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Cellular Level of Organization

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Title: Cellular Level of Organization


1
Cellular Level of Organization
2
Cells
  • There are approximately 200 different types of
    cells that make up the basic structures of the
    human body.
  • Cell division creates new cells. A parent cell
    divides into two new daughter cells.
  • Different types of cells carry out different
    functions in the body.

3
Parts of a Cell
  • Plasma membrane
  • Cytoplasm
  • Cytosol
  • Organelles
  • Nucleus
  • Chromosomes
  • Genes

4
3 main parts of a cell
  • Plasma membrane the cells flexible outer
    surface.
  • Cytoplasm all the cellular contents between the
    plasma membrane and the nucleus.
  • Nucleus a large organelle that houses most of
    the cells DNA. Chromosomes and genes are
    contained here.

5
Typical Structures
6
Plasma Membrane
  • A flexible, yet sturdy barrier that surrounds and
    contains the cytoplasm of a cell.
  • Fluid mosaic model.
  • Lipid Bilayer
  • Membrane proteins
  • Membrane Permeability Selective

7
Plasma Membrane continued
  • Gradients
  • Concentration
  • Electrochemical
  • Osmosis
  • Diffusion
  • Active Transport

8
Lipid Bilayer
  • Phospholipids 2 layers
  • Amphipathic polar and nonpolar
  • Hydrophilic
  • Hydrophobic

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Membrane Proteins
  • Integral Proteins extend into or through the
    lipid bilayer.
  • Transmembrane proteins
  • Peripheral Proteins attached to either the
    inside or outside of the membrane.

11
Functions of Membrane Proteins
  • Ion channel
  • Transporter
  • Receptor
  • Enzyme
  • Cell Identity Marker
  • Linker

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Membrane Permeability
  • Selectively Permeable
  • Permeable to nonpolar, uncharged molecules, such
    as oxygen, carbon dioxide, steroids.
  • Impermeable to ions and charged or polar
    molecules, such as glucose.
  • Slightly permeable to water and urea.

14
Gradients
  • Concentration Gradient A difference in the
    concentration of a chemical from one place to
    another.
  • Electrochemical Gradient The combination of the
    effects of the concentration gradient and the
    membrane potential.

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Transport Across the Membrane
  • Passive Transport does not require cellular
    energy.
  • Substances move down their concentration or
    electrochemical gradients using only their own
    kinetic energy.
  • Active Transport requires cellular energy in
    the form of ATP.

17
3 Types of Passive Transport
  • Diffusion through the lipid bilayer.
  • Diffusion through membrane channels.
  • Facilitated diffusion.

18
Endocytosis
  • Material enters the cell in vesicles.

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Exocytosis
  • Material leaves the cell in vesicles.

21
Diffusion
  • Materials diffuse from areas of high
    concentration to areas of low concentration.
    They move down their concentration gradient.
  • Equilibrium molecules are mixed uniformly
    throughout the solution.

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Factors Influencing Diffusion
  • Steepness of the concentration gradient.
  • Temperature.
  • Mass of the diffusing substance.
  • Surface Area.
  • Diffusion distance.

24
Osmosis
  • The net movement of a solvent (water) across a
    selectively permeable membrane.
  • Water moves from an area of higher water
    concentration to an area of lower water
    concentration.

25
Osmotic Pressure
  • A solution containing solute particles that
    cannot cross the membrane exerts a force called
    osmotic pressure.
  • The greater the number of solute particles the
    greater the pressure.

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Tonicity
  • A solutions tonicity measures the solutions
    ability to change the volume of cells by altering
    their water content.
  • Isotonic cell maintains shape
  • Hypotonic cell swells and bursts
  • Hypertonic cell shrinks - crenation

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Cytoplasm
  • 2 components
  • Cytosol fluid portion that surrounds
    organelles.
  • 55 of total cell volume
  • Water with dissolved and suspended components
  • Ions, glucose, amino acids, fatty acids,
    proteins, lipids, ATP, and waste products.
  • Organelles specialized structures
  • Specific shapes
  • Specific functions

30
Cytoskeleton
  • Network of protein filaments.
  • Structural framework for the cell.
  • 3 Types of filaments
  • Microvilli small increase surface area
  • Intermediate filaments
  • Microtubules largest in cilia and flagella
    participate in cell division.

31
Centrosome
  • Located near the nucleus
  • Plays a critical role in cell division

32
Cilia and Flagella
  • Comprised of microtubules.
  • Cilia short, hairlike projections that extend
    from the surface of the cell.
  • Line respiratory tract
  • Movement is paralyzed by nicotine
  • Flagella longer than cilia
  • Usually move an entire cell
  • Sperms tail

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Ribosomes
  • Sites of protein synthesis
  • Free Ribosomes located in cytosol
  • Attached to nuclear membrane and ER
  • In mitochondria

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Endoplasmic Reticulum ER
  • Plasmic cytoplasm reticulum network
  • Network of folded membranes
  • Transports substances throughout cell
  • Rough ER ribosomes attached synthesizes
    proteins
  • Smooth ER synthesizes fatty acids and steroids

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Rough ER
42
Smooth ER
43
Golgi Complex
  • Consists of 3 20 golgi cisternae (membranous
    sacs)
  • Modifies, sorts, and packages proteins for
    distribution
  • Proteins leave through secretory vesicles,
    membrane vesicles, or transport vesicles.

44
Lysosomes
  • Lyso dissolving somes bodies
  • Contain powerful digestive enzymes and hydrolytic
    enzymes
  • Lysosomal enzymes can destroy their own cell
    autolysis (due to pathology)

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Lysosome
47
Mitochondria
  • Generate ATP powerhouses of the cell

48
Mitochondrian with Matrix
49
Mitochondria
50
Nucleus
  • Spherical or oval shaped
  • Most prominent feature in the cell
  • Most structures have a single nucleus, although
    mature RBCs have none
  • Contain genes arranged in chromosomes
  • Genome total genetic information for an organism

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Nucleus
53
Nucleus
54
Cell Division
  • Somatic Cell Division replaces dead or injured
    cells and adds new ones for growth.
  • Mitosis
  • Produces 2 identical daughter cells
  • Reproductive Cell Division produces gametes
    sperm and oocytes.
  • meiosis

55
Cell Cycle
  • 2 major phases
  • Interphase the cell is not dividing
  • Mitotic phase the cell is dividing

56
Interphase
  • The cell replicates its DNA during this phase.
  • Produces additional organelles and cytosolic
    components.

57
Mitotic Phase
  • Nuclear Division Mitosis
  • Cytoplasmic Division - Cytokinesis

58
Mitosis
  • Prophase
  • Chromatin fibers condense and shorten.
  • Metaphase
  • The microtubules align the centromeres of the
    chromatid pairs.
  • Anaphase
  • The centromeres split separating the two members
    of each chromatid pair.
  • Telophase
  • Identical chromosomes uncoil and a nuclear
    envelope forms around each mass.

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Cytokinesis
  • Division of the parent cells cytoplasm and
    organelles into two daughter cells.

61
Cellular Diversity
  • The body of an average human adult is composed of
    nearly 100 trillion cells.
  • Approximately 200 different types.
  • The largest cell is the oocyte

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