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Organization of the CellOrganization of the Cell
Chapter 4
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Learning Objective 1Learning Objective 1
• What is cell theory?
• How does cell theory relate to the evolution of life?
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Cell TheoryCell Theory
(1) Cells are basic units of organization and function in all living organisms
(2) All cells come from other cells
All living cells have evolved from a common ancestor
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Learning Objective 2Learning Objective 2
• What is the relationship between cell organization and homeostasis?
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HomeostasisHomeostasis
• Cells have many organelles, internal structures that carry out specific functions, that help maintain homeostasis
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KEY CONCEPTSKEY CONCEPTS
• Cell organization and size are critical in maintaining homeostasis
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Plasma MembranePlasma Membrane
• Plasma membrane • surrounds the cell• separates cell from external environment• maintains internal conditions • allows the cell to exchange materials with
outer environment
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KEY CONCEPTSKEY CONCEPTS
• Eukaryotic cells are divided into compartments by internal membranes
• Membranes provide separate, small areas for specialized activities
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Learning Objective 3Learning Objective 3
• What is the relationship between cell size and homeostasis?
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Biological SizeBiological Size
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Fig. 4-1, p. 75
1 μm
Atom
Aminoacids
Protein
Ribosomes
Virus
Mitochondrion
0.1 nm
Smallestbacteria
1 nm 10 nm 100 nm 10 μm
Chloroplast
Nucleus
10 m1 m100 mm
Electron microscopeLight microscope
10 mm
Typicalbacteria
Red bloodcells
Epithelialcell
Humanegg
Frog egg
Chickenegg
Somenerve cells
Adulthuman
1 mm100 μm
Measurements1 meter = 1000 millimeters (mm)1 millimeter = 1000 micrometers (μm)1 micrometer = 1000 nanometers (nm)
Human eye
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Surface to Volume RatioSurface to Volume Ratio
• SVR• ratio of plasma membrane (surface area)
to cell’s volume• regulates passage of materials into and out
of the cell
• Critical factor in determining cell size
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SVRSVR
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Fig. 4-2, p. 76
24Surface area =height width number of sides number of cubes
Volume =height width length number of cubes
Surface area/volume
Surface Area/Volume Ratio
Volume(mm3)
(24 :8)3
(48 :8)6
(2 2 2 1) (1 1 1 8)
88
Surface Area(mm2)
(1 1 6 8)(2 2 6 1)
48
1 mm
2 mm
2 mm
1 mm
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Learning Objective 4Learning Objective 4
• What methods do biologists use to study cells?
• How are microscopy and cell fractionation used?
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MicroscopesMicroscopes
• Light microscopes
• Electron microscopes• superior resolving power
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MicroscopesMicroscopes
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Fig. 4-4a, p. 79
Light source
Lightmicroscope Light beam
Ocular lens
Objective lensSpecimen
Condenser lens
(a) A phase contrast light microscope can be used to view stained or living cells, but at relatively low resolution.
100 μm
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Fig. 4-4b, p. 79
Projector lens(electromagnetic)
Transmissionelectron
microscope
Electron gun
Electron beam
First condenser lens(electromagnet)
Specimen
Film or screen
(b) The transmission electron microscope(TEM) produces a high-resolution imagethat can be greatly magnified. A smallpart of a thin slice through theParamecium is shown. 1 μm
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Fig. 4-4c, p. 79
Electron gun
Electron beam
First condenser lens(electromagnet)
Secondaryelectrons
Scanningelectronmicroscope
Second condenserlens
Scanning coil
Final (objective)lens
Cathode ray tubesynchronized withscanning coil
Electrondetector
Specimen
100 μm
(c) The scanning electron microscope(SEM) provides a clear view of surfacefeatures.
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Cell FractionationCell Fractionation
• Cell fractionation• purifies organelles• to study function of cell structures
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Cell FractionationCell Fractionation
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Fig. 4-5a, p. 80
Centrifugal force
(a) Centrifugation. Due to centrifugal force, large or very dense particles move toward the bottom of a tube and form a pellet.
Centrifuge rotor
Hinged bucketcontaining tube
Centrifugal force
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Fig. 4-5b, p. 80
Plasmamembrane
Golgi
ER
Layeredmicrosomalsuspension
sucroseconcentration
High
100,000 x G
Centrifugesupernatant100,000 x G
90 minutes
Disrupt cells inbuffered solution
Centrifuge600 x G
10 minutes
Nuclei inpellet
Mitochondria,chloroplastsin pellet
30 minutes
Centrifugesupernatant20,000 x G
Resuspendpellet layeron top ofsucrosegradient
Densitygradientcentrifugation
Low sucroseconcentration
Su
cro
se d
ensi
ty
gra
die
nt
Microsomal pellet(contains ER, Golgi,plasma membrane)
(b) Differential centrifugation. Cell structures can be separated into various fractions by spinning the suspension at increasing revolutions per minute. Membranes and organelles from the re-suspended pellets can then be further purified by density gradient centrifugation (shown as last step). G is the force of gravity. ER is the endoplasmic reticulum.
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Stepped Art
Fig. 4-5b, p. 80
Disrupt cells inbuffered solution
Centrifuge600 x G
10 minutes
Nuclei inpellet
Mitochondria,chloroplastsin pellet
Centrifugesupernatant20,000 x G
30 minutes
Microsomal pellet(contains ER, Golgi,plasma membrane)
90 minutes
Centrifugesupernatant100,000 x G
Low sucroseconcentration
Su
cro
se d
ensi
ty
gra
die
nt
Layeredmicrosomalsuspension
Resuspendpellet layeron top ofsucrosegradient
High sucroseconcentration
Plasmamembrane
Golgi
ER
Densitygradientcentrifugation
100,000 x G
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Learning Objective 5Learning Objective 5
• How do the general characteristics of prokaryotic and eukaryotic cells differ?
• How are plant and animal cells different?
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ProkaryotesProkaryotes
• Prokaryotic cells• No internal membrane organization• nuclear area (not nucleus)• cell wall• ribosomes• flagella
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ProkaryotesProkaryotes
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Fig. 4-6, p. 81
Plasmamembrane
0.5 μm
Pili
Storage granule
FlagellumRibosome
Cell wall
CapsuleNucleararea
DNA
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EukaryotesEukaryotes
• Eukaryotic cells • membrane-enclosed nucleus• cytoplasm contains organelles• cytosol (fluid component)
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Animal CellsAnimal Cells
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Fig. 4-8, p. 83
Lysosome
Ribosomes
RoughER
Smooth ERCentrioles Mitochondrion
Rough and smoothendoplastic reticulum (ER)
Nuclearenvelope
Nucleolus
Nucleus
Chromatin
Nuclearpores
Nuclearenvelope
Membranoussacs ofGolgi
Golgi complex
Plasmamembrane
Cristae
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Plant CellsPlant Cells
• Plant cells• rigid cell walls• plastids• large vacuoles• no centrioles
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Plant CellsPlant Cells
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Fig. 4-7, p. 82
Ribosomes
Chloroplast
Granum
Stroma
Smooth ER
Rough and smooth endoplasmic reticulum (ER)
Chromatin
Nuclear pores
Nuclear envelope
Nucleolus
Nucleus
Rough ER
Mitochondrion
VacuolePlasma membraneCell wall
Membranoussacs
Golgi complex
Cristae
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Learning Objective 6Learning Objective 6
• What are the three functions of cell membranes?
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Cell MembranesCell Membranes
• Divide cell into compartments
• Vesicles transport materials between compartments
• Important in energy storage and conversion
• Endomembrane system
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Learning Objective 7Learning Objective 7
• What are the structures and functions of the nucleus?
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The NucleusThe Nucleus
• Control center of cell• genetic information coded in DNA
• Nuclear envelope• double membrane
• Nuclear pores• communicate with cytoplasm
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Nuclear StructuresNuclear Structures
• Chromatin• DNA and protein
• Chromosomes• DNA condensed for cell division
• Nucleolus• ribosomal RNA synthesis• ribosome assembly
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The NucleusThe Nucleus
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Fig. 4-11, p. 88(c)
0.25 μm
ER continuouswith outer membraneof nuclear envelope
Outernuclearenvelope Nuclear pore
Inner nuclearenvelope
Nuclearporeproteins
Nucleoplasm
2 μm
Nuclearpore
Chromatin
Nucleolus
Rough ER
Nuclearpores
Nuclearenvelope
(a)
(b)
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KEY CONCEPTSKEY CONCEPTS
• Eukaryotic cells have nuclei containing genetic information coded in DNA
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Learning Objective 8Learning Objective 8
• What are the structural and functional differences between smooth ER and rough ER?
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EEndoplasmic Reticulum (ER)ndoplasmic Reticulum (ER)
• Network of folded membranes• in cytosol
• Smooth ER• lipid synthesis• calcium ion storage• detoxifying enzymes
• Rough ER • ribosomes on outer surface• assembles proteins
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ERER
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Fig. 4-12, p. 90
1 μm
ER lumenMitochondrion
Ribosomes
RoughER
Smooth ER
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Learning Objective 9Learning Objective 9
• Trace the path of protein synthesis:• synthesis in the rough ER• processing, modification, and sorting by
the Golgi complex• transportation to specific destinations
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The Golgi ComplexThe Golgi Complex
• Processes proteins synthesized by ER
• Manufactures lysosomes
• Cisternae • stacks of flattened membranous sacs
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Transport VesiclesTransport Vesicles
• Formed by membrane budding
• Move glycoproteins • from ER to cis face of Golgi complex• Carry modified proteins from trans face to
specific destination
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Protein SynthesisProtein Synthesis
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Fig. 4-14, p. 92
transface
Plasmamembrane
Glycoprotein
Rough ER
Ribosomes
Polypeptides synthesizedon ribosomes are insertedinto ER lumen.
Sugars are added, forming glycoproteins.
Transport vesicles deliver glycoproteins to cis face of Golgi.
Glycoproteins modifiedfurther in Golgi.
Glycoproteins move to transface where they are packagedin transport vesicles.
Glycoproteins transported toplasma membrane (or otherorganelle).
Contents of transport vesiclereleased from cell.
Golgi complex
cisface
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KEY CONCEPTSKEY CONCEPTS
• Proteins are • synthesized on ribosomes• processed in the endoplasmic reticulum• processed by the Golgi complex• transported by vesicles
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Learning Objective 10Learning Objective 10
• What are the functions of lysosomes, vacuoles, and peroxisomes?
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Other OrganellesOther Organelles
• Lysosomes• enzymes break down structures
• Vacuoles • store materials in plant cells
• Peroxisomes• produce and degrade hydrogen peroxide
(catalase)
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Learning Objective 11Learning Objective 11
• Compare the functions of mitochondria and chloroplasts
• How is ATP synthesized by each of these organelles?
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MitochondriaMitochondria
• Site of aerobic respiration
• Double membrane• inner membrane folded (cristae)• matrix (cristae and inner compartment)
• Important in apoptosis• programmed cell death
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MitochondriaMitochondria
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Fig. 4-19, p. 95
Cristae
0.25 μm
Outermitochondrialmembrane
Innermitochondrialmembrane
Matrix
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Aerobic RespirationAerobic Respiration
• Breaks down nutrients using oxygen
• Energy from nutrients packaged in ATP
• CO2, H2O produced as by-products
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PlastidsPlastids
• Plastids• organelles that produce and store food• in cells of plants and algae
• Chloroplasts• plastids that carry out photosynthesis
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Chloroplast StructureChloroplast Structure
• Stroma• fluid-filled space enclosed by inner
membrane of chloroplast
• Grana• stacks of membranous sacs (thylakoids)• suspended in stroma
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ChloroplastsChloroplasts
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Fig. 4-20, p. 96
1 μm
Granum(stack ofthylakoids)
StromaInnermembrane
Outermembrane
Intermembranespace
Thylakoidmembrane
Thylakoidlumen
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PhotosynthesisPhotosynthesis
• Chlorophyll• green pigment in thylakoid membranes• traps light energy
• Light energy converted to chemical energy in ATP• used to synthesize carbohydrates from
carbon dioxide and water
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Mitochondria and Mitochondria and ChloroplastsChloroplasts
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Fig. 4-18, p. 95
Light
Aerobic respirationMitochondria (most eukaryotic cells)
PhotosynthesisChloroplasts (some plant and
algal cells)
Glucose Glucose
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KEY CONCEPTSKEY CONCEPTS
• Mitochondria and chloroplasts convert energy from one form to another
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Learning Objective 12Learning Objective 12
• What are the structures and functions of the cytoskeleton?
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The CytoskeletonThe Cytoskeleton
• Microtubules• hollow tubulin cylinders• MTOCs and MAPs
• Microfilaments• actin filaments• important in cell movement
• Intermediate filaments• strengthen cytoskeleton• stabilize cell shape
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MicrotubulesMicrotubules
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Fig. 4-22a, p. 98
Dimer on
(a) Microtubules are manufactured in the cell by adding dimers of α-tubulin and β-tubulin to an end of the hollow cylinder. Notice that the cylinder has polarity. The end shown at the top of the figure is the fast-growing, or plus,end; the opposite end is the minus end. Each turn of the spiral requires 13 dimers.
α-Tubulin
β-Tubulin
Dimersoff
Minus end
Plus end
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Intermediate FilamentsIntermediate Filaments
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Fig. 4-27a, p. 101
Protofilament
(a) Intermediate filaments are flexible rods about10 nm in diameter. Each intermediate filamentconsists of components, called protofilaments,composed of coiled protein subunits.
Protein subunits
Intermediate filament
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Fig. 4-27b, p. 101
(b) Intermediate filaments are stained green inthis human cell isolated from a tissue culture.
100 μm
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MicrofilamentsMicrofilaments
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Fig. 4-26a, p. 101
(a) A microfilament consists of two intertwined strings of beadlikeactin molecules.
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Fig. 4-26b, p. 101
(b) Many bundles of microfilaments (green) are evident in thisfluorescent LM of fibroblasts, cells found in connective tissue.
100 μm
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CytoskeletonCytoskeleton
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Fig. 4-21, p. 97
Microtubule
Plasmamembrane
Microfilament
Intermediatefilament
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CentrosomeCentrosome
• Main MTOC of animal cells
• Usually contains two centrioles
• Each centriole has 9 x 3 arrangement of microtubules
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CentriolesCentrioles
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Fig. 4-24a, p. 99
0.25 μm
(a) In the TEM, the centrioles are positioned atright angles to each other, near the nucleus ofa nondividing animal cell.
Centrioles
MTOC
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Fig. 4-24b, p. 99
(b) Note the 9 x 3 arrangement of microtubules.The centriole on the right has been cut transversely.
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A Kinesin MotorA Kinesin Motor
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Fig. 4-23, p. 98
ATP
Microtubule does not move
Plusend
Minusend
Vesicle
Kinesinreceptor
Kinesin
ATP
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KEY CONCEPTSKEY CONCEPTS
• The cytoskeleton is a dynamic internal framework that functions in various types of cell movement
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Learning Objective 13Learning Objective 13
• How do cilia and flagella differ in structure and function?
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Cilia and FlagellaCilia and Flagella
• Cilia and flagella• thin, movable structures• project from cell surface• function in movement
• Cilia are short, flagella are long
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CiliaCilia
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Fig. 4-25a, p. 100
(a) TEM of a longitudinal section through cilia and basal bodies of the freshwaterprotist Paramecium multimicronucleatum.Some of the interior microtubules are visible.
0.5 μm
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Fig. 4-25b, p. 100
(b) TEM of cross sectionsthrough cilia showing9 + 2 arrangement ofmicrotubules.
0.5 μm
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Fig. 4-25c, p. 100
0.5 μm
(c) TEM of cross sectionthrough basal bodyshowing 9 x 3 structure.
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Fig. 4-25d, p. 100
Central microtubules
(d) This 3-D representation showsnine attached microtubule pairs(doublets) arranged in a cylinder,with two unattached microtubulesin the center. The dynein “arms,”shown widely spaced for clarity,are actually much closer togetheralong the longitudinal axis.
Outer pair of microtubules
Dynein
Plasma membrane
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Fig. 4-25e, p. 100
Microtubularbend
(e) The dynein arms move the microtubules by forming and breaking cross bridges on theadjacent microtubules, so that one microtubule “walks” along its neighbor. Flexible linkingproteins between microtubule pairs prevent microtubules from sliding very far. Instead, the motor action causes the microtubules to bend, resulting in a beating motion.
Pair ofmicrotubules
Dynein
Linkingproteins
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Learning Objective14Learning Objective14
• Describe the glycocalyx, extracellular matrix, and cell wall
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Cell CoatCell Coat
• Glycocalyx (cell coat)• Surrounds cell• Polysaccharides extend from plasma
membrane
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ECMECM
• Extracellular matrix (ECM) • Surrounds many animal cell• Carbohydrates and protein
• Fibronectins • glycoproteins of ECM• bind to integrins
• Integrins• receptor proteins in plasma membrane
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ECMECM
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Fig. 4-28, p. 102
Plasmamembrane
Collagen
Fibronectins
Integrin
Intermediatefilament
Microfilaments
Extracellularmatrix
Cytosol
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Cell WallCell Wall
• Cellulose & other polysaccharides• form rigid cell walls• in bacteria, fungi, and plant cells
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Fig. 4-29, p. 102
2.5 μm
Cell 1
Middlelamella
Primary cell wall
Multiple layers ofsecondary cell wall
Cell 2
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CLICKTO PLAY
Typical Prokaryotic CellTypical Prokaryotic Cell
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Plant Cell WallsPlant Cell Walls
CLICKTO PLAY
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Cytoskeletal ComponentsCytoskeletal Components
CLICKTO PLAY
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Common Eukaryotic Common Eukaryotic OrganellesOrganelles
CLICKTO PLAY
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Flagella StructureFlagella Structure
CLICKTO PLAY
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Motor ProteinsMotor Proteins
CLICKTO PLAY
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The Endomembrane SystemThe Endomembrane System
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