Enzyme Inhibitors: Drug Design and Tools

In course

Description

This lecture covers enzyme inhibitors as drugs, drug design, mechanisms of action, tools modulating enzyme activity, and protein function. It also discusses activity-based protein profiling, genome/transcriptome probing tools, and the use of 7-AAD in DNA intercalation. The instructor presents an in-class quiz on concepts from the previous week, focusing on NIH-3T3 cells and various treatments. The lecture explores biological questions that are challenging to solve with conventional tools, such as monitoring DNA replication and mapping DNA-protein interactions. It delves into the use of RNA aptamers, fluorescent proteins like GFP, and Spinach RNA mimics. The lecture showcases innovative applications of RNA aptamers in visualizing RNA, sensing metabolites, and tracking proteins in live cells.

Instructor

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https://mediaspace.epfl.ch/media/0_hosmwr7t

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Related concepts (53)

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Protein–protein interactions (PPIs) are physical contacts of high specificity established between two or more protein molecules as a result of biochemical events steered by interactions that include electrostatic forces, hydrogen bonding and the hydrophobic effect. Many are physical contacts with molecular associations between chains that occur in a cell or in a living organism in a specific biomolecular context. Proteins rarely act alone as their functions tend to be regulated.

Green fluorescent protein

The green fluorescent protein (GFP) is a protein that exhibits bright green fluorescence when exposed to light in the blue to ultraviolet range. The label GFP traditionally refers to the protein first isolated from the jellyfish Aequorea victoria and is sometimes called avGFP. However, GFPs have been found in other organisms including corals, sea anemones, zoanithids, copepods and lancelets. The GFP from A. victoria has a major excitation peak at a wavelength of 395 nm and a minor one at 475 nm.

Protein function prediction

Protein function prediction methods are techniques that bioinformatics researchers use to assign biological or biochemical roles to proteins. These proteins are usually ones that are poorly studied or predicted based on genomic sequence data. These predictions are often driven by data-intensive computational procedures. Information may come from nucleic acid sequence homology, gene expression profiles, protein domain structures, text mining of publications, phylogenetic profiles, phenotypic profiles, and protein-protein interaction.

Enzyme inhibitor

An enzyme inhibitor is a molecule that binds to an enzyme and blocks its activity. Enzymes are proteins that speed up chemical reactions necessary for life, in which substrate molecules are converted into products. An enzyme facilitates a specific chemical reaction by binding the substrate to its active site, a specialized area on the enzyme that accelerates the most difficult step of the reaction.

Fluorescence microscope

A fluorescence microscope is an optical microscope that uses fluorescence instead of, or in addition to, scattering, reflection, and attenuation or absorption, to study the properties of organic or inorganic substances. "Fluorescence microscope" refers to any microscope that uses fluorescence to generate an image, whether it is a simple set up like an epifluorescence microscope or a more complicated design such as a confocal microscope, which uses optical sectioning to get better resolution of the fluorescence image.