Lectures related to Regulation of Gene Expression and Organoid Formation

Prokaryotic Transcription: Operons and Sigma Factors

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

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

Gene Regulation: Transcription Mechanisms and Networks

Explores gene regulation mechanisms, including chromatin accessibility, DNA looping, and transcription factors' role in controlling cellular functions.

Eukaryotic Transcription: Initiation and Elongation

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

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.

Synthetic Biology: Therapeutic Advancement

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

RNA Functions: Transcription and Translation

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

Regulation of Transcription and Translation

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

Gene Regulation: Transcription Mechanisms and Chromatin Accessibility

Explores gene regulation through transcription mechanisms and chromatin accessibility, emphasizing the importance of transcription factors and gene regulatory networks.

Heat Shock Transcription Factors: Regulation and Targets

Explores Heat Shock Transcription Factors' regulation and targets in response to stress, including HSF2's dynamic expression and impact on cell adhesion.

MRNA: Transcriptional Regulation and Stability

Covers transcriptional regulation and mRNA stability, including chromatin accessibility and post-transcriptional processes.

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.

Genetic Circuit: Synthetic Biology

Explores genetic circuits in synthetic biology, focusing on the lac operon mechanism and the design of synthetic circuits using standardized biological parts.

Myc-Max: Protein Interactions and Cell Proliferation

Explores the interactions between Myc, Max, and Miz proteins in cell proliferation.

Nuclear Receptors: Signalling and Health Implications

Explores nuclear receptors, JAK-STAT pathway, growth factors, endocrine disruptors, and estrogen receptors.

Regulation Mechanisms Overview

Covers phosphorylation, ubiquitinylation, methylation, and more in biological regulation.

DNA Structure and Transcription

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

DNA Structure and Gene Expression

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

Synthetic Biology: Therapeutic Advancement

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

Neuroepigenetics: Chromatin Structure & Inheritance

Delves into neuroepigenetics, covering chromatin structure, histone modifications, DNA methylation, and their impact on gene transcription and inheritance.