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Cell Structure and Function
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Dead White Men Who Discovered (and were made of) Cells:
Anton Van Leeuwenhoek Robert Hooke
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Where the Magic Happened
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Cell Theory
• Schleiden
– All plants are made of cells
• Schwann
– All animals are made of cells
• Virchow
– All cells come from other cells
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Modern Cell Theory
• All living things are made of one or more cells
• All cells come from other pre-existing cells
• The cell is the basic unit of structure function
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Light Microscopy
TECHNIQUE RESULTS
Brightfield (unstained specimen).
Passes light directly through specimen.
Unless cell is naturally pigmented or
artificially stained, image has little
contrast. [Parts (a)–(d) show a
human cheek epithelial cell.]
(a)
Brightfield (stained specimen). Staining
with various dyes enhances contrast, but
most staining procedures require that cells
be fixed (preserved).
(b)
Phase-contrast. Enhances contrast
in unstained cells by amplifying
variations in density within specimen;
especially useful for examining living,
unpigmented cells.
(c)
50 µm
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Differential-interference-contrast (Nomarski).
Like phase-contrast microscopy, it uses optical
modifications to exaggerate differences in
density, making the image appear almost 3D.
Fluorescence. Shows the locations of specific
molecules in the cell by tagging the molecules
with fluorescent dyes or antibodies. These
fluorescent substances absorb ultraviolet
radiation and emit visible light, as shown
here in a cell from an artery.
Confocal. Uses lasers and special optics for
“optical sectioning” of fluorescently-stained
specimens. Only a single plane of focus is
illuminated; out-of-focus fluorescence above
and below the plane is subtracted by a computer.
A sharp image results, as seen in stained nervous
tissue (top), where nerve cells are green, support
cells are red, and regions of overlap are yellow. A
standard fluorescence micrograph (bottom) of this
relatively thick tissue is blurry.
50 µm
50 µm
(d)
(e)
(f)
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Electron Microscopy
TECHNIQUE RESULTS
Scanning electron micro-
scopy (SEM). Micrographs taken
with a scanning electron micro-
scope show a 3D image of the
surface of a specimen. This SEM
shows the surface of a cell from a
rabbit trachea (windpipe) covered
with motile organelles called cilia.
Beating of the cilia helps move
inhaled debris upward toward
the throat.
(a)
Transmission electron micro-
scopy (TEM). A transmission electron
microscope profiles a thin section of a
specimen. Here we see a section through
a tracheal cell, revealing its ultrastructure.
In preparing the TEM, some cilia were cut
along their lengths, creating longitudinal
sections, while other cilia were cut straight
across, creating cross sections.
(b)
Cilia1 µm
Longitudinalsection of
cilium
Cross sectionof cilium
1 µm
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The size range of cells
Nucleus
Most bacteria
Measurements
1 centimeter (cm) = 102 meter (m)
= 0.4 inch
1 millimeter (mm) = 10–3 m
1 micrometer (µm) = 10–3 mm =
106 m
1 nanometer (nm) = 10–3 µm = 10
9 m
10 m
1 m
0.1 m
1 cm
1 mm
100 µm
10 µm
1 µm
100 nm
10 nm
1 nm
0.1 nm
Human height
Length of some
nerve and
muscle cells
Chicken egg
Frog egg
Most plant and
animal cells
Mitochondrion
Smallest bacteria
Viruses
Ribosomes
Proteins
Lipids
Small molecules
Atoms
Un
aid
ed
eye
Lig
ht
mic
rosco
pe
Ele
ctr
on
mic
rosco
pe
nucleus
Most bacteria
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Comparing the size of a virus, a bacterium, and an animal cell
0.25 m
Virus
Animal
cell
Bacterium
Animal cell nucleus
While we’re on the topic of
size...
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Why Cells Are So Small: The SA:V RatioSurface area increases while
total volume remains constant
5
11
Total surface area
(height width
number of sides
number of boxes)
Total volume
(height width length
number of boxes)
Surface-to-volume
ratio
(surface area volume)
6
1
6
150
125
12
750
125
6
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Prokaryote
bacteria cellsTypes of cells
Eukaryote
animal cells
- no organelles
- organelles
Eukaryote
plant cells
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Why organelles?• Specialized structures
– specialized functions
• Containers
– Compartments = different local environments
• pH, concentration differences
– distinct & incompatible functions
• lysosome & its digestive enzymes
• Membranes as sites for chemical reactions
– Unique lipids & proteins
– embedded enzymes & reaction centers
• chloroplasts & mitochondria