Lectures related to Cell Membranes: Structure and Functions

A microbiology primer

Covers microbiology basics, including cell structure, morphology, and energy generation in microbial cells.

Cell Surface and Envelope: Microscopy and Cell Wall Structure

Explores microscopy, cell surface structures, and bacterial cell walls.

Vesicular Transport Mechanism

Explores the Nobel Prize-winning research on cell transport mechanisms and vesicle formation.

Lipids and Cell Membranes / Carbohydrates

Explores enzymes, evolution, lipids, membranes, carbohydrates, membrane proteins, and enzyme inhibition mechanisms.

Membrane Deformation: Modes and Mechanisms

Explores membrane deformation modes, shape changes, and transport mechanisms in cells.

Biological Membranes: Structure and Function

Explores the structure, dynamics, and functions of biological membranes.

Intracellular Transport Pathways

Covers the early classification of organelles in two major intracellular transport pathways and the transfer of lipids between cellular compartments.

Chaperone-Client Interactions: Molecular Mechanisms and Functional Implications

By Sebastian Hiller explores the dynamic interactions between molecular chaperones and client proteins at an atomic resolution.

Biological Membranes: Structure and Function

Delves into the complexity of biological membranes, emphasizing their dynamic nature, diverse functions, and significance for brain function and connectivity.

Cell Membrane Structure and Function

Explores the composition and function of the cell membrane, including membrane fluidity and experimental techniques.

Membrane Dynamics: Pores and Aggregates

Discusses self-assembly dynamics in oil and lipid systems, focusing on aggregate growth and pore formation in lipid bilayers.

Membrane Structure: Gorter & Grendel Experiment

Delves into the Gorter & Grendel experiment on plasma membrane structure using red blood cells.

Cellular Transport: Directed Motion

Explores different types of directed motion in cellular systems, emphasizing the role of motor proteins in transporting biomolecules.

Protein Hydropathy Analysis

Explores protein hydropathy analysis using ProtScale tool for human beta globin and aquaporin 1.

Lipids and Cell Membranes: Structure and Functions

Explores the structure and functions of lipids and cell membranes, including fatty acids, phosphoglycerides, and glycoproteins.

Understanding Neuron Electrical Properties: Ion Transport Mechanisms

Covers the electrical properties of neurons, focusing on ion transport mechanisms and their role in generating electrical signals.

Cell Membrane Fusion: Frye & Edidin Experiment

Explores the Frye & Edidin experiment on cell membrane fusion, fluid mosaic model, membrane fluidity, cholesterol influence, and selective permeability.

Membrane Fluidity and Protein Functions

Covers membrane fluidity, lipid composition impact, protein functions, and molecule mobility study.

Energy Transformations: ATP and Cellular Work

Explores major themes in biology, focusing on energy transformations within cellular systems and the crucial role of adenosine triphosphate (ATP).

Ion Channels: Structure and Function

Explores the structure and function of ion channels, their classification, membrane permeability, and role in single-cell activities.