new approaches to specimen preparation for molecular tem
TRANSCRIPT
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New Approaches to Specimen Preparation for Molecular TEM
NRAMM Workshop 10 November 2014
Clint Potter National Resource for Automated Molecular Microscopy
The Scripps Research Institute
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The overall mission of NRAMM is to develop, test and apply technology for automating and streamlining cryo-electron microscopy
(cryoEM) for structural biology.
Technology enables: !Accessibility !
Higher throughputs !“High” resolution structures of “small” / asymmetric / heterogeneous particles
(may need to analyze 1,000,000’s molecules) !Determination of many 3D structures in different states
(may need 100’s of maps)
Specimen preparation Image acquisition Data processing
Investigation of the structure, function and dynamics of molecular machines
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EM Automation: Investigating structure and dynamics of molecular machines
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Automated Data Collection (Leginon)
Sample
Specimen preparation (Spotiton)
Streamlined Processing (Appion)
EM DensityCore Technologies: A Streamlined and Automated TEM Pipeline
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Current CryoTEM Specimen Preparation
3µl
3nl
0.1%
99.9%
>100,000 potential targets for imaging; most of them are
not usable.
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A New Approach to Specimen Preparation:
Inkjet dispensing New substrates
1 sample per grid 3µl
10% usable area
10x 1000x10x
9 samples per grid 30 pL
100% usable area
Proposed picoliter sample dispensing:Current method:
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Spotiton v0.75
Precision 3-axis motors
High-speed precision
Linear motorHumidity chamber
Three inkjet heads
Liquid ethane dewar
(Engineering Arts custom made, automated, three inkjet heads 24 um nozzle, 32 pL drops)
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30 µm 500 µm
1 droplet (32 pl) 1000 droplets (32 nl)
Grid-tip positioningDispense tip front view
Sample volume can be precisely controlled
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Spotiton v0.75 in action.
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Microtubules GroEL
Lipid nanotubes Antibody-labeled QDots CNV
TMV
Stability of particles dispensed using inkjet
500 nm
200 nm2 µm 200 nm
200 nm100 nm
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Applying specimens to microfabricated grid substrates
1mm
Hydrophobic
Hydrophilic
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Vitrification across a 250 micron Si3N4 window
100 µm
100 µm
2 µm 200 nm
LM
EM
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• Spotiton inkjet dispensing system fairly robust. Now refining for v1.0.
• Capable of producing thin ice with well preserved specimens
• Now focusing on even drop spreading and wetability of substrates
Challenge is to spread the specimen evenly into a thin layer
20nm thick SiO2 100 x 350 um window
Plasma cleaned 72pL (2 drops) 0.5mg/mL TMV
LM view of drop dispense EM view of vitrified sample
Current status
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nanodiscsbaculovirus
CD4-gp120 arrestin
GPCR-arrestin fusion complex MsbA Novel detergents
A different application for specimen preparation automation: Screening and rapid characterization
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Typhon (The Concept)
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100 µm
Sample can be precisely targeted and the grid is a very large space
~1,000 grid squares available
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Inkjet heads
Grid Holder
Humidity ChamberPump
System
Scienion sciFLEXARRAYER S3, 8 inkjet heads, ~100 pl drops
Typhon v0.5
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Typhon v0.5 in action
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1 mm3 mm
Typhon v0.5
Video LMMicrotiter plate
80 mm
Microtitre Plate Direct Transfer to EM Grid
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Applica9on: Screening of nano par9cles (John Nolan group, Scin9llon Inst.)
1 mm
Gold nanorods LM EM Atlas
Typhon v0.5
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21,000X
Atlas
62,000X
Spot tracking
Targeting x 96!
Sample Targeting
Semi-automated multiscale imaging
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High magnifica9on thumbnail images of 96 individual samples
Typhon v0.5
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Suitable resolution and detail for downstream analysis in CellProfiler • Distribution of sizes and shapes can be accurately determined • 10-20 images of each sample have enough particles for statistical characterization
Examples of high magnification image of two samples
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• Flexible system based on commercially available liquid handler
• Capable of placing 96 samples on a single grid and acquiring high magnification images in 24 hours
• Focus is now on optimizing process and adapting for negative staining of proteins
Typhon v0.5 Status
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Negative Staining of Proteins
[ [Slide 8 or 9 movie]
• 100 mesh Cu grid
• Carbon on Formvar
• Protocol: 1.8nL sample followed by 1.8nL 2% UF
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CPMV 0.65mg/mL
[
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TH
E S
CR
IPP
S R
ES
EA
RC
H IN
STITU
TE
National Resource for Automated Molecular Microscopy http://nramm.scripps.edu
The Automated Molecular Microscopy Group
Anchi Cheng
Bridget CarragherClint Potter
Sargis DallakianJohn CrumIvan RazinkovSean Mulligan
Melody Campbell David Veesler
Jeff Speir
Lorraine Lathrop
Emily Greene
Support from NIH GM103966 and NIH GM103310