About schedules
• Please note that all schedules might be subject to changes. Therefore, it is always best to subscribe, or to bookmark them in your web browser. Do not download schedules as pdf or ics files.
• If your schedule seems to be incorrect or is missing altogether, please get in touch with a course administrator at your department.
About exam seat allocation
• You will find your assigned seat by clicking on the link under the column "Allocated seat (exam)". The link is also found in the calendar subscription. This applies to written exams co-ordinated by the University's Examination Services.
• If no link is shown in the schedule, the exam is been co-ordinated by your department. Contact a course administrator should you need further information.
• NOTE: Seats are allocated (and made visible through the link) only a few days (generally two days) prior to the exam.
Lecture 1. Neurons & glia cells
Lecture 2. Organization of the nervous system
Lecture 3. Electrical properties of membranes
Lecture 4. Action potential
Roll Call
Course presentation
Course presentation
Introduction for master students
Introduction to group exercises, labs, literature seminars
Introduction to group exercises, labs, literature seminars
Group 1, Lab 2: Brain anatomy
Group 2, Lab 2: Brain anatomy
Lecture 5. Ion channels I
Lecture 6. Ion channels II
Lecture 7. Ion channels III
Lecture 8. Release of neurotransmitters
Lecture 9. Ligand-regulated ion channels I
Group 1-2, Lab 5: Neurosim
Group 5, Lab 2: Brain anatomy
Group 3-4, Lab 5: Neurosim
Group 6, Lab 2: Brain anatomy
Group 5-6, Lab 5: Neurosim
Group 3, Lab 2: Brain anatomy
Group 4, Lab 2: Brain anatomy
Group 6, Lab 4: Receptor binding part 1
Group 1, Lab 4: Receptor binding part 1
Lecture 10. Ligand-regulated ion channels II
Lecture 11. Ligand-regulated ion channels III
Lecture 12. Receptor kinetics
Group 6, Lab 4: Receptor binding part 1
Group 1, Lab 4: Receptor binding part 1
Group 2, Lab 1: Ca2+ flux part 1
Group 2, Lab 1: Ca2+ flux part 2
Group 6, Lab 4: Receptor binding part 2
Group 3, Lab 1: Ca2+ flux part 1. In K434
Group 1, Lab 4: Receptor binding part 2
Group 3, Lab 1: Ca2+ flux part 2
Lecture 13. GPCRs and G-proteins
Lecture 14. Second messengers I
Lecture 15. Second messengers II
Lecture 16. Protein kinases and phosphatases
Group 4, Lab 4: Receptor binding part 1
Group 6, Lab 1: Ca2+ flux part 1
Group 6, Lab 1: Ca2+ flux part 2
Group 5, Lab 1: Ca2+ flux part 1
Group 4, Lab 4: Receptor binding part 2
Group 5, Lab 1: Ca2+ flux part 2
Group 2, Lab 4: Receptor binding part 1
Lecture 17. Monoamines I
Lecture 18. Monoamines II
Lecture 19. Neuropharmacology and pathology
Group 2, Lab 4: Receptor binding part 1
Group 1, Lab 1: Ca2+ flux part 1
Group 1, Lab 1: Ca2+ flux part 2
Group 2, Lab 4: Receptor binding part 2
Group 3, Group 6, Lab 3: IP3 inhibition
Group 3, Lab 4: Receptor binding part 1
Lecture 20.
Group 3, Lab 4: Receptor binding part 1
Group 4, Lab 1: Ca2+ flux part 1
Group 4, Lab 1: Ca2+ flux part 2
Group 3, Lab 4: Receptor binding part 2
Group 4-5, Lab 3: IP3 inhibition
Group 1-2, Literature seminars
Group 5-6, Literature seminars
Group 5, Lab 4: Receptor binding part 1
Lecture 22. Neurotransmission in the retina
Group 5, Lab 4: Receptor binding part 1
Group 3-4, Literature seminars
Group 1-2, Lab 3: IP3 inhibition
Group 5, Lab 4: Receptor binding part 2
Review of previous exams, Q&A
Self-assessment, reflection group discussion. Exam discussion – course evaluation
Course code | Course name |
KN7001 | Neurochemistry with Molecular Neurobiology |