Microscopy

Question 1

The resolving power of the light microscope is the …

Answer 1

… the smallest distance between two objects

Question 2

Abbe’s Law

Answer 2

d = (lambda)/2* N.A

where d is the maximum resolution, with values lower not being resolvable

Question 3

Whether you can see an image depends on …

Answer 3

… the brightness and not the size

Question 4

Fluorescence Diagram (3)

Answer 4

1. Excitation to higher energy level
2. Decay back to lower energy level
3. Energy given out as fluorescent light

Question 5

Fluorescent Microscope (3)

Answer 5

1. First barrier filter - lets trough only blue ligh with a wavelegth between 450 and 490 nm
2. Beam spliting mirror - reflects light below 510nm but transmits light above 510nm
3. Second Barrier Filter - cuts out unwanted fluorescent signals, passing the specific green fluorescein emission between 520 and 560nm

Question 6

GFP facilitates …

Answer 6

… facilitates live cell imaging

Question 7

What does GFP stand for?

Answer 7

Green Fluorescent Protein from the pacific ocean jelly fish

autofluorescent allows direct visualisation

Question 8

Why use wide-field microscopy?

Answer 8

Used fixed filter blocks e.g. for specimens but motorised filter wheels and shutter enable more complex time-lapse experiments

Question 9

What does CLSM stand for?

Answer 9

Confocal Laser Scanning Microscopy

Question 10

Confocal Microscopy Technique (3)

Answer 10

1. Fluorescent specimen is illuminated with a focused point of light from a pinhole
2. Emitted fluorescent light from in-focus point is focused at pinhole and reaches detector
3. Emitted light from out-of-focus point is out os focus at pinhole and is largely excluded from detector

Question 11

Pinhole confocal imcroscopy limits …

Answer 11

… detection to in-focus fluorescence known as “optical Sectioning”

Question 12

Using sectioning of the cell, the …

Answer 12

… 3D reconstruction can be built up

Question 13

What does WFM stand for?

Answer 13

Wide Field Microscope

Question 14

Deconvolution can signigicantly enhance the …

Answer 14

… clarity of WFM images depending on the sample properties

Question 15

How to have a higher resolution? (3)

Answer 15

• Selective Illumination (TIRF)
• Beyond the diffraction limit
• Electron microscopy

Question 16

What does TIRF Microscopy stand for?

Answer 16

Total Internal Reflection Fluorescence Microscopy

Question 17

What is a method of Super Resoluton Light Microscopy?

Answer 17

PhotoActivation Localization Microscopy (PALM)

STochastic Optical Reconstruction Microscopy (STORM)

Question 18

Using fluorophor, we can detect nanometres by …

Answer 18

… switching on and off fluorophors

Question 19

Another type of Super Resolution Light Microscopy

Answer 19

STimulated Emission Depletion (STED)

Question 20

STED Method (2)

Answer 20

Excitation spot created with doughnut spot to create..

A spontaneous emission, but gives off very little light and signal.

Question 21

Confocal can now detect up to …

Answer 21

… 1 micrometre

Question 22

3D Light Microscopy (2)

Answer 22

• Imaging in 3D with less damge
• Sheet Plane Imaging Microscopy (SPIM) uses a sheet of light rather than a point

Question 23

How is contrast achieved in the EM?

Answer 23

Specimen is stained with an electron dense material

• Electrons passing through the specimen are scattered by the structures
• Others pass through parts of the cell not stained to form an image on a phosphorescent screen.

Question 24

Scanning EM is analgous to the …

Answer 24

… Stereo Binocular light microscope because it looks at surfaces rather than through the specimen.

Question 25

Scanning EM (5)

Answer 25

1. Electron beam produced
2. Cross section of EM lenses
3. Beam passes down the microscope column
4. Electron beam tends to diverge
5. Converged by EM lens

Question 26

Scanning EM is different to Transmission EM because …

Answer 26

Transmission EM looks through the source rather than Scanning EM which looks at electrons that bounce off source.

Question 27

Transmission EM Diagram

Answer 27

1. Condenser Lens
2. Objective Lens
3. Eyepiece Lens
4. Projector Lens
5. Viewing screen/photographic film

Question 28

Preparation of Specimens for Tranmission EM (6)

Answer 28

• Fixation
  
  • Glutaraldehyde cross-links proteins
• Contrast Enhancement
  
  • Osmium tetroxide binds to lipid bi-layers and proteins (is a heavy metal)
  • Uranyl acetate binds to nucleic acids, and is a heavy metal
• Dehydration
• Resin infiltrations (Epoxy resin, Epon)
• Sectioning (+- 70nm sections)
• Electron Microscope

Question 29

What is Vitrification?

Answer 29

Converting a liquid/solid in to a glass like state without a crystal structure.

Question 30

What is Immuno EM?

(CLEM)

Answer 30

Correlative Light Electron Microscopy (CLEM)

• Combine the strengths of (live) light microscopy with the high resolution of electron microscopy

Question 31

Transmission EM (3)

Answer 31

• Images through samples
• Correlative Light Electron Microscopy (CLEM) combines the adv of Live Light Microscopy and High Resolution of Electron Microscopy
• Electron Tomography allows the visualization of 3-D objects in the Transmission Electron Microscope.