Lecture

Protein Mass Spectrometry and Proteomics: Techniques and Applications

Related lectures (32)

Protein Mass Spectrometry and Proteomics

Explores protein mass spectrometry, chromatographic techniques, and quantitative proteomic workflows, including SILAC and isobaric tagging methods.

Protein Mass Spectrometry and Proteomics

Covers protein mass spectrometry, proteomics techniques, challenges, and applications in analyzing complex protein mixtures.

Proteomics and Mass Spectrometry

Covers the basics of proteomics, mass spectrometry, protein synthesis, and amino acids, emphasizing the importance of molecular weight and isotopic abundance.

Chemical Biology Tools: DDX3 Mutant Analysis

Analyzes a mutant DDX3 enzyme's ATPase activity and inhibitor development, covering RNA chaperones, crystal structures, and mass spectrometry-based protein profiling.

Proteomics: Post-Translational Modifications and Interactions

Explores proteomics for post-translational modifications and protein interactions.

Protein Profiling: Mass Spectrometry and Target-ID Tools

Explores protein profiling using mass spectrometry, target enrichment techniques, and quantitative proteomics.

Exploring Proteins: Structure, Purification, and Analysis

Covers protein exploration, purification, and analysis methods, including sequencing, concentration measurement, and antibody detection.

Quantitative Proteomics: Techniques and Applications

Covers the principles and methodologies of quantitative proteomics, focusing on measurement techniques and their applications in biological research.

Protein Mass Spectrometry and Proteomics

Explores protein mass spectrometry, proteomic strategies, separations techniques, and protein identification methods using MS/MS data.

Quantitative Proteome Profiling: Chemical Target Identification

Explores quantitative proteome profiling for drug target identification through activity-based protein profiling and advanced mass spectrometry techniques.

Proteomics and Mass Spectrometry

Explores protein mass spectrometry, proteomics techniques, sample preparation, separation methods, quantitative workflows, bioinformatics, and applications in biology.

Proteomics: Steps and Protein Digestion Techniques

Provides an overview of the key steps in proteomics, focusing on protein digestion and the techniques used for analysis.

Protein Structure Exploration

Explores protein composition, synthesis, purification, and analysis techniques for understanding protein structure and function.

Proteomics Profiling Methods

Explores proteomics profiling methods, including ABPP, MS approaches, and quantitative target identification using SILAC and TMT labeling.

Protein Mass Spectrometry and Proteomics

Covers protein mass spectrometry, proteomics fundamentals, ionization sources, analyzers, detectors, mass accuracy, resolution, and various ionization methods.

Protein Composition and Structure

Explores protein composition, peptide bonds, secondary structures, and protein folding prediction.

Protein Quantification & Identification in Mass Spectrometry

Explores challenges in protein quantification using mass spectrometry and techniques like SILAC and TMT for comparing peptide levels between samples.

Scanning Electron Microscopy: Signals and Detectors

Covers the principles of Scanning Electron Microscopy, including SEM signals, detectors, and energy spectrum of electrons, as well as the efficiency of X-ray generation.

Protein Expression & Purification

Explores protein expression, purification, and gel filtration for isolating protein complexes.

Automation in Protein Identification: Techniques and Workflows

Covers the automation of protein identification using liquid chromatography and mass spectrometry techniques.