CELLS: Analysing Cell Components COPY Flashcards
Magnification
How much bigger the image is than the specimen
Resolution
How easily a microscope distinguishes between two points that are close together.
What are the two main types of microscope?
Optical
Electron
Optical microscope:
- How does it form an image?
- Maximum resolution?
- Maximum useful magnification?
- Forms an image using light
- Maximum resolution of 0.2 micrometres
- Max useful magnification = x 1500
Electron microscope:
- How does it form an image?
- Maximum resolution?
- Max useful magnification?
- Uses electrons
- Higher resolution of about 0.0002 micrometres
- Max useful magnification x 1500000
What are the 2 types of electron microscopes?
Transmission (TEMs)
Scanning (SEMs)
How do TEMs work?
- Electromagnets focus beam of electrons that is transmitted through specimen.
- Denser parts absorb more = darker image
What is a strength and limitation of TEMs?
+ High resolution images, so can see internal structures of organalles
- Thin specimens needed
How do SEMs work?
- Scan beam of electrons across specimen.
- Knocks off electrons from specimen, which gather in cathode ray tube to form image
- Shows surface, 3D images
What is a strength and limitation of SEMs?
+ Thick specimens
- Lower resolution images
How do you convert from micrometres to mm?
Divide by 1000
How do you prepare a temporary mount of a specimen on a slide?
- Pipette small drop of water onto slide
- Use tweezers to place thin specimen on top of water
- Add a stain
- Add cover slip to protect.
How are organelles separated?
Using cell fractionation
What are the 3 steps of cell fractionation?
- Homogenisation - break up cells
- Filtration - removes large pieces
- Ultracentrifugation - separates organelles
What does homogenisation do?
Breaks up plasma membrane
Releases organelles into solution