Lectures related to Biophysics I: Molecular Binding and Energy Extraction

Protein Folding: Structure and Design

Explores protein folding, hydrophobic interactions, compact conformations, the HP model, co-evolution, and computational methods.

Galilean Transformations: Spacetime and Measurements

Explores Galilean transformations in spacetime, focusing on measurements and coordinate transformations.

Energy: Cellular Respiration and Photosynthesis

Explores energy generation in cells through respiration and photosynthesis, emphasizing ATP synthesis and metabolic pathways.

Spherical Tensors and Wigner-Eckart Theorem

Covers the transformation of vectors and tensors in quantum physics.

Metabolic Pathways: Diversity and Fixation

Delves into metabolic pathways, energy-rich compounds, and fermentation processes, emphasizing the importance of biofuels as an alternative to fossil fuels.

Microbial metabolism: Energy Generation and Biomass Production

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

Citric Acid Cycle: Energy Generation and Electron Transfer

Explores the Citric Acid Cycle, energy production, electron transfer, and metabolic pathways.

Metabolic Signaling: Glycolysis and ATP Production

Explores glycolysis, ATP production, and metabolic signaling in cancer and drug discovery.

Cellular Energy: From Food to ATP

Explores cellular energy production, from food to ATP, covering photosynthesis, respiration, muscle fibers, enzymes, and metabolic pathways.

Special and General Relativity

Introduces special and general relativity, Einstein equations, and gravitational dynamics.

Metabolic Pathways: Energy Coupling Reactions

Explores energy coupling reactions in metabolic pathways, ATP synthesis from food breakdown, and the role of coenzymes and oxidative phosphorylation.

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).

Linear Applications: Matrices and Transformations

Covers linear applications, matrices, transformations, and the principle of superposition.

Cell Energy Production: Metabolic Signaling

Explores metabolic pathways for cell energy production, emphasizing glycolysis, TCA cycle, oxidative phosphorylation, and proton-motive force.

Elements of Lie Groups and Algebras

Explores the transformation of vectors and tensors in quantum physics, emphasizing Lie groups and algebras.

Metabolic Diversity: Fermentation and Energy Production

Explores metabolic diversity in microorganisms, emphasizing fermentation pathways and energy production.

Probability and Statistics

Covers inequalities, joint Gaussian distribution, risk estimation, and classification method testing in probability and statistics.

Vector Transformation and Tense

Explores the transformation of vectors and tensors, including rotations and representations in quantum physics.

Sulfur Cycle: Microbial Processes and Energy Conservation

Explores microbial processes in the sulfur cycle and energy conservation mechanisms.

Translations and Homotheties

Explores translations and homotheties, discussing their properties and practical applications in preserving geometric characteristics.