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Tour of the Cell
Robert Hooke
(1635-1703)
Robert Hooke
-- 1665: examined
thinly sliced cork and coined term “cell”
van Leeuwenhoek --1674:
first to observe living cells
van Leeuwenhoek
The cell theory
Schleiden and Schwann + others
• 1. all organisms consist of one or more
cells
• 2. the cell is the basic unit of structure
for all organisms
• 3. all cells arise only from preexisting
cells
Light microscopy
Electron
microscopy
Cilia
Electron
microscopy
Cilia
Light microscopy
Light microscopy
Chromosomes
Electron microscopy
Fluorescence microscopy
Fluorescent micrograph
of dividing cells
Green: DNA
Red: Microtubules
Units of measurement in cell biology
micrometer (micron, )- 1/1,000,000 of a
meter, or 1/1000 of a millimeter.
• useful for measuring the sizes of cells and
organelles.
• “typical” animal cell: 20-40  m
• “typical” nucleus: 5-10  m
• bacteria, mitochondria, chloroplasts - few
 m in diameter
nanometer - 1/1000 of a  m or
1/1,000,000 of a mm.
• used for molecules and subcellular
structures too small to be seen with light
microscopy.
• ribosomes - diameter of 25-30 nm.
• cell membranes: ~10nm
• cytoskeletal structures such as
microtubules, microfilaments are
generallly measured in nm.
• DNA helix ~2nm
10 m
Human height
Length of some
nerve and
muscle cells
Sizes
0.1 m
Chicken egg
Unaided eye
1m
1 cm
Frog egg
100 µm
Most plant and
animal cells
10 µm
Nucleus
Most bacteria
1 µm
100 nm
Mitochondrion
Smallest bacteria
Viruses
Ribosomes
10 nm
Proteins
Lipids
1 nm
Small molecules
0.1 nm
Atoms
Electron microscope
Measurements
1 centimeter (cm) = 10–2 meter (m) = 0.4 inch
1 millimeter (mm) = 10–3 m
1 micrometer (µm) = 10–3 mm = 10–6 m
1 nanometer (nm) = 10–3 µm = 10–9 m
Light microscope
1 mm
Why are cells
so small?
Surface to volume ratio
Surface area increases while
Total volume remains constant
5
1
1
Prokaryotic Cells
Pili
Nucleoid
Ribosomes
Plasma
membrane
Bacterial
chromosome
Cell wall
Capsule
0.5 µm
Flagella
A typical
rod-shaped
bacterium
A thin section through the
bacterium Bacillus
coagulans (TEM)
There are two types of cells…..
Prokaryotic Cell
Example:
bacteria cell
Eukaryotic Cells
Animal
Plant
Cell parts and functions….
Plasma Membrane (cell membrane)
Nucleus
Nucleus
Nucleus
1 µm
Nucleolus
Chromatin
Nuclear envelope:
Inner membrane
Outer membrane
Nuclear pore
Pore
complex
Rough ER
Surface of nuclear envelope
Ribosome
1 µm
0.25 µm
Close-up of nuclear
envelope
Pore complexes (TEM)
Nuclear lamina (TEM)
Nucleus
Ribosomes
Ribosomes
ER
Cytosol
Endoplasmic
reticulum (ER)
Free ribosomes
Bound ribosomes
Large
subunit
Small
subunit
0.5 µm
TEM showing ER
and ribosomes
Diagram of
a ribosome
Smooth ER
Endoplasmic
reticulum
Rough ER
Nuclear
envelope
ER lumen
Cisternae
Ribosomes
Transport vesicle
Smooth ER
Transitional ER
Rough ER
200 nm
Endoplasmic reticulum
smooth ER and rough ER
Golgi apparatus
Glycosylation, sorting and distribution of
proteins and lipids
Golgi apparatus
Camillo Golgi
(1843 – 1926)
1 µm
Nucleus
Vesicles
Lysosome
Plasma
membrane
Digestive
enzymes
Lysosome
Digestion
Food vacuole
Phagocytosis: lysosome digesting food
Vacuoles
Central vacuole
Cytosol
Tonoplast
Nucleus
Central
vacuole
Cell wall
Chloroplast
5 µm
Contractile
Vacuole
Nucleus
Rough ER
Smooth ER
Nuclear envelope
Nucleus
Rough ER
Smooth ER
Nuclear envelope
cis Golgi
Transport vesicle
trans Golgi
Nucleus
Rough ER
Smooth ER
Nuclear envelope
cis Golgi
Transport vesicle
Plasma
membrane
trans Golgi
Organelles
Mitochondrion
Chloroplasts
Mitochondria
Mitochondrion
Intermembrane space
Outer
membrane
Free
ribosomes
in the
mitochondrial
matrix
Inner
membrane
Cristae
Matrix
Mitochondrial
DNA
100 nm
Chloroplast
Chloroplast
Ribosomes
Stroma
Chloroplast
DNA
Inner and outer
membranes
Granum
1 µm
Thylakoid
Chloroplast
Cytoskeleton
microfilament
Cytoskeleton
8-10 nm
25 nm
7 nm
Microtubules
Microfilaments
Microvillus
Microfilaments
Plasma membrane
Lining of
intestine
Microfilaments (actin
filaments)
Intermediate filaments
0.25 µm
Intermediate filaments
Extracellular
components
Central
vacuole
of cell
Plasma
membrane
Secondary
cell wall
Plant Cell
Walls
Primary
cell wall
Central
vacuole
of cell
Middle
lamella
1 µm
Central vacuole
Cytosol
Plasma membrane
Plant cell walls
Plasmodesmata
Plant Cells
cellulose
Animal
Cell
exterior
Extra cellular
matrix
Extracellular
components:
intercellular
junctions
Plasmodesmata: found in plants
Cell walls
Interior
of cell
Interior
of cell
0.5 µm
Plasmodesmata
Plasma membranes
Animals
Tight junctions prevent
fluid from moving
across a layer of cells
tight junctions,
desmosomes and
gap junctions
Tight junction
0.5 µm
Tight junction
Intermediate
filaments
Desmosome
1 µm
Space
between
cells
Gap
junctions
Plasma membranes
of adjacent cells
Gap junction
Extracellular
matrix
0.1 µm
Tight junctions
Desmosome
Gap junctions