Cell Biology PDF Notes

Summary

These notes provide a detailed overview of cell components, including the cytoskeleton (microtubules, centrioles, cilia, flagella), filaments (microfilaments, intermediate filaments, thick filaments), and stored food within the cell. The information is presented in a clear and concise manner.

Full Transcript

# Cytoskeleton
- **Microtubules**
- Non-branching and rigid hollow fine tubes formed of a protein called tubulin.
- Difficult to see by light microscopy except by using special stains.
- Diameter: 20-25 nm, appear as fine tubules.
- Length: can be changed by adding or removing tubulin molecules at their end.
- Functions:
- Maintenance of cell shape, e.g. platelets.
- Intracellular vesicular transport.
- Formation of the mitotic spindle during cell division.
- Elongation and movement of the cell.
- Formation of centrioles, cilia, and flagella.
- **Centrioles**
- Derived from the microtubules.
- Responsible for cell division.
- Absent in non-dividing cells, e.g. red blood cells and nerve cells.
- Visible by light microscopy as dark paired short rods or dots after staining with iron hematoxylin.
- Appear as two short hollow cylinders (0.5 x 0.2 µm) perpendicular to each other.
- The wall of each centriole is formed of 9 bundles.
- Each bundle consists of 3 microtubules (triplet).
- Site: Usually present near the nucleus in an area called the centrosome.
- Functions:
- Share in the formation of the mitotic spindle during cell division.
- Responsible for the formation of cilia and flagella.
# Cilia & Flagella
- **Cilia:**
- Motile hair-like processes projecting over the cell surface, capable of moving fluids and particles along the surface.
- Appear as short, fine, hair-like structures arising from the free surface of the cell, giving it a brush border.
- Each cilium consists of three parts:
- A finger-like projection over the cell surface covered by cell membrane.
- Contains nine doublets and two single microtubules (9 x 2 + 2 = 20).
- A basal body which is similar to a centriole in structure, formed of nine triplets (9 x 3 = 27).
- Formed of nine single microtubules (9 x 1 = 9), which are present below the basal body.
- Functions:
- Move in wave-like manner to move secretions or particles over the tissue surface, e.g. in the respiratory system and female genital system.
- Can modify and act as receptors for stimuli, e.g. in rods and cones in the retina they receive light.
- **Flagella:**
- A long, whip-like filament extending from the cell, forming a tail.
- Example: Sperm tail.
# Development Of Cilia
- Cilia develop from a centriole, first by replication of it to give “baby centrioles”, one for each cilium. Each baby centriole moves toward the surface of the cell to become the basal body from which a cilium can grow.
- The basal body is similar to a centriole in structure: nine triplets of microtubules.
- Two inner microtubules (doublet) grow upwards from each triplet, pushing in front of them the free surface of the cell membrane.
- At the same time, two single microtubules grow in the center (9 x 2 + 2 = 20), this part is called the shaft of the cilium.
- The third outer microtubule of each triplet of the basal body goes downwards forming the rootlets of the cilium, which fix it (9 x 1 = 9).
# The Structure Of Centrioles
- They have nine triplets of microtubules.
- They have radial connecting fibers.
# Filaments
- Minute threads that act as part of the cytoskeleton, which maintains the shape of the cell.
- **Microfilaments**
- Also known as thin filaments.
- Formed of the protein called **actin**.
- Diameter: 6 nm
– Found in: Muscles and microvilli.
- Function: Form a supporting network within the cell that helps to maintain its shape.
- **Intermediate filaments:**
- Diameter: about 8 - 10 nm.
- Found in: There are about 50 different types of intermediate filaments in humans.
- **Cytokeratin:** Present in epithelial cells.
- **Vimentin:** Present in connective tissue and muscles.
- **Desmin:** Present in muscles.
- **Neurofilaments:** Present in nerve cells.
- **Glial filaments:** Present in glial cells.
- **Thick filaments:**
- Diameter: about 15 nm.
- Formed of the protein called **myosin**.
- Found in: Skeletal muscle.
# Cell Inclusions
- Non-living, temporary structures not essential for the vitality of the cell.
- They are no more than stored substances within some cells, e.g. glycogen, fat, and pigments.
- **Stored Food**
- Carbohydrates:
- Stored in the form of glycogen.
- Found in liver and muscles.
- Cannot be demonstrated by hematoxylin and eosin (H&E) as it’s water-soluble.
- Can be seen if stained by special stains such as Best’s Carmine (red) or Periodic Acid Schiff (PAS) (purple).
- Lipids:
- Stored in the form of small droplets or large globules.
- Found in fat cells (the main site for storage of lipids), other cells like liver cells may contain fat.
- Cannot be demonstrated by hematoxylin and eosin (H&E) as it dissolves in xylol (a solvent).
- Can be stained orange by Sudan III and black by Sudan Black.
- **Pigments**
- **Endogenous:** Produced by the cell:
- **Hemoglobin:** Present in red blood cells to carry gases.
- **Melanin:** Gives the skin and hair their color.
- **Lipofuscin:** Accumulated residual bodies in long-lived cells like nerve cells and cardiac muscles.
- **Exogenous:** Enter the cell from outside:
- **Carotene:** Found in carrots and gives fats in cells their color.
- **Dust and carbon particles:** Blacken the lungs.