Crystallography courses on the web: Difference between revisions

From CCP4 wiki
Jump to navigation Jump to search
mNo edit summary
(→‎Movies: fix link)
 
(8 intermediate revisions by the same user not shown)
Line 2: Line 2:
# The book of Fourier (Kevin Cowtan): http://www.ysbl.york.ac.uk/~cowtan/fourier/fourier.html (Nice explanation of what is important in a Fourier calculation)
# The book of Fourier (Kevin Cowtan): http://www.ysbl.york.ac.uk/~cowtan/fourier/fourier.html (Nice explanation of what is important in a Fourier calculation)
# The physical meaning of the phase in crystallography (Stanley C. Nyburg): http://www.ccp14.ac.uk/maths/nyburg/ (A Classic in Crystallographic Teaching)
# The physical meaning of the phase in crystallography (Stanley C. Nyburg): http://www.ccp14.ac.uk/maths/nyburg/ (A Classic in Crystallographic Teaching)
# Crystallographic movies (James Holton): http://ucxray.berkeley.edu/~jamesh/movies (Very illustrative movies on the effects of resolution, R-factor data completeness etc. on the information content of the structure).
# Crystallography 101 (Bernhard Rupp): http://ruppweb.dyndns.org/Xray/101index.html (Very good and nice introduction, some interactive parts)
# Crystallography 101 (Bernhard Rupp): http://ruppweb.dyndns.org/Xray/101index.html (Very good and nice introduction, some interactive parts)
# Crystallographic Tutorials (Michael R. Sawaya): http://www.doe-mbi.ucla.edu/%7Esawaya/tutorials/tutorials.html (good for beginners, somewhat outdated when it comes to programs)
# Crystallographic Tutorials (Michael R. Sawaya): http://www.doe-mbi.ucla.edu/%7Esawaya/tutorials/tutorials.html (good for beginners, somewhat outdated when it comes to programs)
# Basic Maths for Protein Crystallographers (Eleanor Dodson): http://www.ysbl.york.ac.uk/~mgwt/CCP4/EJD/bmg/index.html (If you want to work in protein crystallography, here are the math essentials)
# Basic Maths for Protein Crystallographers (Eleanor Dodson): http://www.ysbl.york.ac.uk/~mgwt/CCP4/EJD/bmg/index.html (If you want to work in protein crystallography, here are the math essentials)
# The Molecular Level - Tools for Structural Biology Education and Training (Gale Rhodes): http://www.usm.maine.edu/~rhodes/ (from the author of "Crystallography Made Crystal Clear" - website includes a [http://www.usm.maine.edu/~rhodes/ModQual/index.html Glossary of Terms from Crystallography, NMR, and Homology Modeling])
# The Molecular Level - Tools for Structural Biology Education and Training (Gale Rhodes): http://spdbv.vital-it.ch/TheMolecularLevel/index.html (from the author of "Crystallography Made Crystal Clear" - website includes a [http://spdbv.vital-it.ch/TheMolecularLevel/ModQual/index.html Glossary of Terms from Crystallography, NMR, and Homology Modeling])
# [http://www-structmed.cimr.cam.ac.uk/course.html Macromolecular Crystallography course at Cambridge Institute of Medical Research] - 6 basic lectures (available as HTML) and 17 advanced topics (10 of which are available as HTML)
 
== Movies ==
# Crystallographic movies (James Holton): http://bl831.als.lbl.gov/~jamesh/movies/ (Very illustrative movies on the effects of resolution, R-factor data completeness etc. on the information content of the structure).
# http://www.ruppweb.org/level1/movies_list.htm
# 17 minutes about structural biology
#*http://video.google.com/videoplay?docid=7084929825683486794&ei=M3b5SvXqD6em2AK3jY33CQ&q=Plongee+coeur+vivant# (in French)
#* http://cj.sauter.free.fr/xtal/Film/Xtal-biostructure_en.avi (same in English)
# MIT OpenCourseWare
#* http://videolectures.net/mit3091f04_sadoway_lec14/ physics up to Boltzmann distribution
#* ...
#* http://videolectures.net/mit3091f04_sadoway_lec19/
# http://ocw.mit.edu/OcwWeb/Materials-Science-and-Engineering/3-60Fall-2005/CourseHome/ The instructor is Prof. Bernhardt Wuensch (materials science).
 
== other ==
 
# what do the features in electron density maps mean? see Dale Tronrud's explanations at [http://www.ccp4.ac.uk/courses/stwk10/talk_files/Dale_The_Wonderful_World_of_Maps.pdf]

Latest revision as of 12:53, 27 April 2017

  1. X-ray Crystallography in 5401 seconds (Manfred S. Weiss): http://www.embl-hamburg.de/~msweiss/teach (A very short and simple introduction)
  2. The book of Fourier (Kevin Cowtan): http://www.ysbl.york.ac.uk/~cowtan/fourier/fourier.html (Nice explanation of what is important in a Fourier calculation)
  3. The physical meaning of the phase in crystallography (Stanley C. Nyburg): http://www.ccp14.ac.uk/maths/nyburg/ (A Classic in Crystallographic Teaching)
  4. Crystallography 101 (Bernhard Rupp): http://ruppweb.dyndns.org/Xray/101index.html (Very good and nice introduction, some interactive parts)
  5. Crystallographic Tutorials (Michael R. Sawaya): http://www.doe-mbi.ucla.edu/%7Esawaya/tutorials/tutorials.html (good for beginners, somewhat outdated when it comes to programs)
  6. Basic Maths for Protein Crystallographers (Eleanor Dodson): http://www.ysbl.york.ac.uk/~mgwt/CCP4/EJD/bmg/index.html (If you want to work in protein crystallography, here are the math essentials)
  7. The Molecular Level - Tools for Structural Biology Education and Training (Gale Rhodes): http://spdbv.vital-it.ch/TheMolecularLevel/index.html (from the author of "Crystallography Made Crystal Clear" - website includes a Glossary of Terms from Crystallography, NMR, and Homology Modeling)
  8. Macromolecular Crystallography course at Cambridge Institute of Medical Research - 6 basic lectures (available as HTML) and 17 advanced topics (10 of which are available as HTML)

Movies[edit | edit source]

  1. Crystallographic movies (James Holton): http://bl831.als.lbl.gov/~jamesh/movies/ (Very illustrative movies on the effects of resolution, R-factor data completeness etc. on the information content of the structure).
  2. http://www.ruppweb.org/level1/movies_list.htm
  3. 17 minutes about structural biology
  4. MIT OpenCourseWare
  5. http://ocw.mit.edu/OcwWeb/Materials-Science-and-Engineering/3-60Fall-2005/CourseHome/ The instructor is Prof. Bernhardt Wuensch (materials science).

other[edit | edit source]

  1. what do the features in electron density maps mean? see Dale Tronrud's explanations at [1]