TEACHING

TEACHING

Autumn 2020
Molecular and Statistical Mechanics (course coordinator, together with Hugo Gutiérrez de Teran)

The course gives an introduction to statistical mechanical theory, and connects it with the foundation of computer simulations of biomolecular dynamics and energetics, methods which are then covered extensively from a theoretical and practical perspective.
Protein Engineering (contributed lectures)


During the course, the students work on a current molecular biological and gene technological problem. The aim is to provide advanced knowledge and skills that enable the students to find solutions on their own, and put these solutions into practice.
Experimental Methods in Structural Biology (with Stefan Knight, electron microscopy module)

The course gives an introduction to methods for structure determination of biological macromolecules with special focus on diffraction based methods. The course covers X-Ray Crystallography, Cryo-EM, SAXS, NMR and more.

Applied Molecular Biophysics (course coordinator)


The aim of the course is to apply previously acquired knowledge in a biotechnology project to determine the dynamics, interactions and/or structures of biomolecules, and present results in written and oral form.

Spring 2020
Molecular Cell Biology (contributed lectures and seminars)

The aim of the course is to provide the students with advanced knowledge and understanding of molecular processes in cells and organisms, including the cell cycle, transcription, translation and protein targeting, adhesion and signal transduction.

Autumn 2019
Molecular and Statistical Mechanics (course coordinator, together with Hugo Gutiérrez de Teran)

The course gives an introduction to statistical mechanical theory, and connects it with the foundation of computer simulations of biomolecular dynamics and energetics, methods which are then covered extensively from a theoretical and practical perspective.
Protein Engineering (contributed lectures)


During the course, the students work on a current molecular biological and gene technological problem. The aim is to provide advanced knowledge and skills that enable the students to find solutions on their own, and put these solutions into practice.
Experimental Methods in Structural Biology (with Stefan Knight, electron microscopy module)

The course gives an introduction to methods for structure determination of biological macromolecules with special focus on diffraction based methods. The course covers X-Ray Crystallography, Cryo-EM, SAXS, NMR and more.

Applied Molecular Biophysics (course coordinator)


The aim of the course is to apply previously acquired knowledge in a biotechnology project to determine the dynamics, interactions and/or structures of biomolecules, and present results in written and oral form.

Spring 2019
Molecular Cell Biology (contributed lectures and seminars)

The aim of the course is to provide the students with advanced knowledge and understanding of molecular processes in cells and organisms, including the cell cycle, transcription, translation and protein targeting, adhesion and signal transduction.

Autumn 2018
Molecular and Statistical Mechanics (course coordinator, together with Hugo Gutiérrez de Teran)

The course gives an introduction to statistical mechanical theory, and connects it with the foundation of computer simulations of biomolecular dynamics and energetics, methods which are then covered extensively from a theoretical and practical perspective.
Protein Engineering (contributed lectures)


During the course, the students work on a current molecular biological and gene technological problem. The aim is to provide advanced knowledge and skills that enable the students to find solutions on their own, and put these solutions into practice.
Experimental Methods in Structural Biology (with Stefan Knight, electron microscopy module)

The course gives an introduction to methods for structure determination of biological macromolecules with special focus on diffraction based methods. The course covers X-Ray Crystallography, Cryo-EM, SAXS, NMR and more.

Applied Molecular Biophysics (course coordinator)


The aim of the course is to apply previously acquired knowledge in a biotechnology project to determine the dynamics, interactions and/or structures of biomolecules, and present results in written and oral form.

Spring 2018
Molecular Cell Biology (contributed lectures and seminars)

The aim of the course is to provide the students with advanced knowledge and understanding of molecular processes in cells and organisms, including the cell cycle, transcription, translation and protein targeting, adhesion and signal transduction.

Autumn 2017
Molecular and Statistical Mechanics (course coordinator, together with Hugo Gutiérrez de Teran)

The course gives an introduction to statistical mechanical theory, and connects it with the foundation of computer simulations of biomolecular dynamics and energetics, methods which are then covered extensively from a theoretical and practical perspective.
Protein Engineering (contributed lectures)


During the course, the students work on a current molecular biological and gene technological problem. The aim is to provide advanced knowledge and skills that enable the students to find solutions on their own, and put these solutions into practice.
Experimental Methods in Structural Biology (with Stefan Knight, electron microscopy module)

The course gives an introduction to methods for structure determination of biological macromolecules with special focus on diffraction based methods. The course covers X-Ray Crystallography, Cryo-EM, SAXS, NMR and more.

Spring 2017
Molecular Cell Biology (contributed lectures and seminars)

The aim of the course is to provide the students with advanced knowledge and understanding of molecular processes in cells and organisms, including the cell cycle, transcription, translation and protein targeting, adhesion and signal transduction.

Autumn 2016
Molecular and Statistical Mechanics (course coordinator, together with Hugo Gutiérrez de Teran)

The course gives an introduction to statistical mechanical theory, and connects it with the foundation of computer simulations of biomolecular dynamics and energetics, methods which are then covered extensively from a theoretical and practical perspective.
Protein Engineering (contributed lectures)


During the course, the students work on a current molecular biological and gene technological problem. The aim is to provide advanced knowledge and skills that enable the students to find solutions on their own, and put these solutions into practice.
Spring 2016
Molecular Cell Biology (contributed lectures and seminars)

The aim of the course is to provide the students with advanced knowledge and understanding of molecular processes in cells and organisms, including the cell cycle, transcription, translation and protein targeting, adhesion and signal transduction.

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