MOOC
Neuroscience Reconstructed: Genetics and Brain Development
Lectures in this MOOC (62)
Neuroscience: Understanding the BrainMOOC: Neuroscience Reconstructed: Cell Biology
Delves into the study of the brain and nervous system, exploring their influence on thoughts, emotions, and behavior.
Gene TranscriptionMOOC: Neuroscience Reconstructed: Cell Biology
Covers the process of gene transcription, RNA processing, nuclear export, and translation.
Gene Regulation: Transcription Mechanisms and Chromatin AccessibilityMOOC: Neuroscience Reconstructed: Cell Biology
Explores gene regulation through transcription mechanisms and chromatin accessibility, emphasizing the importance of transcription factors and gene regulatory networks.
From RNA to proteinMOOC: Neuroscience Reconstructed: Cell Biology
Explores alternative splicing, the genetic code, translation, and the journey from genetics to proteins.
Gene Transcription: Central Dogma and Transcription ProcessMOOC: Neuroscience Reconstructed: Cell Biology
Covers the process of gene transcription, RNA processing, and translation from DNA to mRNA.
Gene Regulation: Transcription Mechanisms and NetworksMOOC: Neuroscience Reconstructed: Cell Biology
Explores gene regulation mechanisms, including chromatin accessibility, DNA looping, and transcription factors' role in controlling cellular functions.
Alternative Splicing: From RNA to ProteinMOOC: Neuroscience Reconstructed: Cell Biology
Explores alternative splicing in gene expression to create diverse proteins.
Gene interactions and networksMOOC: Neuroscience Reconstructed: Cell Biology
Explores gene interactions, regulatory networks, genetic variability, and computational models for genetic dynamics.
Genetic Variability and Diversity: MutationsMOOC: Neuroscience Reconstructed: Cell Biology
Explores genetic variability, mutations, SNPs, and their impact on the genetic code.
Genetic Variability and Diversity: Diseases and MedicineMOOC: Neuroscience Reconstructed: Cell Biology
Explores the impact of mutations on diseases, genetic variability in medicine, and the consequences at gene expression and epigenetic levels.