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EDUCATION

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EDUCATION Education is a progressive discovery of our own ignorance. -Will Durant – PowerPoint PPT presentation

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Title: EDUCATION


1
EDUCATION
  • Education is a progressive discovery of our own
    ignorance.
  • -Will Durant

2
The Amazing Cell
  • Chapter 3
  • Anatomy and Physiology

3
Cells
  • Basic unit of living things.
  • Can exist alone as a single, free, living plant
    or animal, or can combine to form elaborate and
    complex organisms.
  • Multicellular organisms are when cells have
    differentiated and become grouped into
    specialized tissues that work collaboratively to
    sustain life for the animal as a whole.
  • We must understand the cell before we can
    understand the anatomy and physiology of the
    tissues and systems the cell makes up

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Evolution of Cells
  • Evolved about 3 billion years ago.
  • Primitive cells are thought to have resembled
    present-day bacteria and contained a single
    strand of DNA in a gelatinous protoplasm.
  • Prokaryotes- before nucleus, cells without
    nucleus were thought to have developed first.
  • Has DNA but not in a separate compartment
  • Eukaryotes- true nucleus, developed later and
    are found in all multicellular organisms.
  • Has distinct nucleus surrounded by protective
    nuclear envelope.

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Size Limitations
  • Size of most cells is restricted to 10-30 µm in
    diameter because of relationship between surface
    area and volume of a cell.
  • Why is this important
  • Smaller cells can feed themselves efficiently to
    carry on functions.
  • Large cells could not take in nutrients fast
    enough to support cell and would therefore die.
  • Also a small cell is better governed by a single
    nucleus. Larger cells need multiple nuclei.
  • What is an example of this and why?

8
Mammalian Cell Anatomy
  • Contain essential structures
  • Cell membrane (also known as plasma membrane).
  • Separates cell from environment.
  • Cytoplasm
  • Everything inside the cell membrane aside from
    nucleus and genetic material.
  • Nucleus
  • Contains the genetic material of the cell.

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Other optional parts of a cell
  • Cilia
  • Mitochondria
  • Endoplasmic Reticulum (ER)
  • Ribosomes
  • Golgi apparatus
  • Lysosome
  • Peroxisomes

11
Cell Membrane
  • Flexible, elastic barrier between inner cytoplasm
    and outer environment.
  • Contains infoldings and outpouchings that provide
    extra surface area.
  • Why is this important?
  • Capable of self-repair.
  • Governs the movement of atoms and molecules in
    and out of the cell.
  • Consists primarily of protein, phospholipids,
    cholesterol, lipids, and carbohydrates.

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Membrane Structure
  • Lipid bilayer composed of two layers of
    phospholipid molecules
  • Hydrophilic heads are on outside
  • Hydrophobic fatty acid tails are on
  • the inside
  • Most lipid soluble molecules easily
  • pass through membrane
  • Water-soluble molecules do not
  • readily pass through
  • Fluid mosaic Proteins suspended in bilayer and
    move easily throughout membrane to create a
    constantly changing pattern

14
Cell Membrane Structure Continued
  • Composed of Structural and Globular proteins.
  • What are these also called?
  • What do they do?
  • Proteins that occur within the bilayer are called
    integral proteins.
  • Globular proteins that span the entire width of
    the membrane and may create channels through
    which other molecules can pass.

15
Integral Proteins
  • Channels they create may be
  • Selective
  • permit only certain molecules in or out of the
    cell
  • Pores
  • allow the passage of molecules freely

16
Peripheral Proteins
  • Type of globular protein which can be bound to
    the inside or outside surfaces of the cell
    membrane.
  • Sometimes act as enzymes
  • May be involved in changing the cells shape
    (muscle contraction).

17
Cell Membrane External Surface
  • Glycocalyx coating on the cell surface of some
    cells made of glycoprotein and glycolipids.
  • Unique to each cell provides markers for
    recognition and for interactions.
  • Composed of 2 groups of molecules
  • Cell Adhesion Molecules (CAMs)
  • Sticky glycoproteins that cover cell surface.
    Help cells move past one another and signaling.
  • Signal circulating cells like WBCs to areas of
    inflammation or infection
  • Membrane Receptors
  • Integral proteins and glycoproteins that act as
    binding sites on the cell surface.
  • Involved with signaling as well.

18
Flagella and Cilia
  • Extensions of the plasma membrane that extend
    into the extracellular space.
  • Both contain 9 pairs of microtubules that
    encircle a central pair of microtubules.
  • Cilia- occur in large numbers on the exposed
    surface of some cells. Shorter than flagella and
    move synchronously to create waves of motion for
    propulsion.
  • Functions
  • In upper respiratory tract, propel bacteria and
    mucus from the lungs
  • In oviduct, pulls egg from ovary into oviduct.

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  • Flagella- significantly longer than cilia and
    usually occur singularly.
  • Attached to individual cells and aid in
    propulsion.
  • Example
  • Tail of sperm is flagellum

21
Cytoplasm
  • The inner substance of the cell, excluding the
    nucleus.
  • Components include
  • Cytosol
  • Cytoskeleton
  • Organelles
  • Inclusions

22
Cytosol
  • The fluid of the cell
  • Viscous, semi-transparent liquid composed of
    dissolved electrolytes, amino acids, and simple
    sugars.
  • Proteins suspended within fluid give fluid its
    thick, jellylike consistency.
  • Are enzymes that are important in metabolic
    activities of the cell.

23
Cytoskeleton
  • Three dimensional frame for the cells, is neither
    rigid or permanent.
  • Flexible and fibrous and changes in accordance to
    activities of the cell.
  • Gives support and shape to the cell, enables cell
    to move and provides direction for metabolic
    activity.
  • Also anchors organelles.
  • Types of fibers that comprise cytoskeleton
  • Microtubules
  • Intermediate fibers
  • Microfilaments.

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  • Microtubules
  • Thickest fibers and are long and hollow
  • Form cables that organelles attach too.
  • Proteins move these organelles along microtubules
    throughout cell.
  • Can be easily disassembled and reasembled to form
    new paths or take on new direction.
  • Composed of tubulins.

26
  • Intermediate fibers
  • Woven, ropelike fibers that possess high tensile
    strength and are able to resist pulling forces on
    the cell by acting as internal guy wires.
  • Toughest and most permament part of the
    cytoskeleton.
  • Composed of proteins
  • May take on different names
  • Tonofilaments-in epithelial cells
  • Neurofilaments- in nerve cells

27
  • Microfilaments
  • Located near cell surface on the cytoplasmic side
    of the plasma membrane and are arranged in
    bundles and meshworks.
  • Composed of actin and myosin
  • Play key role in cells ability to change shape,
    break apart during cell division and form
    outpouchings and involutions.
  • Are assembled where and when needed.
  • Depends on what cell is doing as to how many are
    found within cell.

28
Organelles
  • little organs
  • Membrane bound structures within cytoplasm that
    have specialized functions.
  • Is separated from cytoplasm by own membrane so
    can maintain own internal environment.
  • Compartmentalization is good for metabolic
    processes such as food absorption, energy
    production, and excretion.

29
Organelles continued
  • Include
  • Mitochondria
  • Ribosomes
  • Golgi Apparatus
  • Endoplasmic Reticulum
  • Lysosomes
  • Peroxisomes

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Mitochondria
  • One of largest organelles
  • Called powerhouse of the cell because produces
    up to 95 of energy that fuels the cell.
  • Nutrient molecules (i.e. glucose) are broken down
    to produce intracellular fuel.
  • Location of many biochemical reactions.
  • Amino acid and fat catabolism
  • Where respiration takes place
  • What is this?

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Mitochondria continued.
  • Active cells have higher energy demands so have
    more mitochondria.
  • Heart cells
  • Mitochondria can divide through fission-or the
    pinching itself in half.
  • Tend to be located at portion of cell where
    energy requirements are the greatest.
  • Contain DNA, RNA and enzymes.
  • Provide selves with 13 proteins while nucleus
    provides the remainder.

34
Mitochondrial shape
  • Tend to be elliptical and round with outer smooth
    membrane and inner involuted membrane.
  • Inner membrane forms cristae which increase
    internal working area and matrix (enzyme-rich
    liquid housed in mitochondria).
  • Cristae are site of ATP production
  • what does this do?

35
Ribosomes
  • Most common organelle in the cell.
  • Made of two globular subunits composed of protein
    and rRNA.
  • Important in protein synthesis.
  • Can attach and detach from membranes and move
    freely within the cell.
  • Move back and forth depending on type of protein
    they are making between endoplasmic reticulum and
    cytoskeleton.

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Endoplasmic Reticulum (ER)
  • Series of flattened tubes stacked on one another
    and bent into crescent shape.
  • Composed of single lipid bilayer
  • May be rough or smooth depending on if it
    contains ribosomes or not.
  • Rough ER is involved in production of protein.
  • Smooth ER is connected to Rough ER and is active
    in synthesis and storage of lipids.
  • In liver may also break down drugs and break down
    glycogen into glucose.

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Golgi Apparatus
  • Found near nucleus and is similar in structure to
    ER (composed of cisternae)
  • Receives proteins produced by ER.
  • Proteins are modified here as they move from fold
    to fold.
  • Once completed they are packages in vesicles and
    travel out into cell or to cell membrane.

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Lysosomes
  • Specialized vesicle formed by Golgi apparatus.
  • Contains hydrolytic enzymes which engulf bacteria
    or cell nutrients and digests them.
  • Principal responsibility to breakdown nutrient
    molecules.
  • Considered stomach of the cell.
  • When cells die, lysosomes are released and digest
    other portions of the cell, this is called
    autolysis.
  • May also release enzymes outside of cell to
    assist with breakdown of extracellular material.

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Peroxisomes
  • Membranous sacs containing enzymes found
    throughout the cell.
  • Reproduce through fission.
  • Important in detoxification of various molecules.
  • Remove free radicals- normal products of cellular
    metabolism but can be harmful in large numbers
  • Carry two major enzymes
  • Peroxidases-assist in conversion in free radicals
    to hydrogen peroxide.
  • Catalases-reduce hydrogen peroxide to water.

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Inclusions
  • Packaged units of metabolic products or
    substances that the cell has engulfed.
  • May or may not be membrane-bound.
  • Vacuoles are larger than vesicles but are of
    similar structure.

46
Centrioles
  • Small, hollow-like cylinders composed of
    microtubules.
  • Found in pairs perpendicular to one another.
  • Visible during cell division near nuclear
    envelope
  • Help to organize spindle fibers during cell
    division.
  • May also form bases of cilia and flagella (basal
    bodies).

47
Nucleus
  • Largest organelle in the cell.
  • Control center or brain of the cell.
  • Primary functions are to maintain hereditary
    information of the species and to control
    cellular activities through protein synthesis.
  • Some cells may be multi-nucleated while some are
    anucleated.
  • What is this and where is it found?
  • What is a disadvantage to no nucleus?

48
Nuclear Anatomy
  • Divided into four parts
  • Nuclear Envelope or membrane
  • Nucleoplasm
  • Chromatin
  • Nucleoli

49
Nuclear Envelope and Nucleoplasm
  • Separated from cytosol by a nuclear envelope
    composed of two lipid bilayers
  • Outer layer is continuous with Rough ER.
  • Contains nuclear pores- channel through entire
    thickness.
  • Allow transport of protein and RNA.
  • Area between bilayers is space called perinuclear
    space.

50
Nucleoplasm
  • The gel-like substance that fills the nucleus.
  • Resembles cytosol.

51
DNA, RNA and Chromatin
  • DNA and RNA are composed of nucleotides.
  • What are they?
  • How do they pair?
  • What does DNA form?
  • Chromatin-fibers made up of DNA and globular
    proteins called histones
  • Nucleosome- single strand of DNA wound around 8
    histone molecules.
  • During cell divison, chromatin condenses into
    super-coiled, x-shaped structure called
    chromosomes.

52
Nucleoli
  • Not membrane bound
  • Where ribosomal subunits are made
  • Contain DNA that governs synthesis of rRNA.

53
Cell Physiology
  • The Cellular Environment
  • Body Fluids
  • Composed primarily of water
  • Intracellular fluid- fluid found inside cell.
  • Extracellular fluid- fluid outside cell.
  • Interstitial fluid- fluid contained within the
    tissue, except for blood found within lymph and
    blood vessels.

54
Ions, Electrolytes, and pH
  • What are ions?
  • Cations
  • Anions
  • Electrolytes
  • In sick or injured animals, electrolyte
    concentrations and pH of intracellular and
    extracellular fluid can become abnormally high or
    low

55
Membrane Processes Excretion and Absorption
  • In order to maintain homeostasis cell must
    select what it needs from extracellular fluid and
    bring it into intracellular environment.
  • Must excrete waste products or transport
    resources needed in other parts of the body to
    the extracellular compartment.
  • Processes may be passive (do not require ATP) or
    active (do use ATP).

56
Passive Transport Processes
  • Remember No Energy Required!
  • 4 Passive Processes
  • Diffusion
  • Facilitated Diffusion
  • Osmosis
  • Filtration

57
Diffusion
  • Kinetic movement of molecules from higher to
    lower concentration via concentration gradient-
    the difference between the concentration of one
    area and the concentration of another.
  • Will continue until the molecule is evenly
    dispersed throughout the solution
  • Determining factors for Diffusion thru a
    membrane
  • 1. Molecular size small can move through
  • 2. Lipid solubility lipids can pass lipid
    bilayer
  • 3. Molecular charge ions move through special
    channel proteins
  • 4. Temperature faster in hot solution

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Facilitated Diffusion
  • Selective carrier proteins assist in movement of
    molecules from higher to lower concentration
    speed of diffusion is limited by saturation of
    carrier molecules.

60
  • http//www.wisc-online.com/objects/ViewObject.aspx
    ?IDAP11103

61
Osmosis
  • Passive movement of water through a semipermeable
    membrane from dilute solution to more
    concentrated one.
  • Opposite of diffusion as water, not solute is
    moving. Also requires semipermeable membrane.

62
Filtration
  • Hydrostatic pressure (caused by the beating
    heart) forces liquid and small molecules through
    a membrane.
  • Liquids pushed through a membrane when the
    pressure on one side is greater than that on the
    other side.
  • Example?
  • http//www.wisc-online.com/objects/ViewObject.aspx
    ?IDAP11103

63
Tonicity Terminology
  • Isotonic Extracellular fluid has same
    concentration of dissolved substances as
    intracellular fluid
  • Hypotonic Cytoplasm (inside) of cell is more
    concentrated than extracellular (outside) fluid
  • Hypertonic Extracellular fluid is more
    concentrated than cytoplasm

64
Active Transport Processes
  • Remember Requires Energy (ATP)!
  • Relies on a carrier protein with a specific
    binding site
  • Does not require a concentration gradient
  • Symport system substances are moving in the
    same direction
  • Antiport system substances are moved in
    opposite directions
  • Include
  • Active Transport
  • Endocytosis
  • Phagocytosis
  • Pinocytosis
  • Receptor mediated
  • Exocytosis

65
Active Transport
  • Active movement of molecules by specific carrier
    protein molecules may move against concentration
    gradient.

66
Endocytosis
  • Phagocytosis
  • Cells engulf solid substances
  • Pinocytosis
  • Cells engulf liquid substances
  • Receptor mediated
  • Specialized protein receptors bind to ligands
    specific receptors.
  • Ligand-small molecules that bond to larger
    chemical groups or molecules.

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Exocytosis
  • Excretion of waste products and secretion of
    manufactured substances.
  • Packaged in secretory vesicles which fuse with
    cell membrane and are ejected to extracellular
    space.

69
Life Cycle of the Cell
  • Two types of division of cells.
  • Meiosis- Reduction division
  • Found in reproductive cells. End up with half of
    what start with.
  • Mitosis- exact replication of cell.
  • We will focus mainly on Mitosis for this chapter.

70
Mitosis
  • Life cycle has been divided into two major
    periods
  • Interphase
  • When cell is growing, maturing, and
    differentiating.
  • Cells spend majority of time in this phase.
  • Mitotic Phase
  • When cell is actively dividing.
  • Composed of
  • Prophase
  • Metaphase
  • Anaphase
  • Telophase

71
Interphase
  • Period between cell divisions.
  • Nucleus and nucleoli are visible and chromatin is
    arranged loosely throughout the nucleus.
  • Divided into three subphases
  • Growth 1 (G1)- metabolic activity and cell
    growth time variable (min-yrs) depending on cell
    type
  • Synthetic (S)- DNA replication
  • Growth 2 (G2)- very brief synthesis of enzymes
    and proteins needed for mitosis

72
DNA Replication
  • Many cells are continually replicating to
    maintain body tissues, to heal wounds, or to
    enable growth
  • DNA must be replicated before the cell can divide
    a copy of DNA is made to be passed to the
    daughter cell
  • Occurs during Interphase

73
DNA Replication
  • Process
  • Enzymes called DNA helicases pull apart the
    parental DNA double helix so the bases no longer
    form base pairs
  • Next, enzymes called DNA polymerases move along
    each separated parental DNA strand and match each
    base on the strand with free nucleotides that
    have a complimentary base (an A is matched with a
    T)
  • Then, DNA polymerase connects the free
    nucleotides together to form new DNA strands
  • When replication is complete, the parental strand
    and the new strand wind together to form a double
    helix
  • The lead strand, is made continuously the second
    (lagging) strand is made in segments, and
  • DNA ligase joins the segments
  • The identical DNA strands become chromatids,
    joined together at the centromere to form a
    chromosome

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Lead and Lagging Strands
77
Mitotic Phase- Cell Division
  • Cytokinesis- division of the cytoplasm.
  • Prophase
  • Chromatin coils and are composed of two identical
    chromatids
  • Spindle apparatus appears
  • Normal synthetic processes cease.
  • Nuclear envelope disintegrates

78
  • Metaphase
  • Chromosomes are lined up in center of spindle.
  • Centromere of each chromosome is attached to a
    spindle fiber.

79
  • Anaphase
  • Centromeres split apart and each chromatid
    becomes its own chromosome.
  • Spindle fiber separates, and chromosomes are
    pulled away from each other.
  • Cytoplasm constricts along metaphase plate.

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  • Telophase
  • Final stage of mitosis
  • When chromosomal movement stops
  • Chromosomes reach poles and begin to unravel.
  • New nuclear envelope appears as well nucleoli.
  • Cytokinesis ends telophase.
  • New daughter cells enter interphase.

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Control of Cell Division
  • Some cells divide rapidly others not so fast.
  • Examples of each
  • Normal cells stop dividing when they come into
    contact with surrounding cells.
  • Called Contact inhibition
  • Division can be controlled once numbers reach a
    certain point.
  • Proteins can also allow cells to enter mitotic
    phase

83
Protein Synthesis
  • Protein synthesis is essential for life.
  • Begins in nucleus
  • tRNA transcribes DNA information
  • Transcription-Genetic information in DNA is
    copied onto messenger RNA (mRNA)
  • Codon- series of 3 RNA nucleotides.
  • mRNA sends information to cytoplasm
  • Translation- Ribosomes bind to mRNA strand
    (rRNA).
  • New protein building as codes are translated from
    nucleotides to amino acids

84
Genetic Mutations
  • A genetic error.
  • Mutations may be so severe that cell dies, but
    may also cause no issues whatsoever.
  • Some can be repaired by repair enzymes.
  • May occur spontaneously or due to mutagens.
  • Viruses
  • Ionizing radiation
  • Certain chemicals
  • What is cancer?
  • What is chemotherapy?

85
Cell Differentiation and Development
  • Differentiation- The progressive acquisition of
    individual characteristics by cells to enable
    them to perform different functions.
  • Differentiation is important as it keeps cells
    focused on a particular function.

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  • http//www.youtube.com/watch?vdA5RfoGiupM
  • http//www.youtube.com/watch?vy8gZCTjAbVsfeature
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