Lectures related to RNA Sensors: GFP-Mimics and Spinach Technology

Protein Synthesis: Recombinant Expression

Explores protein synthesis, genetic code, transcription, translation, and recombinant protein expression using vectors and plasmids.

RNA Switches: Design & Applications

Explores the design and applications of RNA switches, focusing on regulatory RNA principles and engineered biomolecular components.

Proteins: Central Dogma and Translation

Explains protein synthesis, translation, and the central dogma of molecular biology.

RNA-based probes: Spinach aptamers

Explores RNA-based probes, focusing on Spinach aptamers as GFP-mimics of RNAs and their applications in model systems.

Information Processing: Replication, Transcription, Translation

Explores DNA replication, RNA transcription, and protein translation, emphasizing their crucial roles in cellular functions.

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RNA Switches: Design and Applications

Explores RNA switches design and applications, focusing on exploiting nature's design principles to build new biomolecular components and networks.

Chemical Biology Tools: Transcriptome Interrogation

Covers chemical biology tools for RNA study and explores the applications of GFP in biosciences.

Protein Production: Engineering Bacteria for Protein Synthesis

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

RNA Functions: Transcription and Translation

Explores RNA functions in transcription, translation, and gene regulation, including defense mechanisms and viral infections.

Proteins and DNA/RNA: Molecular Building Blocks

Explores the composition and functions of essential molecular building blocks in biological systems.

Genomic Data Analysis: Molecular Biology Fundamentals

Covers molecular biology fundamentals for genomic data analysis, including DNA structure, genes, proteins, RNA, and PCR.

Synthetic Biology: Therapeutic Advancement

Introduces synthetic biology for disease treatment, covering RNA therapeutics, drug discovery, and gene circuits.

DNA Structure and Gene Expression

Explores DNA structure, gene expression, RNA transcription, and protein manufacturing in cells, including the crucial role of RNA polymerase.

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.

DNA Structure and Transcription

Explores DNA structure, replication, transcription, mRNA translation, and gene expression regulation.

Synthetic Biology: Therapeutic Advancement

Delves into cutting-edge tools for disease treatment through synthetic biology.

Protein Synthesis: Recombinant Expression

Delves into protein synthesis, emphasizing recombinant expression and the production of proteins using plasmids and bacteria.

RNA Metabolism: ALS Genetics

Delves into RNA metabolism in ALS genetics, focusing on key proteins, mutations, and implications in neurodegeneration.

DNA and RNA Structure

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