Download 1. Types of Microscopy The Electromagnetic Spectrum 9/13/2016 Chapter 4A:

9/13/2016
Chapter 4A:
Microscopy &
Microbial Classification
1. Types of Microscopy
2. Staining
3. Classification & Nomenclature
1. Types of Microscopy
Chapter Reading – pp. 96-107
The Electromagnetic Spectrum
400 nm
700 nm
Visible light
Gamma rays
UV
X
rays light
Infrared
Microwave
Radio waves and
Television
Increasing wavelength
1012m
108m
104m
100m
103m
Crest One wavelength
Trough
Increasing resolving power
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Scale of Magnification
Diameter
of DNA Ribosomes
Typical bacteria
and archaea
Flea
Pig
Atoms
Proteins
Amino
acids
0.1 nm
1 nm
Mitochondrion
10 nm
Scanning
tunneling
microscope
(STM)
0.5 nm–10 nm
100 nm
Large
protozoan
(Euglena)
Chloroplasts
Viruses
1 m
Chicken
egg
Human red
blood cell
10 m
100 m
1 mm
10 mm
100 mm
1m
10 m
Transmission electron microscope (TEM)
10 nm–100m
Atomic
force
microscope
(AFM)
1 nm–10 nm
Scanning electron microscope (SEM)
10 nm–1 mm
Compound light microscope (LM)
200 nm–10 mm
Unaided human eye
200 m–
Light Microscopy
a typical “bright field” microscope such as used in lab
Oil Immersion & Light Refraction
Microscope
objective
Refracted
light rays
lost to lens
Unrefracted
light rays
enter lens
Glass cover slip
Immersion oil
Glass cover slip
Slide
Specimen
Microscope
objective
Lenses
Slide
Light source
Without immersion oil
Specimen
Light source
With immersion oil
Different media (air, water, glass, oil…) bend light
to different degrees.
• i.e., have different refractive indexes
• immersion oil has refraction index similar to glass,
allows more light to enter the lens
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(“normal” light microscopy)
Bright vs Dark
Field Microscopy
Light refracted
by specimen
Objective
Light unrefracted
by specimen
Specimen
Condenser
Dark-field stop
only light refracted
by the specimen
will enter the
objective lens
Dark-field stop
Phase Contrast Microscopy
Enhances misalignment of light waves to create contrast
• reveals internal detail
without staining
• useful for live specimens
Rays in phase
Nucleus
Rays out of phase
Phase plate
Bacterium Ray deviated by
specimen is 1/4
wavelength out
of phase.
Deviated ray
is now 1/2
wavelength
out of phase.
Phase contrast
Differential Interference Contrast
(DIC) Microscopy
A variation on phase-contrast microscopy involving
a more complex combination of filters and prisms.
• also referred to as
“Normarski Microscopy”
Bacteria
• creates an image with even
greater detail and contrast
• image has a 3-dimensional
appearance as if it was
illuminated from the side
Nomarski
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Fluorescent Microscopy
Fluorescent dyes or antibodies with a
fluorescent tag stick to specific targets.
Under UV light, dye fluoresces, only
labeled cells or structures are seen.
standard
confocal
Confocal Fluorescence Microscopy
Only light from a given depth or plane is transmitted,
“out of focus” light is excluded
Electron Microscopy
Electromagnetic lenses
focus electron beam onto
metal-stained specimen.
• electron beams have very
short wavelengths
• allows far greater resolution
than with light microscopy
Transmission EM (TEM)
• thin sections of specimen,
highest resolution
Scanning EM (SEM)
• reveals surface features
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Other types of Microscopy
Scanning-Tunneling & Atomic Force microscopy use
special fine-tipped probes to produce highest resolution.
scanning-tunneling (STM)
SCANNINGTUNNELING
• distance between
probe and specimen
determined by electron
flow between them
ATOMIC FORCE
Plasmid DNA
DNA double helix
• deflection of laser
aimed at probe tip
produces image
atomic force (AFM)
2. Staining
Chapter Reading – pp. 108-111
Why the Need for Stains?
Because, no matter how high the
magnification or resolution, you need
contrast to be able to see anything.
If contrast is not sufficient in the sample or
the microscopic method used, staining can
provide the necessary contrast:
• stains used for viewing bacteria via light microscopy are
typically positively charged chromophores (basic dyes)
• chromophore = “color-bearing” ion of a salt
• bacteria have a net negative charge (i.e., bind positive ions)
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General Types of Stains
Simple stain
• dye that non-specifically stains all organisms, features
Differential stain
• dye that binds various structures or organisms differently
Counter stain
• a 2nd dye added that is a different color than original dye
Negative stain
• dye that stains background, not specimen
Special stain
• dye that specifically stains certain subcellular structures
**a mordant is any chemical added to enhance a stain**
Fixing the Specimen on a Slide
Specimens must first be “fixed” to the slide
surface before they can be stained.
Spread culture in
thin film over slide
Pass slide through
flame to fix it
Air dry
• generally done by smearing a sample on the slide, air
drying, and passing briefly through flame to “heat fix”
• specimens can also be fixed to the slide surface by
chemical means
Gram Staining
A very common stain to distinguish 2 bacterial types:
1
2
3*
4
Gram positive
• retains primary
stain (due to thick
peptidoglycan layer
and teichoic acids)
Gram negative
Process:
1) 1o stain
(crystal violet)
• does NOT retain
primary stain, only
counter stain
2) mordant (iodine)
3) decolorize* (alcohol)
* key step
4) counter stain (safranin)
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Acid-Fast Staining
Most bacteria are not “acid-fast” (i.e., don’t retain
primary stain after
acid wash).
• “acid fast” bacteria
detected by this
stain include those
in the genera:
Mycobacterium
Nocardia
acid fast
non-acid fast
Special Stains
• “non-acid-fast”
cells revealed by
counter stain
Flagella Stain
• reveal specific
subcellular
structures
Capsule Stain
Endospore Stain
3. Classification & Nomenclature
Chapter Reading – pp. 113-115
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Taxonomic Hierarchy
Species Genus Family
Order
Class
Phylum Kingdom Domain
Ursus americanus
(American black bear)
Ursus
Ursidae
Carnivora
Mammalia
Chordata
species can also
be subdivided
different strains
Animalia
Eukarya
Scientific Nomenclature
To avoid confusion, every type of organism must
be referred to in a consistent way.
The current system of nomenclature (naming)
has been in use since the 18th century:
• every type of organism is referred by its genus name
followed by its specific epithet (i.e., species name)
Homo sapiens (H. sapiens)
Escherischia coli (E. coli)
• name should be in italics and only the genus is capitalized
which can also be abbreviated
• names are Latin (or “Latinized” Greek) with the genus
being a noun and the specific epithet an adjective
**strain info can be listed after the specific epithet (e.g., E. coli O157:H7)**
Key Terms for Chapter 4A
• resolution, refraction & oil immersion
• microscopy: bright & dark field, phase contrast, DIC,
fluorescent, confocal, transmission & scanning EM,
scanneling-tunneling, atomic force microscopy
• simple, differential, counter, negative stains
• mordant, chromophore
Relevant Chapter Questions
MC: 1-10
FB: 1-5
Labeling
SA: 1, 3-6
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