Lectures related to Neuroepigenetics: Molecular Mechanisms and Cognitive Implications

Neuroepigenetics: Chromatin Regulation and Memory Formation

Delves into chromatin regulation's role in memory formation, genetic and epigenetic influences on learning, and the potential of HDAC inhibitors as cognitive enhancers.

Neuroepigenetics: Chromatin Structure & Inheritance

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

Neuroepigenetics: Chromatin Structure and Regulation

Explores neuroepigenetics, focusing on chromatin structure, regulation, and epigenetic inheritance in neurodevelopment.

Epigenomics: DNA Methylation and Histone Modifications

Delves into DNA methylation, histone modifications, epigenetic dysregulation in diseases, and techniques for studying chromatin interactions.

Epigenetic Biomarkers of Traumata

Explores epigenetic mechanisms in memory formation, trauma, and aging, focusing on biomarkers and HDAC inhibitors.

Epigenetics: Histone Modifications

Delves into histone modifications, chromatin structure, and DNA methylation's role in gene regulation and heritability.

Epigenetics: Understanding Inheritance and Gene Expression

On epigenetics explores how gene expression is influenced by DNA modifications and histone changes, affecting cell differentiation and disease development.

Epigenetics: Chromatin Structure and Nucleosome Dynamics

Explores epigenetics, chromatin structure, nucleosome dynamics, and post-translational modifications of histones.

Epigenetics: Hereditary Transmission

Explores epigenetics and hereditary transmission, focusing on DNA modifications passed to offspring and the impact of environmental factors on gene expression across generations.

Regulation Mechanisms Overview

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

Building blocks of a gene: Regulation of transcription

Explores the regulation of transcription and its impact on gene expression.

The Stressed Social Brain: From Animals to Humans

Explores the impact of stress on the social brain, focusing on physiological responses, glucocorticoid receptors, peripubertal stress effects, epigenetic modifications, and transgenerational transmission of violence.

DNA Methylation and Histone Modifications

Explores DNA methylation, CpG islands, histone modifications, EZH2 mutations, microRNAs in cancer, and genomic alterations in microRNAs.

Neurogenetics: Understanding the Building Blocks of Genes

Explores the dynamic interplay of genomics, transcriptomics, and epigenomics in neurodevelopment and brain function.

Genetic Expression and Chromosome Dosage

Explores genetic expression, chromosome characteristics, X chromosome inactivation, and DNA methylation impact.

Genetics: Chromosome Inheritance

Covers the basics of genetics, inheritance of alleles, genotype-phenotype relationship, and population genetics.

Prokaryotic Transcription: Operons and Sigma Factors

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

Gene Regulation: Transcription Mechanisms and Networks

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

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.