Lecture

Metabolic Engineering: Tools and Concepts

Related lectures (32)

Metabolic Engineering: Systems Biology and Tools

Explores systems biology of metabolism, genome-scale models, and metabolic engineering applications.

Metabolic Engineering: Pathways and Fluxes

Explores the process of Metabolic Engineering, from genetic modifications to pathway analysis and genome-scale models.

Explores Systems Biology, metabolic pathways, genome-scale models, and bioinformatic tools for predictive biochemistry in bioproduction.

Metabolic Fluxes Analysis

Explores metabolic pathways, flux balance analysis, genome-scale models, and underdetermined systems in understanding complex microbiomes.

Systems Biology: Metabolism Modeling and Analysis

Covers systems biology fundamentals, metabolism modeling, and analysis techniques, emphasizing metabolic flux distributions and omics integration.

Genetic Circuits: Synthetic Biology

Covers genetic circuits in synthetic biology, including metabolic engineering, lac operon regulation, and synthetic circuit design.

Chemical Biology: Fundamentals and Applications

Explores Chemical Biology's interdisciplinary nature, enzyme inhibition, genetic methods, and metabolic regulation, highlighting its real-world relevance through recent Nobel Prize contributions.

Systems Biology: Warburg Effect

Explores the Warburg Effect in cancer cells, discussing metabolic shifts and kinetic model construction.

Metabolic Modeling Exercises

Covers exercises on genome-scale metabolic models, including FBA and TFA analysis, as well as modeling kinetics.

Cellular Communication and Metabolism: Energy Transformation Principles

Discusses cellular communication, metabolism, energy transformation, and the role of enzymes in biochemical reactions.

Synthetic Biology Standardization

Emphasizes standardization in synthetic biology, genetic circuits, logic building blocks, signal matching, data integration, and metabolic engineering.

Genetic Circuits: Synthetic Biology

Explores genetic circuits design in synthetic biology, from regulatory mechanisms to plasmid construction.

Metabolic Flux Balance Analysis

Covers modeling and analyzing complex biological networks, focusing on metabolism and signaling, using techniques like flux balance analysis and kinetic modeling.

Targeting Glycolysis and Cancer Signaling

Explores targeting glycolysis and cancer signaling switches, enzyme inhibition mechanisms, and the role of ATP as the body's energy currency.

Introduction to Metabolism

Introduces the fundamental concepts of metabolism, including metabolic pathways, bioenergetics, ATP role, and enzyme catalysis.

Enzymes: Basic Concepts and Kinetics

Delves into enzymes' basic concepts, kinetics, and catalytic strategies for reaction acceleration.

Metabolism Integration: Gluconeogenesis and Glycolysis

Discusses the integration of metabolic pathways, focusing on gluconeogenesis and glycolysis, and their hormonal regulation in maintaining glucose homeostasis.

DNA: PCR and Sequencing Techniques

Explores DNA engineering through PCR, Sanger sequencing, the Human Genome Project, recombinant DNA, bacterial DNA manipulation, and CRISPR/Cas9.

Metabolism: Energy and Redox Reactions

Explores metabolism, emphasizing energy production, redox reactions, ATP, and enzyme roles.

Microbial metabolism: Energy Generation and Biomass Production

Explores microbial metabolism, focusing on energy generation, biomass production, redox reactions, and electron carriers.