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Golgi Apparatus

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Proteins then pass through the Golgi apparatus to the trans face ... membrane is lined with the nuclear lamina, which maintains the shape of the nucleus ... – PowerPoint PPT presentation

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Title: Golgi Apparatus


1
Golgi Apparatus
  • Stacked and flattened membranous sacs
  • Functions in modification, concentration, and
    packaging of proteins
  • Transport vessels from the ER fuse with the cis
    face of the Golgi apparatus
  • Proteins then pass through the Golgi apparatus to
    the trans face
  • Secretory vesicles leave the trans face of the
    Golgi stack and move to designated parts of the
    cell

2
Golgi Apparatus
Figure 3.20a
3
Role of the Golgi Apparatus
Figure 3.21
4
Lysosomes
  • Spherical membranous bags containing digestive
    enzymes
  • Digest ingested bacteria, viruses, and toxins
  • Degrade nonfunctional organelles
  • Breakdown glycogen and release thyroid hormone
  • Breakdown nonuseful tissue
  • Breakdown bone to release Ca2
  • Secretory lysosomes are found in white blood
    cells, immune cells, and melanocytes

5
Endomembrane System
  • System of organelles that function to
  • Produce, store, and export biological molecules
  • Degrade potentially harmful substances
  • System includes
  • Nuclear envelope, smooth and rough ER, lysosomes,
    vacuoles, transport vesicles, Golgi apparatus,
    and the plasma membrane

6
Endomembrane System
Figure 3.23
7
Peroxisomes
  • Membranous sacs containing oxidases and catalases
  • Detoxify harmful or toxic substances
  • Neutralize dangerous free radicals
  • Free radicals highly reactive chemicals with
    unpaired electrons (i.e., O2)

8
Cytoskeleton
  • The skeleton of the cell
  • Dynamic, elaborate series of rods running through
    the cytosol
  • Consists of microtubules, microfilaments, and
    intermediate filaments

9
Cytoskeleton
Figure 3.24
10
Microtubules
  • Dynamic, hollow tubes made of the spherical
    protein tubulin
  • Determine the overall shape of the cell and
    distribution of organelles

11
Microfilaments
  • Dynamic strands of the protein actin
  • Attached to the cytoplasmic side of the plasma
    membrane
  • Braces and strengthens the cell surface
  • Attach to CAMs and function in endocytosis and
    exocytosis

12
Intermediate Filaments
  • Tough, insoluble protein fibers with high tensile
    strength
  • Resist pulling forces on the cell and help form
    desmosomes

13
Motor Molecules
  • Protein complexes that function in motility
  • Powered by ATP
  • Attach to receptors on organelles

14
Motor Molecules
Figure 3.25a
15
Motor Molecules
Figure 3.25b
16
Centrioles
  • Small barrel-shaped organelles located in the
    centrosome near the nucleus
  • Pinwheel array of nine triplets of microtubules
  • Organize mitotic spindle during mitosis
  • Form the bases of cilia and flagella

17
Centrioles
Figure 3.26a, b
18
Cilia
  • Whiplike, motile cellular extensions on exposed
    surfaces of certain cells
  • Move substances in one direction across cell
    surfaces

19
Cilia
Figure 3.27a
20
Cilia
Figure 3.27b
21
Cilia
Figure 3.27c
22
Nucleus
  • Contains nuclear envelope, nucleoli, chromatin,
    and distinct compartments rich in specific
    protein sets
  • Gene-containing control center of the cell
  • Contains the genetic library with blueprints for
    nearly all cellular proteins
  • Dictates the kinds and amounts of proteins to be
    synthesized

23
Nucleus
Figure 3.28a
24
Nuclear Envelope
  • Selectively permeable double membrane barrier
    containing pores
  • Encloses jellylike nucleoplasm, which contains
    essential solutes
  • Outer membrane is continuous with the rough ER
    and is studded with ribosomes
  • Inner membrane is lined with the nuclear lamina,
    which maintains the shape of the nucleus
  • Pore complex regulates transport of large
    molecules into and out of the nucleus

25
Nucleoli
  • Dark-staining spherical bodies within the nucleus
  • Site of ribosome production

26
Chromatin
  • Threadlike strands of DNA and histones
  • Arranged in fundamental units called nucleosomes
  • Form condensed, barlike bodies of chromosomes
    when the nucleus starts to divide

Figure 3.29
27
Cell Cycle
  • Interphase
  • Growth (G1), synthesis (S), growth (G2)
  • Mitotic phase
  • Mitosis and cytokinesis

Figure 3.30
28
Interphase
  • G1 (gap 1) metabolic activity and vigorous
    growth
  • G0 cells that permanently cease dividing
  • S (synthetic) DNA replication
  • G2 (gap 2) preparation for division
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