Lecture
Neurogenetics: Building blocks of a gene
Related lectures (61)
Neurogenetics: Understanding the Building Blocks of GenesMOOC: Neuroscience Reconstructed: Cell Biology
Explores the dynamic interplay of genomics, transcriptomics, and epigenomics in neurodevelopment and brain function.
Prader-Villy Syndrome: Genetic Mechanisms and Clinical Implications
Explores the genetic basis of Prader-Villy syndrome and its comparison with Angelman syndrome, emphasizing DNA methylation patterns and chromosomal abnormalities.
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.
Genetic Variability & Diversity: Mutations and PolymorphismsMOOC: Neuroscience Reconstructed: Cell Biology
Explores mutations and polymorphisms, highlighting their impact on genetic diversity.
Genetic Variability and Diversity: MutationsMOOC: Neuroscience Reconstructed: Cell Biology
Explores genetic variability, mutations, SNPs, and their impact on the genetic code.
Angelman Syndrome: Genetic Mechanisms
Explores DNA methylation analysis and gene mutations in Angelman Syndrome.
Neuroepigenetics: Chromatin Structure & Inheritance
Delves into neuroepigenetics, covering chromatin structure, histone modifications, DNA methylation, and their impact on gene transcription and inheritance.
Building blocks of a gene: Regulation of transcriptionMOOC: Neuroscience Reconstructed: Cell Biology
Explores the regulation of transcription and its impact on gene expression.
Neuroepigenetics: Chromatin Structure and Regulation
Explores neuroepigenetics, focusing on chromatin structure, regulation, and epigenetic inheritance in neurodevelopment.
Neuroepigenetics: Molecular Mechanisms and Cognitive Implications
Investigates how maternal behavior shapes stress response through epigenetics and discusses genetic vs. epigenetic influences on traits.