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Microscopy

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Microscopy Compound Microscope ... Endospore stain An endospore is a special structure made by some bacteria to store genetic material for a new cell. – PowerPoint PPT presentation

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Title: Microscopy


1
Microscopy
2
Compound Microscope
  • The Compound Microscope is the type of microscope
    we use in the lab. It uses visible light as its
    light source for illumination.
  • The average compound microscope has resolving
    power of .2?m (1?m .000001m)
  • The resolving power is the ability of the
    microscope to distinguish between 2 pts, or to
    show detail.
  • Staining is used to make the specimen contrast
    sharply with the medium so that it is easier to
    see.

3
Fluorescence Microscopy
  • This particular microscope uses fluorochromes to
    attach to organisms and allow them to fluoresce.
    Fluorochromes are small molecules that only
    fluoresce once they have attached to their
    target.
  • Immunofluorescence is a particular type of marker
    used in fluorescence microscopy. The
    fluorochromes are first attached to a specific
    antibody (Ab). The antibody is usually specific
    for a particular type of cell, virus, or other
    type of specimen.
  • This type of microscopy is useful for detecting
    viruses and other org. within cells, tissue, or
    other clinic specimen that normally we wouldnt
    be able to see or detect otherwise.

4
  • For example, lets say that we suspect someone
    has Hepatitis. Hepatitis is caused by a virus.
    Viruses are so small that they cant be seen
    under a compound microscope. In addition, they
    also spend much of their replication time within
    host cells and you cant see into a cell with a
    compound microscope.
  • So we take a sample of blood from the patient.
  • Then we get some antibodies that are specific
    for the hepatitis virus.
  • Next we put the fluorochrome on the antibody.
  • .

5
  • Then we put the fluorochrome, antibody
    combination together on the specimen.
  • If the virus is present, then the antibody will
    bind to the virus or virus infected cell. Upon
    binding, it will turn on the switch for the
    fluorochrome. The fluorochrome will now
    fluoresce indicating the specimen is positive for
    that virus.
  • If the virus is not present, then the antibody
    wont be able to bind and the fluorochrome wont
    fluoresce.

6
Electron Microscopes
  • Electron Microscopes are used to examine objects
    smaller than .2?m. There are 2 types that are
    used.
  • SEM Scanning Electron Microscope
  • This type of electron microscope creates and
    image of the surface structures of the organism.
  • It bounces a beam of electrons (e-s) off the
    organism to create the image. As the electrons
    come into contact with the specimen the e-s
    bounce off in different directions. A computer
    then records the direction it went and
    extrapolates the shape of the surface of the
    specimen by the direction that each e-s bounces
    off.

7
  • TEM Transmission Electron Microscopy
  • The Transmission Electron Microscipe uses ultra
    thin slice of the specimen to create images of
    inside cellular structures.
  • In this case the image is created by sending the
    e-s through the specimen and recording the
    trajectory of the e-s as they exit out the other
    side.
  • These are both great ways for us to learn more
    about a particular organism. Unfortunately a
    live specimen can never be viewed this way
    because the preparations are toxic to the cells.

8
Biological Stains Used in the Lab
  • To prepare specimens to be viewed under the
    compound microscope there are two types of stains
    that are used.
  • 1. Basic Stain The basic stain is composed of a
    positively () charged ion that attaches to the
    negatively () charged cell membrane.
  • Crystal violet and safranin are examples of basic
    stains.
  • 2. Acidic Stain An acidic stain is composed of
    a negatively (-) charged ion that is repelled by
    the negatively () charged membrane.
  • Eosin and Acid fuschin are examples of acidic
    stains.

9
  • There are two different ways that we can use
    basic and acidic stains to better view and
    identify microbes.
  • 1. Simple Stain A simple stain is when we use
    one stain, basic or acidic and color the organism
    to view under the microscope. It helps us to
    determine the shape of the organism.
  • 2. Differential Stain A differential stain is
    when we combine 2 or more stains to gather more
    information.
  • For example, a gram stain uses 2 stains. One
    stain indicates the organism is G and the other
    indicates the organism is G-.
  • Other types of differential stains are endospore
    stains, capsule stains, acid-fast stains, and
    flagella stains.

10
The Basic Gram Stain Procedure
  • Lets say that you have a culture that has two
    different kinds of organisms growing in it. One
    organism is a cocci and the other is a rod. You
    want to determine what the gram reaction is for
    each.
  • The first step is to heat fix the specimen. (You
    smear the specimen on the slide and wave it
    through the bunsen burner to slightly bake it
    onto the slide. You dont want it to wash off
    during the staining procedure.!)
  • The second step is to apply the Primary stain.
    The primary stain is always the first stain
    applied in a differential staining procedure. In
    this case the primary stain is crystal violet.
    It is a basic stain so it attaches to all the
    cells present because they all have a (-) charged
    cell membrane.

11
  • The next step is to apply iodine to the specimen.
    The iodine acts as a sealant to tightly bind the
    primary stain to the G cell wall. This is
    called a mordant.
  • Then the specimen is washed with alcohol. The
    alcohol dissolves lipids. Remember that the G-
    cell wall is made up of an outer membrane that
    contains lipids. The alcohol wash removes the
    cell wall from the G organism.
  • Next the secondary stain is applied. In a
    differential stain, the secondary stain is the
    second type of stain used in the process. In
    this case, safranin is the secondary stain that
    is used. It is a basic stain too. It attaches
    only to the unstained cells, ie the G- organisms
    on the slide.

12
  • The final result is that the G cells are stained
    purple and the G- cells are stained magenta or
    pink.
  • The gram stain works simply because there is a
    difference in the cell walls between G and G-
    organisms.
  • See Insight 4.2 on page 98 of your textbook for
    an excellent explanation of the gram stain
    procedure.

13
Endospore stain
  • An endospore is a special structure made by some
    bacteria to store genetic material for a new
    cell.
  • Because endospores are so resistant to many
    environmental pressures they cant be stained
    with ordinary dyes because dont penetrate the
    wall.
  • The Primary stain for an endospore stain is
    malichite green. Heat is used with this stain to
    force it into endospore.
  • The Secondary stain is safranin. Safranin stains
    the cell wall of the microbe giving a contrast
    between the endospore and the organism.

14
Capsule Stain
  • Remember that a capsule often indicates
    virulence.
  • A Negative stain (India Ink) is used to show the
    outline of the capsule. It will not bind to
    capsule but it will stain around the capsule.
  • The the Secondary stain, methyl-blue is applied
    to stain the organism inside the capsule.
  • The clearing around the stained orgaism is the
    capsule.

15
Acid-fast Stain
  • Some microbes have cell walls that are
    constructed a little differently that how we have
    discussed. The organism, Mycobacterium has a
    waxy substance in its cell wall called mycholic
    acid. The mycholic acid makes it difficult to
    stain this organism using a basic dye. So a
    different type of stain is used for it.
  • The acid-fast stain is used to distinguish
    mycobacterium from other types of rods.
  • Carbol fuschin is the primary stain for this
    technique. Like the endospore stain, heat is
    used to force the stain on the organism.
  • A Secondary stain is added after to bind to any
    organism that did not bind to the primary stain.

16
Flagella Stain
  • A flagella stain is a very tedious and delicate
    staining procedure.
  • It uses a mordant and carbol fuschin to build up
    the diameter of the flagella until they become
    visible.
  • This type of staining procedure is valuable
    because the arrangement of the flagella can be
    used as a diagnostic aid.
  • No homework for this chapter.
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