chapter 4: tour of the cell bio100 fall 2007. cells must be tiny for materials to move in and out of...
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Chapter 4: Tour of the Cell
BIO100
Fall 2007
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Cells must be tiny for materials to move in and out of them and fast enough to meet the cell’s metabolic needs.
THE MICROSCOPIC WORLD OF CELLS
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Organisms are either
Single-celled, such as most bacteria and protists
Multicelled, such as plants, animals, and most fungi.
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The light microscope is used by many scientists
Microscopes as Windows to Cells
Light passes through the specimen
Lenses enlarge, or magnify, the image.
Figure 4.2A
(a) Light micrograph (LM) of a white blood cell (stained purple) surrounded by red blood cells
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Light Microscope:Light Microscope: First cells observed by Robert Hooke in 1665 First cells observed by Robert Hooke in 1665
using a light microscope.using a light microscope.
How We Study CellsHow We Study Cells
Simple vs. Simple vs. Compound?Compound?
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Magnification An increase in the specimen’s apparent size
Resolving power The ability of an optical instrument to show two
objects as separate.
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Cells were first discovered in 1665 by Robert Hooke
The accumulation of scientific evidence led to the cell theory, p. 57
All living things are composed of cells All cells form from previously existing cells Cells are the smallest units capable of carrying
out the processes of life: ex. respiration, digestion, reproduction, growth, ingestion, etc.
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The electron microscope (EM) uses a beam of electrons
It has a higher resolving power than the light microscope.
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The electron microscope can magnify up to 100,000X
Such power reveals the diverse parts within a cell.
Figure 4.3U
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Metric Prefixes:
Kilo=1000 so 10 Kcalories=10 000 calories= 10 C
Hecto=100
Deka=10
Unit=1 ex. meter, liter, gram
deci=0.1
centi=0.01 so 1 cm=10 mm
milli=0.001
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The scanning electron microscope (SEM) is used to study the detailed architecture of the surface of a cell.
Figure 4.2B
(b) Scanning electron micrograph (SEM) of a white blood cell
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The transmission electron microscope (TEM) is useful for exploring the internal structure of a cell.
Figure 4.2C(c) Transmission electron micrograph (TEM) of a white blood cell
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The countless cells on earth fall into two categories
The Two Major Categories of Cells
Prokaryotic cells Eukaryotic cells
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Prokaryotic and eukaryotic cells differ in several respects.
Figure 4.4
Prokaryotic cell Nucleoid region
Eukaryotic cell Nucleus Organelles
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Prokaryotic cells
Are smaller than eukaryotic cells Lack internal structures surrounded by
membranes Lack a nucleus.
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Figure 4.5
Prokaryoticflagella
Nucleoid region (DNA)
RibosomesPlasmamembrane
Cell wall
Capsule
Pili
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A Panoramic View of Eukaryotic Cells
Figure 4.6A, p. 59
Cytoskeleton
RibosomesCentriole
LysosomeFlagellum
Not in mostplant cells
Nucleus
Smoothendoplasmicreticulum (ER)Golgi
apparatus
Roughendoplasmicreticulum (ER)
Mitochondrion
Plasmamembrane
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An idealized plant cell.
Figure 4.6B, p. 59
Cytoskeleton
Mitochondrion
Nucleus
Rough endoplamsicreticulum (ER)
Ribosomes
Smoothendoplasmicreticulum (ER)
Golgi apparatus
Plasmodesmata
Plasmamembrane
Chloroplast
Cell wall
Centralvacuole
Not in animal cells
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The nucleus is an organelle which contains long fibers made of DNA molecules and associated proteins. Each fiber, known as chromatin, becomes a chromosome
Humans have 46 chromosomes in the nucleus of each and every cell
Also within the nucleus is the nucleolus which is a ball-like mass of fibers and granules which produces the component parts of ribosomes.
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Ribosomes move through the pores of the nucleus then are responsible for protein synthesis. Some are associated with “rough” ER others remain suspended in the cytosol.
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The plasma membrane separates the living cell from its nonliving surroundings
The entire region of cell between the nucleus and plasma membrane is the cytoplasm
Cytoplasm consists of organelles surrounded by a liquid known as cytosol.
MEMBRANE STRUCTURE AND FUNCTION
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The membranes of cells are composed of
A Fluid Mosaic of Lipids and Proteins
Lipids Proteins.
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The lipids belong to a special category called phospholipids
Phospholipids form a two-layered membrane, the phospholipid bilayer.
Figure 4.7A
Hydrophilichead
Hydrophobictail
Outside cell
Cytoplasm(inside cell)
(a) Phospholipid bilayer of membrane
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Most membranes have specific proteins embedded in the phospholipid bilayer.
Figure 4.7B
Hydrophilicregion ofprotein
Phospholipidbilayer
Hydrophobicregion of protein
(b) Fluid mosaic model of membrane
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Some functions of membrane proteins.
Figure 4.8
Fibers ofextracellularmatrix
Cytoskeleton Cytoplasm
Attachment tocytoskeleton andextracellularmatrix
a
b Cell signaling
c
d
Enzymatic activity
Transport
e Intercellularjoining f Cell-cell
recognition
Cytoplasm
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Membrane phospholipids and proteins can drift about in the plane of the membrane
This behavior leads to the description of a membrane as a fluid mosaic Molecules can move freely within the
membrane A diversity of proteins exists within the
membrane.
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Membranes of the cell are selectively permeable
Selective Permeability
They allow some substances to cross more easily than others
They block passage of some substances altogether.
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The traffic of some substances can only occur through transport proteins
Glucose, for example, requires a transport protein to move it into the cell.
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The nucleus is the manager of the cell
THE NUCLEUS AND RIBOSOMES:GENETIC CONTROL OF THE CELL
Genes found on the chromosomes within the nucleus store information necessary to produce proteins.
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The nucleus is bordered by a double membrane called the nuclear envelope
Structure and Function of the Nucleus
It contains chromatin It contains a nucleolus.
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Figure 4.9
Ribosomes ChromaticNuclearenvelope
Nucleolus Pore
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Ribosomes build all the cell’s proteins.
Ribosomes
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DNA controls the cell by transferring its coded information into RNA
How DNA Controls the Cell
The information in the RNA is used to make proteins.
Figure 4.10
Synthesis ofmRNA in thenucleus
1
2 Movement ofmRNA intocytoplasm vianuclear pore
3 Synthesis ofprotein in thecytoplasm
DNA
mRNA
Nucleus
Cytoplasm
mRNA
Ribosome
Protein
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Many of the membranous organelles in the cell belong to the endomembrane system.
THE ENDOMEMBRANE SYSTEM: MANUFACTURING AND DISTRIBUTING CELLULAR PRODUCTS
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The endoplasmic reticulum (ER)
The Endoplasmic Reticulum
Produces an enormous variety of molecules
Is composed of smooth and rough ER. Figure 4.11
Nuclearenvelope
Ribosomes
Rough ERSmooth ER
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Again, the “roughness” of the rough ER is due to ribosomes that stud the outside of the ER membrane.
Rough ER
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The functions of the rough ER include
Producing proteins Producing new membrane.
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After the rough ER synthesizes a molecule it packages the molecule into transport vesicles
Figure 4.12
Transport vesiclebuds off
Ribosome Secretoryprotein insidetransportvesicle
ProteinRough ER
Polypeptide
12
3
4
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The smooth ER lacks the surface ribosomes of ER and produces lipids, including steroids.
Smooth ER
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The Golgi Apparatus Works in partnership with the ER Refines, stores, and distributes the products of
cells.
Figure 4.13
Transportvesiclefrom ER
“Receiving” side ofGolgi apparatus
Golgi apparatus
New vesicle forming
Transport vesiclefrom the Golgi
“Shipping” side ofGolgi apparatus
Plasma membrane
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A lysosome is a membrane-enclosed sac
Lysosomes
It contains digestive enzymes The enzymes break down macromolecules. So
lysosomes are responsible for intracellular digestion.
If its membrane were to break its contents would digest the cell
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Lysosomes have several types of digestive functions
They fuse with food vacuoles to digest the food.
Plasmamembrane
Digestive enzymesLysosome
Food Food vacuole
Digestion
(a) Lysosome digesting food
Figure 4.14a
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They break down damaged organelles They carry out the intracellular digestion.
Figure 4.14b
(b) Lysosome breaking down damaged organelle
Lysosome
Damagedorganelle
Digestion
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Vacuoles are membranous sacsVacuoles
Two types are the contractile vacuoles of protists and the central vacuoles of plants.
Figure 4.15
Contractilevacuoles
Centralvacuole
(a) Contractile vacuoles in a protist (b) Central vacuole in a plant cell
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A review of the endomembrane system.
Figure 4.16
Rough ER
Transportvesicle from ER
Golgiapparatus
Secretoryvesicle from Golgi
Secretoryprotein
Vacuole Lysosome
Plasma membrane
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Cells require a constant energy supply to do all the work of life.
Nuclei, chloroplasts, and mitochondria are organelles having double membranes.
CHLOROPLASTS AND MITOCHONDRIA: ENERGY CONVERSION
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Chloroplasts are the sites of photosynthesis, the conversion of light energy to chemical energy.
CHLOROPLASTS
Figure 4.17
Inner and outermembranes ofenvelope
Space betweenmembranes
Stroma (fluid inchloroplast)
Granum
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Mitochondria are the sites of cellular respiration, which involves the production of ATP from food molecules.
Mitochondria
Figure 4.18
Outermembrane
Innermembrane
Cristae
Matrix
Space betweenmembranes
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ATP
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The cytoskeleton is an infrastructure of the cell consisting of a network of fibers.
THE CYTOSKELETON:CELL SHAPE AND MOVEMENT
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One function of the cytoskeleton
Maintaining Cell Shape
Figure 4.19A
Provide mechanical support to the cell and maintain its shape.
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The cytoskeleton can change the shape of a cell
This allows cells like amoebae to move.
Figure 4.19B
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Cilia and flagella are motile appendages.
Cilia and Flagella
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Flagella propel the cell in a whip-like motion
Cilia move in a coordinated back-and-forth motion.
Figure 4.20A, B
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Some cilia or flagella extend from nonmoving cells
The human windpipe is lined with cilia.
Figure 4.20C
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Most cells secrete materials that are external to the plasma membrane.
CELL SURFACES:PROTECTION, SUPPORT, AND CELL-CELL INTERACTIONS
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Plant cells are encased by cell walls
Plant Cell Walls and Cell Junctions
Figure 4.21
These provide support for the plant cells.
Walls of two adjacentplant cells
Vacuole
Plasmodesmata(channels between cells)
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Animal cells lack cell walls
Animal Cell Surfaces and Cell Junctions
They secrete a sticky covering called the extracellular matrix
This layer helps hold cells together.
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Phospholipids were probably among the first organic molecules on the early Earth.
THE ORIGIN OF MEMBRANES
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The Two Major Categories of Cells.
SUMMARY OF KEY CONCEPTS
Visual Summary 4.1
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A Fluid Mosaic of Lipids and Proteins.
Membrane Structure and Function
Visual Summary 4.2
Outside cell
Phospholipid
Protein
Hydrophilic
Hydrophobic
Hydrophilic
Cytoplasm (inside cell)