Download - Chapter 7: Cell Structure and Function
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Chapter 4: Cell Structure and Function
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Microscopes
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History• 1400’s: magnifying glass• 1590: Jansen Bro– Used 1st compound
microscope (2 lenses)
• 1670-80’s: Anton van Leeuwenhoek– Used a simple light
microscope (1 lens)– 1st person to observe living
microorganisms– Father of Microbiology
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Terms:
• Magnification: enlarges an object’s image
• Resolution: increases visible detail– Separation of 2 points
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Light Microscopes• uses light• Simple (1 lens)• Compound (2 or more lenses)– 1 ocular eyepiece– 1 objective eyepiece
• Stereomicroscope– Gives a 3-D image
• Fluorescent dyes combine with video camera to produce 3-D image of cell processes (ex: cell movement)
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Total Magnification• ocular lens x objective lens– Examples: 100 = (10x) x (10x)
430 = (10x) x (43x)• Highest magnification with a light
microscope is 1500x
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Electron Microscopes• uses beams of electrons• Transmission electron
microscope (TEM)– Transmits electrons
through a specimen up to 200,000x
– Can study structures within a cell
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• Scanning electron microscope (SEM)– Sends electrons across the surface of a
specimen to make a 3-D image up to 100,000x
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• Scanning tunneling microscope (STM)–Uses a metal probe to show the arrangement of
atoms (1,000,000x)– Investigates atoms on the surface of a molecule
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Advantages/Disadvantages of each microscope:
• Light Microscope:– Advantages: can look at living specimens– Disadvantages: limited in magnification and resolution
• Electron Microscope:– Advantages: greater magnification and resolution– Disadvantages: cannot view living things
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Microscope Venn DiagramElectron MicroscopeLight Microscope
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Cells
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Robert Hooke• Studied cork (dead
plant cells from the bark of a tree)
• First identified cells (basic building blocks of all living things)
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Matthias Schleiden and Theodor Schwann
• Schleiden plants are made up of cells
• Schwann animals are made up of cells
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Cell Theory• 3 parts to the cell theory- applies to all living
organisms–all organisms are composed of 1 or more
cells– the cell is the basic unit of structure and
function (organization) of all living things–all cells come from pre-existing cells
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Cells
• Basic units of all living things• Surrounded by a plasma membrane• Have DNA (contains genetic information)• Have cytoplasm (outside the nucleus)• Contain organelles– membrane-bound structures– small, specialized structures– each has a specific function that helps cells survive
• 2 groups of cells
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Prokaryotes• Smaller in size• Do not have membrane-bound
organelles• Have genetic material (DNA) but
not surrounded by a membrane– Circular DNA floats in cytoplasm
• Unicellular organisms (bacteria)• ****No nucleus or nuclear
membrane***• have ribosomes, cytoplasm, and
cell membrane
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Eukaryotes• Contain membrane-bound organelles• Multicellular organisms and some
unicellular (amoeba, algae, and yeast)• Contain a nucleus
– Control center of the cell– Contains a cell’s genetic material– Responsible for cell division– Manages all cellular functions– Identified by Rudolf Virchow
• Protists, fungi, plants, and animals• Bigger in size than prokaryotes
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Cell Types Venn DiagramEukaryotesProkaryotes
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Bell Ringer:1. Cell Theory:
a. All __________ are composed of cells.b. Cells are the basic units of _______ and ________ in
all organisms.c. New cells are produced from ____________.2. The cells of eukaryotes have a _________; the cells of
__________ do not.3. Eukaryotic cells also have a variety of specialized
structure called ______________.
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Levels of Organization
• Cells in multicellular organisms are specialized (cell specialization)– Perform specific functions (separate roles)– Ex: nerve cells transmit impulses– Ex: red blood cells carry nutrients and gas throughout body– Ex: pancreatic cell produce insulin– Ex: muscle cells contract and relax to move parts of the body
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• Cells: basic units– Ex: red blood cells, nerve cells, pancreatic cells, skin cells
• Tissues: group of cells that perform a particular function– Ex: muscle tissue, epithelial tissue
• Organs: group of tissues that work together– Ex: heart, liver, stomach, brain, lungs
• Organ systems: group of organs that work together to perform a specific function– Ex: digestive, respiratory, nervous
organism
organ systems
organs
tissues
cells
organization
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Organelle DNA• Chloroplasts and mitochondria have their own DNA• Lynn Margulis
– Came up with the endosymbiotic theory– Suggested that mitochondria and chloroplasts came from
prokaryotic cells• Formed a relationship with early eukaryotic cells
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Cell WallFunction:• Provides additional support and protection• Allows H2O, O2, AND CO2 to pass
Type of Cell:• Plant cells, fungal cells, and bacterial cells
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Cell WallUnique
Characteristics:• Rigid structure• Inflexible• Made of cellulose (in
plants)• Nickname: “support
center”
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Plasma MembraneFunction:• Allows substances to enter and leave a
cell• Provides protection and support
Type of Cell:• Plant and animal cells
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Plasma MembraneUnique
Characteristics:• Flexible boundary
• Nickname: “the bouncer”
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NucleusFunction:• Controls cell processes• Stores DNA and info to make proteins
Type of Cell:• Plant and animal cells
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NucleusUnique Characteristics:• Has chromatin – Strands of DNA
• Has nuclear envelope
• Nickname: “Control Center” or “The Boss”
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VacuoleFunction:• Temporary storage of food, enzymes, wastes,
and other materials
Type of Cell:• Plant and animal cells
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VacuoleUnique
Characteristics:• Sac surrounded by
a membrane• Bigger in plants
• Nickname: “Storage closet”
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MitochondriaFunction:• Transforms energy into usable compounds by
breaking down food• Cellular respiration
Type of Cell:• Plant and animal cells
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MitochondriaUnique Characteristics:• Has double membrane• Folded inner
membrane increases surface area• Occurs in varying #’s– Example: more in muscle
cells
• Nickname: “Powerhouse” or “Mighty-chondria”
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ChloroplastFunction:• Captures light energy and makes food• Photosynthesis
Type of Cell:• Plant cells only
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ChloroplastUnique Characteristics:• Double membrane• Plastids used for
storage• Contain chlorophyll–Green pigment
• Nickname: “Green sugar shack”
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RibosomesFunction:• Where proteins are made
Type of Cell:• Plant and animal cells
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RibosomesUnique
Characteristics:• Not bound by a
membrane• Can be found in
cytoplasm or ER
• Nickname” “Protein factory”
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NucleolusFunction:• Makes ribosomes
Type of Cell:• Plant and animal cells
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NucleolusUnique
Characteristics:• Within the nucleus• Small and dense
• Nickname: “Ribosome factory”
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CytoplasmFunction:• Clear gelatinous fluid inside a cell• Holds organelles in place
Type of Cell:• Plant and animal cells
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CytoplasmUnique
Characteristics:• Mostly made of
water
• Nickname: “Celly jelly”
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Endoplasmic ReticulumFunction:• Rough: protein synthesis• Smooth: make and store lipids
Type of Cell:• Plant and animal cells
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Endoplasmic ReticulumUnique
Characteristics:• Highly folded
membranes• Internal
membrane system• Nickname: “Transport
system”
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LysosomesFunction:• Digests excess or worn out organelles, food,
and bacteria
Type of Cell:• Animal cells
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LysosomesUnique Characteristics:• Contains digestive
enzymes
• Nickname: “Suicide sac”
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CytoskeletonFunction:• Support structure within cytoplasm• Forms framework for the cell
Type of Cell:• Plant and animal cells
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CytoskeletonUnique
Characteristics:• Composed of tiny
rods and filaments
• Nickname: “Body shaper”
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Golgi Apparatus or Golgi Body
Function:• Modifies, sorts, and packages proteins
Type of Cell:• Plant and animal cells
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Golgi Apparatus or Golgi Body
Unique Characteristics:• Flattened system
of tubular membranes
• Nickname: “Gift wrap” or “UPS”
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CiliaFunction:• Aids in locomotion and feeding
Type of Cell:• Animal cells
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CiliaUnique Characteristics:• Pairs of microtubules• Short, numerous
hairlike projections
• Nickname: “Hair”
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FlagellaFunction:• Aids in locomotion and feeding
Type of Cell:• Animal cells
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FlagellaUnique
Characteristics:• Pairs of
microtubules• Longer projections• Whiplike motion
• Nickname: “Tail”
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CentriolesFunction:• Function during cell division
Type of Cell:• Animal cells
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CentriolesUnique
Characteristics:• None
Nickname: none
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Nuclear EnvelopeFunction:• Surrounds nucleus
Type of Cell:• Plant and animal cells
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Nuclear EnvelopeUnique Characteristics:• Has pores that allow
materials to move in and out of the nucleus
No nickname
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Animal vs. Plant Cells Venn Diagram
Animal Cells Plant Cells
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Bell Ringer:1. Place the following terms in order from smallest to largest level of
organization:tissues, organ systems, organs, individual cells
2. The small dense region in the nucleus where the assembly of ribosomes begins is called the ____.a. nucleolus b. nuclear envelopec. chloroplast d. vacuole
3. Which organelles can use energy from sunlight to create energy-rich food molecules?
a. lysosomes b. golgi apparatusc. vacuoles d. chloroplasts