MOOC
Neuroscience Reconstructed: Proteomics
Lectures in this MOOC (62)
Epigenetics: Understanding Inheritance and Gene ExpressionMOOC: Neuroscience Reconstructed: Cell Biology
On epigenetics explores how gene expression is influenced by DNA modifications and histone changes, affecting cell differentiation and disease development.
Genetic Variability and Disease ConsequencesMOOC: Neuroscience Reconstructed: Cell Biology
Explores the impact of mutations on disease development and the importance of genetic variability in medicine.
Genetic Variability & Diversity: Mutations and PolymorphismsMOOC: Neuroscience Reconstructed: Cell Biology
Explores mutations and polymorphisms, highlighting their impact on genetic diversity.
Developmental Timeline: Brain Neurogenesis and GrowthMOOC: Neuroscience Reconstructed: Cell Biology
Explores the brain's developmental timeline from neurulation to adult growth.
Rules of DevelopmentMOOC: Neuroscience Reconstructed: Cell Biology
Delves into cell-autonomous processes, extrinsic regulation, and cell interactions in development.
Gene Regulatory NetworksMOOC: Neuroscience Reconstructed: Cell Biology
Explores how gene regulatory networks encode changes in cell development and the importance of interactions between different regulatory networks.
Gene Regulatory Networks: Temporal Unfolding and Steady StatesMOOC: Neuroscience Reconstructed: Cell Biology
Explores gene regulatory networks, showcasing how they drive temporal changes in cell behavior towards stable states.
Rules of DevelopmentMOOC: Neuroscience Reconstructed: Cell Biology
Delves into the rules of development, emphasizing the role of signals and morphogens.
Neurodevelopment: Stages of DevelopmentMOOC: Neuroscience Reconstructed: Cell Biology
Explores the stages of neurodevelopment from induction to postnatal brain development, covering neural plate regionalization, neural tube closure, and fate commitment.
Gastrulation and PatterningMOOC: Neuroscience Reconstructed: Cell Biology
Covers the process of gastrulation and neural plate development for nervous system formation.