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1.3 DEVELOPMENT IN IMAGING TECHNOLOGY AND STAINING TECHNIQUES.

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Presentation on theme: "1.3 DEVELOPMENT IN IMAGING TECHNOLOGY AND STAINING TECHNIQUES."— Presentation transcript:

1 1.3 DEVELOPMENT IN IMAGING TECHNOLOGY AND STAINING TECHNIQUES

2 Contrast ◦ When light passes directly through cells in what is called brightfield microscopy, most cells are seen colourless ◦ Staining or using colouring agents showed that particular stains attach to particular parts of the cell, improving contrast between internal structures and producing better images ◦ Can be as simple as adding methylene blue or iodine ◦ Chemical preservatives “fix” the cell and allow for more complex staining procedure ◦ This kills the cell so it is not possible to view living tissue

3 Staining Cells- Quick Lab ◦ Page 254 ◦ Do this in groups

4 Resolution ◦ Is the ability to distinguish between two structures that are very close together ◦ An image should have high resolution if it is to show its detail ◦ The clarity of images depends on the resolving power of the microscope ◦ However light microscopes efficiency is limited because as light focusses onto smaller and smaller diameters, the image becomes blurry

5 Fluorescence Microscopy ◦ Read paragraph on page 256 ◦ https://www.youtube.com/watch?v=sCYX_XQgnSA https://www.youtube.com/watch?v=sCYX_XQgnSA

6 Confocal Technology ◦ Read paragraphs on page 257-258

7 Electron Microscope ◦ Uses beams of electrons instead of a light wave and is able to produce images that provide fine detail ◦ The image is formed by the absorption or scattering of electrons because electron- dense materials do not let the electrons pass through

8 Transmission Electron Microscope ◦ Transmission Electron Microscope (TEM) depends on a beam of electrons passed through a very thin section of fixed (not alive) and stained tissue embedded in plastic ◦ Can magnify up to 1 500 000x ◦ A drawback is the difficulty in building up a three dimensional picture of a cell from a very thin section ◦ There is great detail, but the area we are looking at is very small

9 Light vs Electron Microscopes ◦ Copy down Table C1.1 on page 259 ◦ https://www.youtube.com/watch?v=WDkLxlQ3hBA https://www.youtube.com/watch?v=WDkLxlQ3hBA

10 Scanning Electron Microscope ◦ This gives information about the surface features of a specimen. ◦ Specimens are fixed and covered with an electron-dense material like gold which reflects electrons ◦ 300 000x magnification ◦ A form of the SEM has been developed to allow use to use live materials

11 Electron Micrographs ◦ Photographs taken by either the SEM of TEM ◦ https://www.youtube.com/watch?v=SIOOLXbwWME https://www.youtube.com/watch?v=SIOOLXbwWME

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