Lectures related to Biological system

Energy Minimization in Biological Systems: Equilibrium Models

Covers energy minimization models in biological systems, focusing on equilibrium and the roles of entropy and hydrophobicity.

Dynamics in Living Systems: Physics of Genetic and Cellular Systems

Explores the physics of genetic and cellular systems, focusing on fragility, negative feedback loops, and sensory motor networks in the C. elegans brain.

Quantitative Proteomics: Techniques and Applications

Covers the principles and methodologies of quantitative proteomics, focusing on measurement techniques and their applications in biological research.

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.

Synthetic Biology: Engineering Biological Systems

Covers synthetic biology as an emerging engineering discipline dedicated to biologically engineered solutions for global challenges.

Synthetic Biology: Engineering Living Systems

Explores synthetic biology, emphasizing protein engineering, gene circuits, and cellular design for diverse applications.

Protein Production: Engineering Bacteria for Protein Synthesis

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

Introduction to Synthetic Biology: Concepts and Applications

Provides an overview of synthetic biology, its principles, and applications in addressing global challenges.

Engineering Artificial Cells and Organs: A Biological Perspective

Covers the engineering of artificial cells and organs, emphasizing material applications in biological systems.

Biology for Engineers: Introduction to Cellular Components

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

Taxes Behaviors: Simple Signals, Complex Behaviors

Explores how organisms respond to environmental signals, showcasing how simple algorithms can lead to complex behaviors.

Build to Understand: the Secret Lives of BioCircuits

Delves into synthetic biology, de novo protein design, and feedback control in biological circuits, emphasizing the importance of understanding system behavior.

Random Walks and Moran Process

Explores random walks in biological systems, protein abundances, and the Moran process in population genetics.

Fluid Mechanics: Fundamentals and Applications

Introduces the fundamentals of fluid mechanics and its practical applications in engineering and physical phenomena.

Anatomy of Human Systems

Explores the anatomy of human systems and the structure of the colon.

Computational Cell Biology: Simulations Insights

Explores computer simulations in cell biology, focusing on Molecular Dynamics and Monte Carlo, to gain insights into complex biological systems and their limitations.

Introduction to Feedback Control Systems: Concepts and Applications

Covers the principles of feedback control systems and their applications in various fields.

Structural Mechanics Fundamentals

Introduces structural mechanics for life sciences, emphasizing equilibrium, vectors, tensors, and problem-solving strategies.

Control Theory in Protein Aggregation: Insights and Applications

Explores the application of control theory to manage protein aggregation processes, focusing on amyloid fibers and their implications in various diseases.

Bacteria: Structure, Function, and Medical Applications

Covers the structure and function of bacteria, their roles in health, and medical applications like fecal transplants.