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BC: Electron cryo microscopy in structural biology

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Converted to amplitude contrast by defocusing specimen. Limited ... Objective: identify particles in micrograph and cut out patches containing one particle each ... – PowerPoint PPT presentation

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Title: BC: Electron cryo microscopy in structural biology


1
BC Electron cryo microscopy in structural biology
  • Ardan Patwardhan a.patwardhan_at_ic.ac.ukDept. of
    Biological SciencesImperial CollegeNovember,
    2003

2
Specimen contrast
3
Phase Contrast
  • Is not directly observable
  • Converted to amplitude contrast by defocusing
    specimen
  • Limited to study of thin specimens (lt1000Å)
  • Same technique used in light microscopy to study
    unstained specimens
  • Why not use stain?- May affect macromolecular
    structure

4
Cryo specimen preparation
  • Preserve native environment
  • High vacuum? need frozen specimens!
  • Snap freezing for amorphous ice phase, not
    crystalline ice phase

5
Cryo EM grid
Supporting carbon film
Metal grid
Ice holes
6
An ice hole
  • Particles are randomly positioned and orientated

7
EM images
  • 2D projections of 3D objects
  • Similar to x-ray images

8
EM images are very noisy!!
  • Beam damage limits exposure
  • At our disposal Thousands of randomly oriented
    macromolecular images with very poor signal to
    noise ratio
  • Image processing techniques used to combine
    thousands of 2D images into a 3D reconstruction
    of the particle

9
Particle Picking
  • Objective identify particles in micrograph and
    cut out patches containing one particle each
  • Can be done automatically, in some cases,
    especially if the molecule possesses icosahedral
    symmetry
  • Most cases still done manually- tedious,
    difficult and boring
  • Need to collect between 1000 and 10000 particles
    to get going (the more the better)

10
Translational Alignment
  • Requires reference image(s) to align to

11
Rotational Alignment
  • Requires reference image(s) to align to

12
Classification
  • Combine like views to improve signal to noise

13
Chicken and egg problem
  • The class sum images can be used as references
    for alignment
  • The quality of the classification depends on how
    well aligned the data is
  • In general, steps of alignment and classification
    have to be repeated several times

14
Angular reconstitution
  • Determine angles of projections relative to each
    other in 3D
  • Find common line projections to determine
    relative angles

15
Slice through 3D
16
Reprojection
  • 3D density map can be used to generate
    projections that can be used to realign the raw
    images
  • Process may have to be repeated several times

17
Pros and cons
  • Excellent tool for difference studies
  • Resolution not yet as good as for x-ray
    crystallography and NMR

18
Examples Ribosome
19
References
  • M. van Heel, B. Gowen, R. Matadeen, E. Orlova, R.
    Finn, T. Pape, D. Cohen, H. Stark, R. Schmidt, M.
    Schatz and A. PatwardhanSingle-particle
    electron cryo-microscopy towards atomic
    resolution.Quarterly Review of Biophysics 33(4),
    307 - 369(2000)

20
Credits
  • Biological Sciences
  • Prof. Marin Van Heel
  • Dr. Tillman Pape
  • Dr. Elena Orlova
  • Alexis Rohou
  • David Carpentier
  • Martin Bommer
  • Richard Hall
  • Dr. Pampa Ray
  • Division of Medicine
  • Dr. Edward P. Morris
  • Danielle Paul
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