Microscopy and cellular morphology

1. Microscopy and cellular morphology

2. Applications of Light Microscopy • Observe less detailed features of intact cell than advanced microscopy (i.e. electron and laser) • Shape, presence of flagella, diagnostic stain, arrangement of cells, some large internal features • <1000X magnification • Brightfield • Stained cells or cells with color/contrast • External features

3. Path of Light: Brightfield • Illuminator • Filter for shorter λ; blue light • Condenser • Focuses light into specimen • Diaphragm (iris) • Controls amount of light to specimen • Specimen on slide • Diffracts light as it passes throughimage produced • Objective lenses at nosepiece • Magnifies image 10, 40, or 100 times • Image inverted • Head with prism • Direct light path into ocular lens • Ocular lens magnifies image 10X • Image path sent to eye

5. Magnification Versus Resolution • Magnification = increase in apparent size • Objective and ocular lenses • Resolution = clarity • Ability to see 2 nearby objects as distinct objects • Resolving power depends on numerical aperture of lens • Ability to gather light; increase aperture and increase resolution of lens • Increase magnification must increase aperture; aperture limit • Highest resolution possible is 0.2μm with 100X lens • Steps you can take to increase resolution • GET MORE LIGHT TO LENS! • Oil immersion with 100X lens • Same refractive index as glass; prevents loss of light to air • Small wavelength light (blue light) • Adjust diaphragm and condenser as you increase magnification • Course focus and fine focus to focus image • Clean lenses and slide

6. Microscopy • Field of vision • Smaller at higher powers; must CENTER object or you will lose it at higher power • Mechanical stage adjuster!!! • Parfocal • Focus under low power then move to high power immediately; don’t move focus in between; then fine focus after you get to high power. • Contrast versus resolution. • you need light to increase resolution, but too much light can decrease contrast; must find a happy medium. • What happens if I go from low power to high power and the cells disappear? • Field of vision narrowed—center specimen • Not enough light—open diaphragm • Slightly out of focus—use fine focus • Resolution not optimal—clean lenses or slide, use oil if using 100X lens, open diaphragm, • The lens is not clicked all the way in place—make sure it clicks

7. Cellular Morphology • Prokaryotes • Rods (strep or single arrangement) • Cocci (staph, strep or single arrangement) • Spirillum • No nuclei present. • Must have cells under oil immersion to see any detail. • Eukaryotes • Cells larger than prokaryotes • Can’t always see nucleus • Fungi • Molds versus single celled fungi • Yeast • Candida albicans; vaginal yeast infection and thrush • Saccharomyces cerevisiae; bakers yeast; brewing yeast

10. Cellular Morphology Continued • More Eukaryotes • Fungi • Molds • Filamentous due to hyphae; multicellular • Penicillium • Yes it makes penicillin; grows on bread • Aspergillus, • Some produce aflotoxins (pathogenic) • Rhizopus • Classic bread mold and house mold • Yeast • Saccharomyces (bread and beer yeast) or Candida albicans (yeast infections) • Algae • Have pigments associated with them; single cell • Dinoflagellate called Peridinium • Protozoa • Single cell • Trypanosoma gambiensae • Causes Sleeping Sickness; nervous disorders; central Africa; tsetse flies • Helminth • Multi cell • Schistosoma mansonni • Causes schistosomiasis