Concept

Base pair

Related lectures (18)

Explores DNA/RNA pairing, antibody/antigen affinity, Gibbs free energy, and enzymatic reactions.

Explores the structure and function of nucleic acids, focusing on DNA and RNA, including base pairing rules and the double helix structure.

ATP Synthase: Structure and Function

Explores the structure and function of ATP synthase in mitochondrial ATP production and delves into glucose metabolism and nucleotide structure.

The Molecules of Life: Nucleic Acids

Covers the structure and functions of nucleic acids, including genetic information storage and gene expression.

General Physics: Mechanics

Explores mechanics concepts, including moments of inertia for common solids and their practical applications.

Polymer Biophysics: Basic Rules and Modeling

Covers the basics of polymer biophysics, including DNA conformation modeling and the Boltzmann principle, emphasizing the exponential decay of correlations between segments.

Nucleotides: Structure and Function

Covers the structure of nucleotides, DNA, RNA, base pairing, and protein synthesis.

DNA and RNA Structure

Explores the structure of DNA and RNA, the genetic code, replication, and their differences.

DNA Mutations: Mechanisms and Consequences

Explores DNA mutation mechanisms, including replication errors and induced mutations by mutagens, emphasizing their role in genetic diversity.

DNA Replication: Mechanisms and Applications

Explores DNA replication, the genetic code, PCR applications, and forensic testing.

DNA and RNA Structure

Explores the composition and structure of DNA and RNA, including DNA replication and the genetic code.

DNA Structure and Replication

Explores DNA structure, replication, base pairing, and chromosome organization in detail.

Linear Applications and Matrices

Explores the relationship between linear applications and matrices, emphasizing the conversion process between them.

DNA Replication: Mechanisms and Enzymes

Explores DNA replication mechanisms, enzymes, and accuracy in genetic information transfer.

Genome Duplication: Mechanisms and Models

Explores genome duplication mechanisms, DNA replication models, and experimental evidence supporting Watson and Crick's semiconservative model.

Quantum Mechanics: Second Quantification

Delves into second quantification in quantum mechanics and its applications in particle physics.

Protein Polymers: Biophysics Insights

Delves into protein polymers, discussing co-evolution, diffusion, protein structures, and experimental methods.

Molecular Interactions: Atoms, Bonds, and DNA

Covers energy changes, hydrogen bonds, amino acids, DNA base pairing, and DNA replication.