Lectures related to RNA-based probes: Spinach aptamers

RNA Switches: Design & Applications

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

Chemical Biology Tools: Transcriptome Interrogation

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

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.

RNA Metabolism: ALS Genetics

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

RNA-Protein Interactions: PAR-CLIP Technology

Explores PAR-CLIP technology for probing RNA-protein interactions and RNA sequences using chemical biology toolsets and 'Spinach' probes.

RNA-based Approaches to Disease Treatment

Explores RNA-based disease treatment, synthetic biology impact on therapeutics, and programmable RNA-targeting tools.

RNA Switches: Design and Applications

Explores RNA switches' design and applications in synthetic biology, focusing on nature-inspired regulatory RNA principles for creating new biomolecular components and networks.

Protein Synthesis: Recombinant Expression

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

Untitled

Tools for Translatome Analysis

Explores tools for studying the translatome, including mRNA translation and genetic code expansion.

Protein Production: Engineering Bacteria for Protein Synthesis

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

Synthetic Biology: Therapeutic Advancement

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

Information Processing: Replication, Transcription, Translation

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

RNA Functions: Transcription and Translation

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

Proteins: Central Dogma and Translation

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

RNA-based Probes: Engineering GFP-mimics

Explores RNA-based probes, focusing on engineering GFP-mimics for tracking RNA, discussing chromophore maturation, Spinach evolution, and binding considerations.

Polymer Biophysics: DNA Structure and Biomechanics

Explores DNA structure and biomechanics, covering the persistence length, double helix, and experimental techniques like Hi-C.

Nucleotides: Structure and Function

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

RNA Splicing and Processing: Mechanisms and Regulation

Explores RNA splicing mechanisms, alternative splicing, ribosome function, and translation process in eukaryotic cells.

DNA and RNA Structure

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