Physics of the Cell

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Cursusdoel

Upon successful completion of this course, students will be able to:

1) make quantitative statements about cellular processes
2) understand how discrete-state descriptions are connected to statistical mechanics
3) describe how forces affect molecules and their functions
4) classify different biological dynamics
5) know how chemo-mechanical coupling is fundamental for molecular and cellular dynamics
6) understand the concept of biophysical experimental setups
7) build computational models and solve them analytically or numerically

Vakinhoudelijk

The structure and function of all living cells are governed by fundamental laws of physics and chemistry. In this course we will cover a number of key physical principles operating at the molecular and cellular scale and discuss how they contribute to the spatio-temporal organization of the cells and cellular structures. We will cover the following topics:
  • Physical models in cell biology
  • Entropy and the Boltzman distribution
  • Two-state systems and cooperative binding
  • Random walks and the structure of macromolecules
  • Mechanics of molecules and cellular structures
  • Different modes of biological dynamics
  • Polymerization dynamics
  • Dynamics of molecular motors

Relation to research and professional field: Concepts and models from physics can help to understand the behaviour of molecules within cells. While most of the building blocks of living cells are well-known thanks to biochemical techniques, understanding how these molecules can establish long-range order and function far away from equilibrium often requires physical models. This course will enrich the student’s understanding of cell biology by teaching how the dynamics of cellular systems at different time and length scales emerges from.

Set up of the course:
The content is taught in two lectures per week. Assignments and/or computer practicals are discussed in one tutorial per week.

Relation to other courses:
This course builds upon the first-year course Biological Physics and has similar aims. Where the first year focused on very general principles, this course covers a number of more detailed topics.
This course is part of the profile Biophysics & Modeling and prepares you for level 3 courses linked to this profile and research groups linked to the master programme’s MCLS and Experimental Physics.

Entry requirements:
Successful completion of MBLS-101, MBLS-104, MBLS-106, MBLS-201. Preferably MBLS-108 (Prep4Physics).

Teaching format course (estimation):
Lectures = 40%
Tutorials = 20%
Assignment = 20%
Self study = 20%

Grading (see course manual for details):
Exam 1 (40%)
Exam 2 (40%)
Individual assignment(s) (20%)

Werkvormen

Hoorcollege

Werkcollege

Toetsing

Eindresultaat

Verplicht | Weging 100% | ECTS 7,5

Ingangseisen en voorkennis

Ingangseisen

Er is geen informatie over verplichte ingangseisen bekend.

Voorkennis

Er is geen informatie over benodigde voorkennis bekend.

Voertalen

  • Engels

Cursusmomenten

Gerelateerde studies

Tentamens

Er is geen tentamenrooster beschikbaar voor deze cursus

Verplicht materiaal

Er is geen informatie over de verplichte literatuur bekend


Aanbevolen materiaal

Er is geen informatie over de aanbevolen literatuur bekend

Coördinator

dr. F.M. Berger f.m.berger@uu.nl

Docenten

dr. F.M. Berger f.m.berger@uu.nl
prof. dr. L.C. Kapitein l.kapitein@uu.nl
prof. dr. J. Lipfert j.lipfert@uu.nl
prof. dr. B.M. Mulder b.m.mulder@uu.nl

Inschrijving

Let op: deze cursus is niet toegankelijk voor studenten van andere faculteiten, bijvakkers mogen zich dus niet inschrijven.

Inschrijving
Van maandag 29 januari 2024 tot en met vrijdag 23 februari 2024

Na-inschrijving
Van dinsdag 2 april 2024 tot en met woensdag 3 april 2024

Inschrijving niet geopend
Permanente link naar de cursuspagina
Laat in de Cursus-Catalogus zien