The Cell - PowerPoint PPT Presentation

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The Cell

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The Cell The stuff that has been boring you for years! (Brought to you by the people who make learning mandatory so that we can keep our jobs and have summer off!) – PowerPoint PPT presentation

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Title: The Cell


1
The Cell
  • The stuff that has been boring you for years!
  • (Brought to you by the people who make learning
    mandatory so that we can keep our jobs and have
    summer off!)

2
The Basics Prokaryote vs. Eukaryote
  • Pro bacteria, archaebacteria, no true nucleus,
    lacks nuclear envelope, Genetic Material in
    nucleoid region, no membrane bound organelles,
    0.1-10 µm
  • Euk Protista, Fungi, Plantae, Animalia, true
    nucleus, bounded by nuclear envelope, genetic
    material within nucleus, contains cytosol and
    membrane bound organelles, 10-100.0µm

3
Membrane Structure
  • Plasma membrane is boundary between living and
    nonliving, 8nm thick, controls chemical traffic,
    selectively permeable
  • Made of amphipathic phospholipids, means
    hydrophilic and hyrdrophobic region present

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5
Fluid Mosaic Membrane
  • Membrane held together by weak hydrophobic
    interactions
  • lipids and proteins drift w/in membrane
  • must be fluid to work properly, moderated by
    cholesterol

6
  • membrane less fluid at warmer T by restraining
    movement of phospholipids
  • at low T, prevent packing of phospholipids
  • Membrane is a mosaic of diff proteins embedded an
    dispersed in a phospholipid bilayer

7
  • Integral proteins transmembrane,
  • peripheral proteins attached to membrane
    surface
  • Protein functions channels, transport,
    recognition, adhesion, receptor, electron
    transport
  • Distinct directional orientation
  • Carbohydrates on exterior, proteins also have
    directional orientation

8
  • Cholesterol provide rigidity in animal cells,
    sterols in plants
  • Glycolayx carbohydrate coat covering outer
    plasma membrane, markers for cell to cell
    recognition

9
Organelles Cell Structures
  • Know the following structures and organelles.
  • Nucleus, nuclear envelope, ribosome, Endoplasmic
    reticulum, golgi apparatus, lysosome, peroxisome,
    mitochondria, chloroplast, cell walls, vacuoles,
    vessicles,

10
Cytoskeleton
  • Structural support for motility and regulation
  • Allows cell to change shape
  • mechanically transmits signals from surface to
    interior
  • constructed from three types of fibers
  • microtubules (thick)
  • microfilaments(thin)

11
  • Intermediate fibers

12
Microtubules
  • Found in Eukaryotic Cells, hollow, straight,
    constructed of globular protein called tubulin,
    reinforce cell shape
  • Tracks for organelle movement by motor molecules

13
  • Separate chromosomes during cell division
  • Centrosomes, centrioles, cilia, flagella

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15
Centrosomes and Centrioles
  • Centriole pair of cylindrical structures located
    in centrososme, composes of nine sets of triplet
    microtubules arranged in a ring, replicate during
    division

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17
Cilia and Flagella
  • May propel, or draw fluid across membrane
  • extension of plasma membrane with core of
    microtubules, 9 2 pattern, identical to
    centrioles, anchored by basal body
  • Use ATP to power dynein movement

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20
Microfilaments
  • Solid rods of globular protein (actin) wound into
    helix
  • Provide cellular support, bear tension, aide in
    muscle contraction (myosin), cytoplasmic
    streaming, and localized contraction for the
    cleavage furrow during cell division

21
Intermediate filaments
  • Composed of Keratin, more permanent the
    microtubules and microfilaments
  • Bear tension, framework for cytoskeleton, fix
    organelle position (nucleus)

22
Cell Junctions
  • Anchor cells to one another, provide passageway
    for exchange of nutrients and wastes
  • Desmosomes protein attachments between animal
    cells, like a spot weld
  • Tight Junctions stitched seams in animal cells,
    no movement between, digestive system

23
Cell Junctions Continued
  • Gap Junctions narrow tunnels, animal cells,
    consist of proteins called connexons, prevent
    cytoplasm from mixing, but allow ions to pass
  • Plasmodesmata plant cells, desmotubule (from
    ER) surrounded by cytoplasm passes through

24
Movement of Materials.Bio Again
  • You need to know
  • Selectively permeable membrane, osmosis,
    diffusion, facilitated diffusion, active
    transport, Endo and Exocytosis (including
    pinocytosis and phagocytosis), protein pumps
  • New stuff I will teach you
  • Dialysis diffusion of solutes across a
    selectively permeable membrane, passive transport

25
Movement of Materials continued
  • Plasmolysis the movement of water out of the a
    cell that results in the collapse of the cell,
    passive
  • Countercurrent exchange diffusion between two
    regions, like gills and fish blood stream, heat
    in ducks in legs and body, passive
  • Receptor-mediated endocytosis active, specific
    molecules bind to specialized receptors, form
    ligands in the pit. Proteins that transport
    cholesterol and hormones

26
Veggin Out Photosynthesis
  • Photosynthesis transforms solar light energy
    trapped by chloroplasts into chemical bond energy
    stored in sugar and other organic molecules,
    exergonic redox reaction
  • Autotrophic nutrition making organic molecules
    from inorganic raw materials, called producers,
  • Photoautotrophs Use light as E source
  • Chemoautotrophs use the oxidation of inorganics
    (S or Ammonia) as source, bacteria

27
Choloroplast
  • Where light dependent and independent take place
  • Chlorophyll green pigment, color and
    absorption, in mesophyll, in thylakoid membranes
  • Stroma fluid outside thylakoid

28
Noncyclic Photophosphorylation
  • Photophosphorylation process of making ATP using
    E from light (the light dependant reaction)
  • Check the diagram and try to remember.

29
Calvin- Benson Cycle
  • Uses ATP and NADPH to reduce CO2 to sugar
  • Light Independent

30
The Production of ATP
  • Chemiosmotic Theory mechanism by which ADP is
    phosphorylated to ATP
  • Specifically coupling of exergonic electron
    flow down electron transport chain to endergonic
    AP production by the creation of a proton
    gradient across a membrane. Proton gradient
    drives ATP synthesis as protons diffuse back
    across membrane.

31
Chemiosmotic Theory
  • H protons accumulate inside thylakoids
  • ETC in a membrane translocate protons across the
    membrane as electrons pass through a series of
    carriers that are progressively more
    electronegative
  • ATP Synthase generate ATP

32
C4 Photosynthesis
  • Higher rate than C3, less water loss, for plants
    in hot, dry climates. Sugarcane and crab grass
  • Instead of PGA, form OAA (oxaloacetate), a 4
    carbon atom, converted to malate, then to
    pyruvate

33
CAM Photosynthesis
  • Crassulacean acid metabolism (CAM), similar to C4
  • Happens during day when stomata closed, low water
    loss, succulents like cacti
  • OAA to malic acid, back to OAA, then finishes
    Calvin cycle

34
The ultimate movement of materialsCellular
Respiration
  • Extracting stored E from glucose to form ATP,
    called aerobic respiration
  • Glycolysis, Krebs cycle, and oxidative
    phosphorylation
  • Production of 36 ATP from one glucose
  • Anaerobic respiration without oxygen, Alcoholic
    fermentation, lactic acid fermentation

35
Cell-Cell Recognition
  • Basis for
  • sorting of embryos cells into tissues and organs
  • rejection of foreign cells by immune system
  • Recognize by carbs
  • branched oligosaccharides bonded covalently to
    lipids and proteins

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38
Cell Communication
  • Communicating cells may be close or far apart,
    communicate by local regulators or hormones
  • Three stages of cell signaling
  • Reception
  • Transduction
  • Response

39
Signal Reception
  • Chemical signals bind to specific receptors
    (receptor protein)
  • Signal molecules complement to specific region or
    receptor protein
  • signal behaves as ligand (small molecule to large
    molecule)
  • Signal receptors are plasma mem. proteins

40
Signal Transduction Pathways
  • Pathways relay signals from receptors to cellular
    responses
  • Chain of reactions
  • Information is passed along, passes along info
    not molecule
  • second messengers Cyclic AMP, Ca ions

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43
Cellular Responses to Signals
  • In response to signal, cell may regulate activity
    in cyto or transcription in nucleus
  • Pathways amplify and specify responses
  • cAMP few to many
  • target cells with receptor bind to specific
    signaling molecule

44
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45
Regulation of Cell Cycle
  • Controlled by a clock-
  • Internal and external cues regulate
  • Chemical-nutrients, growth factors
  • Physical-density-dependent inhibition

46
  • Cancer cells have escaped from cycle controls

47
Cancer
  • Do not stop due to density inhibition
  • Make growth factors themselves, is abnormal
    signal
  • Divide indefinitely as long as nutrients are
    available, normal 20-50 times
  • Stop dividing at random points
  • Immune system normally recognizes

48
  • If avoid regulation, from tumor, unregulated mass
    of normal tissue
  • Benign tumor remain at this original site and
    can be completely removed
  • Malignant tumor invasive, impair normal function
    of organs, cancer

49
Properties of Malignant tumors
  • Anomalous cell cycle,
  • Unusual chromosome
  • Lost attachment to neighboring cells, may cause
    separation from original tumor
  • Migrating cells invade other parts of body, form
    more tumors
  • Spread is call metastasis
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