Enhancing omics-based mass spectrometry workflows with Electron-Activated Dissociation (EAD) by Rebekah Sayers | 0 CommentsElectron-Activated Dissociation (EAD) is transforming the fields of metabolomics and lipidomics by providing enhanced fragmentation techniques that offer deeper insights into molecular structures. In September, Technology Networks hosted a webinar, “Enhancing Mass-Based Omics Analysis in Model Organisms,” featuring Dr. Valentina Calabrese from the Institute of Analytical Sciences at the University of Lyon. Valentina shared her insights on improving omics-based mass spectrometry analysis for toxicology studies using model organisms, particularly in metabolomics and lipidomics. This blog explores the additional functionalities EAD offers, its benefits in untargeted workflows, its incorporation into GNPS and molecular networking, and the future role it could play in these scientific domains.
An overview: LC-MS analysis of targeted protein degraders and their metabolites by Kirsten Craven | 0 CommentsTargeted protein degraders (TPD) are a relatively new therapeutic modality that opens the potential to target disease-causing proteins. These disease-causing proteins have been highly challenging for traditional small-molecule therapeutics to treat, making TPDs an exciting new therapeutic modality.
Using Bio Tool Kit for interpreting peptide MS/MS data obtained using electron activated dissociation (EAD) by Christie Hunter | 0 CommentsPeptide MS/MS spectra obtained using either collision induced dissociation (CID) or electron activated dissociation (EAD) can be analyzed using the Peptide Fragments pane in Bio Tool Kit in SCIEX OS Software. First, open the EAD MS/MS spectrum that you want to...
Peptide fragmentation using electron activated dissociation (EAD) by Christie Hunter | 0 CommentsMost workflows in protein quantification and characterization by mass spectrometry have used collision-induced dissociation (CID). In the CID process, a peptide is selected in the first quadrupole of the instrument (Q1), then accelerated through a collision cell where...
Enhancing omics-based mass spectrometry workflows with Electron-Activated Dissociation (EAD) by Rebekah Sayers | Blogs, Life Science ResearchElectron-Activated Dissociation (EAD) is transforming the fields of metabolomics and lipidomics by providing enhanced fragmentation techniques that offer deeper insights into molecular structures. In September, Technology Networks hosted a webinar, “Enhancing Mass-Based Omics Analysis in Model Organisms,” featuring Dr. Valentina Calabrese from the Institute of Analytical Sciences at the University of Lyon. Valentina shared her insights on improving omics-based mass spectrometry analysis for toxicology studies using model organisms, particularly in metabolomics and lipidomics. This blog explores the additional functionalities EAD offers, its benefits in untargeted workflows, its incorporation into GNPS and molecular networking, and the future role it could play in these scientific domains.
An overview: LC-MS analysis of targeted protein degraders and their metabolites by Kirsten Craven | Blogs, Pharma, ZenoTOF 7600 systemTargeted protein degraders (TPD) are a relatively new therapeutic modality that opens the potential to target disease-causing proteins. These disease-causing proteins have been highly challenging for traditional small-molecule therapeutics to treat, making TPDs an exciting new therapeutic modality.
Using Bio Tool Kit for interpreting peptide MS/MS data obtained using electron activated dissociation (EAD) by Christie Hunter | Bio Tool Kit, Biopharma, Data processing, Data Visualization, Life Science Research, Proteomics, QTOF, SCIEX information, Technology, ZenoTOF 7600 systemPeptide MS/MS spectra obtained using either collision induced dissociation (CID) or electron activated dissociation (EAD) can be analyzed using the Peptide Fragments pane in Bio Tool Kit in SCIEX OS Software. First, open the EAD MS/MS spectrum that you want to...
Peptide fragmentation using electron activated dissociation (EAD) by Christie Hunter | Bio Tool Kit, Biopharma, Data acquisition, Life Science Research, Proteomics, SCIEX information, Technology, ZenoTOF 7600 systemMost workflows in protein quantification and characterization by mass spectrometry have used collision-induced dissociation (CID). In the CID process, a peptide is selected in the first quadrupole of the instrument (Q1), then accelerated through a collision cell where...