Lectures related to Alternative Splicing: From RNA to Protein

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

Covers gene expression, protein life cycle, and genetic code in neuroscience.

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

From RNA to protein

Explores alternative splicing, the genetic code, translation, and the journey from genetics to proteins.

DNA Structure and Transcription

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

Protein Synthesis: Recombinant Expression

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

Eukaryotic Transcription: Initiation and Elongation

Explores eukaryotic transcription initiation, elongation, and gene regulation complexity.

Bulk Transcriptome Analysis: RNA-seq Workflow and Gene Expression Analysis

Explains transcriptomics, RNA-seq workflow, and gene expression analysis for disease biomarkers.

Genetic Circuits: Synthetic Biology

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

Regulation of Transcription and Translation

Explores the regulation of transcription and translation processes, focusing on control mechanisms and alternative splicing in eukaryotes.

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.

Tools for Translatome Analysis

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

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.

Genomic Data Analysis: Molecular Biology Fundamentals

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

Gene Expression: Introduction and Data Analysis

Covers gene expression data quantification, genome analysis, and large-scale studies.

DNA: PCR and Sequencing Techniques

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

Compartmental modeling: Fundamentals and Applications

Explores compartmental modeling in biomedical imaging, emphasizing the importance of understanding linear systems and intracellular glucose metabolism measurement.

Prokaryotic Transcription: Operons and Sigma Factors

Explores prokaryotic transcription, operons, sigma factors, gene regulation, and DNA loops in bacteria.

Molecules of Life: Understanding Translation and Protein Synthesis

Provides an overview of translation and protein synthesis, covering the genetic code, tRNA, and the steps involved in protein formation.