Concept

Cell biology

Related lectures (31)

Covers the fundamentals of biology and cells, exploring their engineering potential and the physics of biological action.

Biology for Engineers: Introduction to Cellular Components

Introduces fundamental biological concepts essential for materials engineering, focusing on cellular components and their applications in engineering.

Cell Composition: Metabolites and Macromolecules

Explores cell composition, including macromolecules, metabolites, ribosomes, and ion concentration, in prokaryotic cells like E. coli.

Model Systems in Centriole Biology

Explores core questions and model systems in centriole biology, addressing asymmetric cell division and relevant human health aspects.

Cellular Signalling: Introduction & Mechanisms

Covers cellular signalling, including long-distance communication, receptor mechanisms, and the impact of small numbers in biology.

Organelle Proteins Targeting: VIPs and Peroxisomes

Explores VIP protein targeting to organelles, focusing on peroxisomes and the mechanisms ensuring cellular functionality under high targeting loads.

Cell Biology: Forces and Compartments

Explores forces and compartments in computational cell biology, emphasizing the significance of indirect forces mediated by the environment and the role of compartments in cellular functions.

Malaria Parasite: Transport Mechanisms in Host Cell

Explores the transport mechanisms of the Malaria Parasite in the Red Blood Cell, focusing on protein export, nutrient import, and lipid transport.

Cellular Scale Modeling

Explores the challenges of applying Newton's laws at the cellular scale and the importance of relevant coordinates and scales in cell biology.

Brownian Motion: From Molecules to Cells

Explores the core concepts of Brownian motion, from molecules to cells, including its history, hypothesis versus description, Langevin's solution, and methods for measuring Brownian motion.

Symmetry and Conservation in the Cell

Delves into the principles of symmetry and conservation in cellular biology, emphasizing the importance of energy, entropy, and computational modeling.

Synthetic biology: molecular components and cellular engineering

Delves into synthetic biology, assembling molecular components for biological functions in living cells, including gene expression control and engineered receptor signaling.

DNA and Its Engineering: Fundamentals and Applications

Provides an overview of DNA structure, replication, transcription, and its engineering applications in molecular biology.

Cellular Biology: Mitosis and Meiosis Overview

Covers cellular biology, focusing on mitosis, meiosis, and the cell cycle processes.

Phase Transitions in Cell Biology and Disease

Delves into the role of phase transitions in cell biology, focusing on stress granules, RNA impact, and stress adaptation mechanisms.

A microbiology primer

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

Introduction to Biology: Fundamentals and Sources

Introduces fundamental aspects of living beings, biochemistry, and cell biology, emphasizing the importance of macromolecules, molecular evolution, and metabolism.

Membrane Dynamics: Pores and Aggregates

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

Small Resonators: Enabling 5G and Single Cell Studies

Explores small resonators' role in advancing 5G technology and single cell studies, covering materials, fabrication, and optimization strategies.

Virus Structure and Assembly

Explores virus structure, assembly, and potential therapeutic applications in combating antibiotic-resistant bacteria.