Lectures related to Frontiers in Chem Bio: Bioluminescent Sensor Proteins

Fluorescence: Principles and Applications

Explores fluorescence principles, fluorophores, biomolecular analysis, and genetic engineering applications.

Fluorescence in Microscopy: Important Concepts

Introduces fundamental concepts of fluorescence in microscopy, covering terms like excitation and emission spectra, Stokes shift, quantum efficiency, brightness, and photobleaching.

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.

Enzyme Inhibitors: Drug Design and Tools

Explores enzyme inhibitors as drugs, drug design, and protein function, including activity-based protein profiling and genome probing tools.

Fluorescence: Applications in Photomedicine

Explores the principles of fluorescence lifetime and quenching in photomedicine.

Fluorescence in Microscopy: Introduction & Labeling Techniques

Covers the introduction to fluorescence in microscopy, labeling techniques, specificity of markers, multi-color imaging, and factors affecting fluorescence properties.

Fluorescence: High Contrast Imaging Technique

Explores fluorescence microscopy, high contrast imaging, specificity, and quantum nature of light.

Fluorescence Spectroscopy: Principles and Applications

Explores fluorescence spectroscopy principles, applications in photomedicine, and biological fluorophores.

RNA-Protein Interactions: PAR-CLIP Technology

Explores PAR-CLIP technology for probing RNA-protein interactions and RNA sequences using chemical biology toolsets and 'Spinach' probes.

Applications of Optical Spectroscopy in Photomedicine

Explores optical spectroscopy in photomedicine, emphasizing fluorescence principles, biological fluorophores, and fluorescence lifetime measurements.

Protein Engineering: Techniques and Applications

Explores protein engineering techniques, including synthesis, mutations, and applications in biotechnology and vaccine development.

Bio-material Transfer Strategies

Delves into strategies for transferring bio-material onto electrodes, emphasizing hydrophobic interactions and the use of nanotechnology to enhance biosensor sensitivity.

Single Molecule FRET

Introduces Single Molecule FRET, explaining energy transfer between molecules and its applications in studying proteins and nucleic acids.

Immunoassays: Basics and Techniques

Covers the basics and techniques of immunoassays, including reaction kinetics, ELISA, chemiluminescence, and multiplex assays.

Flow Cytometry: An Invaluable Tool for Research and Clinical Applications

Introduces Flow Cytometry as a technology for rapid multi-parametric analysis of single cells in various disciplines.

Circular Permutation in Protein Engineering

Delves into circular permutation in protein engineering, focusing on optimizing proteins by introducing new termini without changing the structure.

Microscopy at Nanoscale: Techniques and Applications

Covers resolution enhancement in optical microscopy, confocal imaging, and fluorescent labelling, exploring the history and techniques of scanning probe microscopy.

Fluorescence: Proteins & Applications

Explores the discovery and applications of fluorescent proteins, with a focus on the revolutionary green fluorescent protein (GFP).

Fluorescence in Microscopy: Probes and Applications

Covers the introduction to fluorescence in microscopy, discussing various types of probes and their applications in biomicroscopy.

Protein Production: Engineering Bacteria for Protein Synthesis

Covers the engineering of bacteria for efficient protein production and purification techniques using affinity tags.