cryogenic tem and biological structure determination. · ∗structure determination will soon look...
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Understanding the biological machinery by cryogenic TEM imaging and
structure determination.
Presented by NCI Southwestand
NACK Network
Click here to view the recording.
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This Webinar Is Hosted By
ATE Central acts as an information Hub for the National Science Foundation ATE Grantee Community
atecentral.net/webinars
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Today’s Moderator and Host
Trevor ThorntonNNCI Director: Professor of Electrical EngineeringArizona State University
Michael LesieckiCo-Principal investigatorNACK Support Center
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Today’s Presenters
Dewight WilliamsAssociate Research ScientistJohn M. Cowley Center for High Resolution Electron Microscopy
Katia MarchAssociate Research ScientistJohn M. Cowley Center for High Resolution Electron Microscopy
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2017 Nobel Prize in Chemistry
Jacques Dubochet
Joachim Frank
Richard Henderson
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Biological molecules:
Nucleic acid
DNA
Chromatin
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Biological molecules:
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Biological molecules:
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∗ Traditionally protein structures were determined by ∗ X-ray crystallography:
∗ Captures only a single state because dependent on crystallization∗ NMR spectroscopy:
∗ Captures dynamic states but limited size <60kDa
∗ A large number of private/public structure determination consortiums have solved ~150,000 protein structures add ~15,000 per year∗ Soon all protein fold patterns will be determined.
∗ Structure determination will soon look toward higher order assembly, dynamic and or conformational variation, as well as in situ assembly states.
Biomolecular Fold Space:
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Cells Organelles
PodocytesTricomes
Orangisms
ProteinsViruses
Tissues
EM imaging can investigate this higher order assembly
With image averaging methods, atomic resolution of complexes is possible
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∗ Biological chemistry occurs in water∗ Biological molecules require water to properly organize∗ Imaging in high vacuum is incompatible with hydration
∗ Best solution is freezing biology in vitreous (or water) ice. Jacques Dubochet
Why CryoEM?
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∗ As near native conditions as possible∗ Water is frozen vitreously
∗ Plunge freezing in liquid nitrogen cooled ethane∗ up to 5 micrometer
∗ High pressure freezer∗ up to 500 micrometers
Cryogenic preservation
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Plunge Freezing in detail
Glow discharge grids to make carbon hydrophilic
Apply protein solution to holey carbon grid (5 µL of 20-100 nM)
Blot away excess liquid
Rapidly plunge into liquid nitrogen cooled cryogen (liquid ethane)
Sample preserved in ultra thin vitreous ice
Holey carbon film
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Plunge Freezing in detail
Glow discharge grids to make carbon hydrophilic
Apply protein solution to holey carbon grid (5 µL of 20-100 nM)
Blot away excess liquid
Rapidly plunge into liquid nitrogen cooled cryogen (liquid ethane)
Sample preserved in ultra thin vitreous ice
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Plunge Freezing in detail
Glow discharge grids to make carbon hydrophilic
Apply protein solution to holey carbon grid (5 µL of 20-100 nM)
Blot away excess liquid
Rapidly plunge into liquid nitrogen cooled cryogen (liquid ethane)
Sample preserved in ultra thin vitreous ice
carbon carbon carbon
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TEM images are projection images
New Yorker Magazine comics
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2D projections to 3D structures
From Frank, 3D EM of macromolecular Assemblies
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Single particle reconstruction
2D-projection images
10-30 electrons per Angstrom2
Orientations unknown so computationally intensive
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SPR: overview
Particle stack Translational and rotationalAlignment of particles
Multivariate statistical analysisand classification
Angular and translational assignment
to each class sum imageReconstruction of 3D volume
Now with references
repr
ojec
tion
Com
mon
line
s
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Central Slice Theorem
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Computing a 3D Reconstruction
Low Dose cryoTEM images have weak phase information per particle image, so
100,000’s to millions of views are required
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Reconstructions are computationally intensive
Reconstructions use to require 100’s of CPUs only available on a high performance computing cluster
Recent improvement in code and GPU utilization has allowed reconstructions on high end workstations
cisTEM, Relion, cryoSparc
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Ice behaves different than other materials in the electron beam
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Imaging protein in Ice
Brilot et al. J Struct Biol. 2012 March ; 177(3): 630–637.
Beam
indu
ced
mot
ion
Uncorrected Motion corrected
Direct electron detectors make possible
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∗ Improved DQE especially at low frequencies ∗ Direct electron counting modes improve low frequency
contrast
∗ High speed read out as movies (50 frames a second)∗ correction of beam induced motion∗ Specific dose selection∗ Spatial frequency filtering based on beam damage
Direct electron detectors: CMOS APS
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Counting modes have high low frequency DQE
Source Gatan
Centroid localization
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Movies: motion correction and dose weighting
Fourier transform
unco
rrec
ted
corr
ecte
d
Movie Files Sum image
8 e-
15 e-
35 e-
65 e-
100 e-
2 Å
4 Å
8 Å
10 Å
20 Å
Frames Dose Info
4
8
18
32
50
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Motion Correction during reconstruction:Particle polishing
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Solving protein assemblies is now routine.
Nature 553, 233–237 (11 January 2018)
Nature Structural & Molecular Biology 25, 53–60 (2018)
TRPV6
TRPV5
Nature Communications 9, Article number: 89 (2018)
ATP synthase
Nature Structural & Molecular Biology (2018)
YeastExocyst
Nature Structural & Molecular Biology (2018)
Prionfilament
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Building up biological assembly
Tatyana Svitkina
Movie 3: Tilt series Movie 4: Tomogram
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Unstained cryogenic material
Julia Mahamid Max Planc Martinreid from Science 351, 969-972, 2016
Movie 5:
Play Movie
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Segmentation and template matching in volumes.
Wilhelm et al. 2014
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∗ How do we preserve and image thick cellular or tissue volumes?
∗ 4D TEM and conformational dynamics?
∗ Can we discern molecules when connected or layered?
Future:
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Join us for our upcoming webinars