elucidation and molecular network construction.
This webinar will demonstrate how LC-Zeno SWATH DIA outperforms conventional DDA in annotating metabolites and lipids in the model organism Gammarus fossarum. Additionally, the presentation will showcase the effectiveness of electron activated dissociation (EAD) in characterizing lipid species and elucidating metabolite isomers. Finally, the webinar will illustrate how EAD and high-resolution targeted approaches improve structural elucidation and molecular network construction.
Webinar
Recent Advances in Screening Technologies for Human Monoclonal Antibodies for Infectious Diseases
On-Demand
In this webinar, Dr. James E. Crowe from Vanderbilt University Medical Center will discuss current approaches to screening for high potency, broad reactivity, synergistic combinations and reduced escapability.
Webinar
A Novel Perfusion Technique for Multiomics Studies on Hepatocyte Aging
On-Demand
The liver is a very good example of how tissue architecture can influence aging. Composed mainly of hepatocytes, the position of these cells is key to their role and determines changes in their metabolism and aging profile.
Researchers from the Max Planck Institute have conducted an in-depth multiomics analysis of functional and healthy hepatocytes, characterizing transcriptional, epigenetic, lipidomic and functional signatures to understand the effects of aging.
In this webinar, you’ll hear all about their research, including the novel perfusion technology for resected mouse liver that makes it easy and convenient to obtain viable hepatocytes to analyze.
Researchers from the Max Planck Institute have conducted an in-depth multiomics analysis of functional and healthy hepatocytes, characterizing transcriptional, epigenetic, lipidomic and functional signatures to understand the effects of aging.
In this webinar, you’ll hear all about their research, including the novel perfusion technology for resected mouse liver that makes it easy and convenient to obtain viable hepatocytes to analyze.
Webinar
Gain Comprehensive Molecular Knowledge Without Peptide Mapping
On-Demand
Reliable and streamlined workflows to characterize PTMs are necessary to create a comprehensive molecular profile.
Webinar
Exposome Insights: Decoding Spaceflight and Aging With Proteomics
On-Demand
Join expert speakers, Dr. Christopher Mason of Weill Cornell Medicine, and Dr. Michael Roberts of Auburn University, for an enlightening discussion on the profound impacts of spaceflight on human biology and the unique molecular signatures of aging influenced by resistance training.
Webinar
Uncovering the Role of T Cells in Cancer With Spatial Biology
On-Demand
This webinar will focus on using spatial biology approaches to understand the role of human γδ T cell subtypes in cancer, illustrating how to assess this subset in their tissue microenvironments at high resolution.
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