Modern neuroscience is multidisciplinary and collaborative. We need to integrate knowledge of experimental and theoretical approaches to neuroscience, and look at the brain and brain function from different perspectives: for example, genes can partially explain differences in reading ability, but there is no single gene that makes someone a good or a poor reader. And genes can be turned on and off by external factors such as someone’s diet or a virus infection. So to understand something as complex as reading ability, we need to stitch together knowledge about the role of genes, proteins, cells, and large networks of cells.
In this course on Genetics and Brain Development, we will focus on the principles of neurogenetics and brain development and we will introduce you to the fields of genomics, transcriptomics, epigenomics and their applications.
You will learn from top scientists, specialised in each field, and have access to research databases and learning resources such as brain atlases and brain modeling tools. We aim to show you how these new tools can help integrate the vast amounts of neuroscience data available to innovate medical technologies and therapies. And we will teach you how to use these tools for your own research and understanding.
week 1: Basics of gene expression
week 2: Genetic variation, gene networks and epigenetic
week 3: Genome, epigenome and transcriptome
week 4: Overview of embryonic development
week 5: The birth of the nervous system
week 6: Methods and tools in genetics
week 7: Gene therapy in the nervous system
week 8: Introduction to big data
week 9: Introduction to modelling in neuroscience
- Lectures 0
- Quizzes 0
- Duration 9 weeks
- Skill level All levels
- Language English
- Students 0
- Assessments Yes