Lectures related to Protein Circuit Design: Multi Cellular Control

Protein Circuit Design

Delves into Protein Circuit Design in Cell Engineering, covering the challenges, advantages, and limitations of using proteins in synthetic biology.

Engineering Intelligent Cells

Explores engineering intelligent cells through genetic and protein circuits for cell engineering, discussing sensing mechanisms and signal transmission.

Protein Circuit Design

Explores the design of protein circuits for manipulating cellular functions and highlights the importance of engineered cells in synthetic biology.

Synthetic Biology: Engineering Cells

Introduces synthetic biology as an emerging engineering discipline dedicated to building new biological systems for various applications.

Protein Circuit Design

Explores protein-based processors for logic operations and their applications in cell-based therapies.

Synthetic Biology: Engineering Living Systems

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

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.

Self-organized growth at surfaces

Explores self-organized growth at surfaces and covers instrumentation, destructive exposure, manipulation with SIM, nanostructures, and thin film growth.

Computational Protein Design

Series explores computational protein design, covering challenges, applications, and importance in bioengineering and synthetic biology.

Computational Protein Design: Principles and Challenges

Covers the principles and challenges of computational protein design in bioengineering.

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.

Immune Cell Engineering: Targeting Checkpoint Inhibitors

Explores immune cell engineering for cancer therapy, emphasizing checkpoint inhibitor targeting through innovative delivery methods.

Molecular dynamics under constraints

Explores molecular dynamics simulations under holonomic constraints, focusing on numerical integration and algorithm formulation.

Engineering with Cellular Components: Proteins, Lipids, and DNA

Explores biology fundamentals, proteins, lipids, and DNA as synthetic materials, covering cell structure, membrane composition, protein production, DNA structure, and tissue engineering.

Introduction to Biology and Cells

Introduces biology and cells, covering proteins, lipids, DNA, organs, tissues, and more.

Protein Circuit Design: Signal Transmission and Dynamic Control

Explores protein-mediated signal transmission, dynamic control, logic operations, and cell-based therapeutics.

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.

Untitled