autumn 2016
KJE-8403 Crystallography I - 10 ECTS
Admission requirements
PhD students or holders of a Norwegian master´s degree of five years or 3+ 2 years (or equivalent) may be admitted. Valid documentation is a statement from your institution that you are a registered PhD student, or a Master´s Diploma with Diploma Supplement / English translation of the diploma. PhD students are exempt from semester fee.
Students should have basic knowledge in chemistry (atomic and molecular structure), biochemistry (protein structure), and mathematics (calculus). Basic knowledge in physics (electromagnetic radiation, wave mechanics) is recommended.
PhD students at UiT The Arctic University of Norway register for the course through StudentWeb .
External applicants apply for admission through SøknadsWeb. Application code 9303.
All external applicants have to attach a confirmation of their status as a PhD student from their home institution. Students who hold a Master of Science degree, but are not yet enrolled as a PhD-student have to attach a copy of their master's degree diploma. These students are also required to pay the semester fee.
More information regarding PhD courses at the Faculty of Science and Technology is found here
Course overlap
If you pass the examination in this course, you will get an reduction in credits (as stated below), if you previously have passed the following courses:
KJE-3403 X-ray Crystallography 1 10 stpK-340 X-ray crystallography 10 stp
KJE-8703 BIOSTRUCT - Crystallization of biological macromolecules 3 stp
Course content
Starting in 1901, and including 2003, 2006, 2009, 2011, and 2012, more than 15 scientific Nobel Prizes have substantially advanced or involved X-ray crystallography and its ability to determination the three dimensional structures of molecules of any size at atomic resolution. This reflects the central role crystallography continues to play in revealing the structural origins of molecular properties, enabling practical applications ranging broadly, from semiconductor design to drug discovery.
This course gives students both a theoretical foundation of, and practical experience with, modern crystallography. The content involves both theory and experiment, spanning technologies from the generation of X-rays and crystallization of compounds and macromolecules to the determination and evaluation of their molecular structures. Lectures are accompanied by a one week intensive course in crystallization and a research project designed to complement the student's research interests.
The course will be presented in 3 sections: (i) Practical and theoretical introduction to methods for the crystallisation of small molecules and biological macromolecules. (3 credits). (ii) Basic crystallography, diffraction and the measurement and processing of diffraction data. (4 credits). (iii) Structure determination. (3 credits).
The first section of the course can be offered as a separate unit of 3 credits.
Objectives of the course
The candidate will acquire a solid and broad theoretical and practical basis to understand and perform modern crystallographic structure determination. This will be accompanied by focussed topical studies a from practical lab project in crystallization and an additional project, either experimental or computational, chosen to match specific research interests and goals of the student.
Knowledge
The successful student will:
Fundamentals of crystallography
- Understand the phase problem of crystallography
- Develop an intuitive understanding of the Fourier transform as applied in crystallography
- Understand the basis of X-ray diffraction based on Bragg's law
- Learn the symmetries and point groups of periodic crystals
- Learn the mathematical relationships between the spatial distribution of electron density, crystal lattices, Miller planes, and experimentally observed diffraction patterns.
- Learn to evaluate the accuracy of X-ray crystal structure models
Practical structure determination
- See the structure determination process from start to finish
- Understand the information required for successful structure solution
- Acquire experience with relevant software and webservers.
Crystallization
- Acquire knowledge and experience regarding crystallization methods and necessary prerequisites
Skills
- Be able to plan and conduct crystallization experiments
- Be ready for training to carry out X-ray data collection experiments
- Be able to run a crystallographic structure solution software suite able to perform all necessary structure solution steps.
- Learn the use of key informational and service webservers in crystallography.
General competence
- Have an overview of the entire structure solution process
- Understand the accuracy, relevance, and potential usefulness of crystal structures
- Be able to present crystallographic research results
Error rendering component
- About the course
- Campus: Tromsø |
- ECTS: 10
- Course code: KJE-8403
- Responsible unit
- Institutt for kjemi
- Tidligere år og semester for dette emnet