Lectures related to Post-translational modification

Analyzing Post-Translational Modifications: Techniques and Challenges

Covers the analysis of post-translational modifications using mass spectrometry, focusing on techniques, challenges, and the significance of phosphoproteomics.

Biosynthesis Pathway

Explores the biosynthesis and endocytosis pathways of vesicular transport in the cell's Golgi apparatus.

AMPylation: The Story of HYPE

Explores AMPylation's role in cellular communication and neurodegeneration, with potential implications for Parkinson's Disease.

Complex Organic Molecules: Proteins

Explores the structure and function of proteins, essential for life.

Post-translational regulation of ER proteostasis

Explores the post-translational regulation of ER proteostasis, focusing on BiP chaperone activity, ER stress response, and FICD-mediated AMPylation.

Translation: Genetic Code Overview

Explores translation, mutations, ribosome function, protein folding, and degradation processes, emphasizing the genetic code's role in protein synthesis.

Post-translational Modifications of Proteins

Provides an overview of protein post-translational modifications, including phosphorylation, ubiquitination, and acylation.

Proteomics in Neuroscience: Techniques and Applications

Covers proteomics techniques and their applications in neuroscience, focusing on mass spectrometry and the challenges of studying proteins in cellular functions.

Protein Phosphorylation: Mechanisms & Regulation

Explores protein phosphorylation, detailing common modifications like acetylation and ubiquitination, kinase specificity, and activation mechanisms.

Molecules of Life: Understanding Translation and Protein Synthesis

Provides an overview of translation and protein synthesis, covering the genetic code, tRNA, and the steps involved in protein formation.

Proteostasis Regulation: Chaperone Interactions and Post-Translational Modifications

Explores proteostasis regulation through chaperone interactions and post-translational modifications, revealing insights into protein quality control mechanisms.

Protein Phosphorylation: Mechanisms and Regulation

Explores protein phosphorylation, its structural effects, kinase activity, and its role in signaling and disease.

Post-Translational Modifications and Folding in the ER

Explores post-translational modifications and folding processes in the endoplasmic reticulum, using examples like the influenza virus and protein misfolding diseases.

Peptide Therapeutics

Explores the development and advantages of peptide therapeutics, including conversion into peptidomimetics and solid phase peptide synthesis.

Protein Structure & Modifications

Explores protein structure analysis, folding, modifications, and their impact on diseases and protein activity regulation.

Protein Lipidation: Membrane Organization

Explores protein lipidation, membrane localisation, lipid modification impact on signalling, and dynamic lipidation processes.

Insulin Receptor Activation: Signaling Mechanisms

Explains insulin receptor activation and cytokine receptor signaling mechanisms in detail.

Protein Maturation: Post-Translational Modifications

Covers the maturation of proteins and the role of post-translational modifications in their functionality and regulation.

Proteomics: Post-Translational Modifications and Interactions

Explores proteomics for post-translational modifications and protein interactions.

Molecular machines involved in mycobacterial protein quality control pathways

Explores molecular machines in mycobacterial protein quality control pathways, focusing on degradation, proteases, and pupylation-dependent degradation.