1. Cell Membranes
Dr. Nabil Khouri

2. Cell Cytoskeleton The “skeleton” on the cell
Dynamic, elaborate series of rods running through the cytosol
Consists of microtubules, microfilaments, and intermediate filaments

3. Cytoskeleton

4. 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

6. Actin felaments Within the cell, actin filaments, also called
microfilaments
It is thin, flexible fibers approximately 7 nm in diameter and up to several micrometers in length
Are organized into higher-order structures, forming bundles or three-dimensional networks with the properties of semisolid gels.
Actin filaments are particularly abundant beneath the plasma membrane, where they form a network that provides mechanical support, determines cell shape, and allows movement of the cell surface

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

8. Dynamic, hollow tubes made of the spherical protein tubulin
Determine the overall shape of the cell and distribution of organelles

9. Apical cell surface

11. Celia

14. Microvillus

15. Stereocilia
Stereocilia are mechanosensing organelles of hair cells, which respond to fluid motion, or changes in fluid pressure in numerous types of animals for various functions, primarily hearing.

16. A cilium can be either of two types ‘“ Motile or Nonmotile.
Motile cilia continuously move in one direction, which results in movement of cells, fluids, mucus, etc.
Non-motile cilia, on the other hand, normally function as sensory organelles.
Stereocilia are different from cilia, even though they have a similar name. In fact, they are more closely related to microvilli, and some may well consider stereocilia to be a variant of microvilli.

19. Basement membrane
Basement membrane

21. Cell Division Essential for body growth and tissue repair
Mitosis – nuclear division
Cytokinesis – division of the cytoplasm

25. Cytokinesis Mitosis Prophase Metaphase Anaphase Telophase
Cleavage furrow formed in late anaphase by contractile ring
Cytoplasm is pinched into two parts after mitosis ends

27. Early and Late Prophase
Asters are seen as chromatin condenses into chromosomes
Nucleoli disappear
Centriole pairs separate and the mitotic spindle is formed

29. Late Prophase

30. Metaphase
Chromosomes cluster at the middle of the cell with their centromeres aligned at the exact center, or equator, of the cell
This arrangement of chromosomes along a plane midway between the poles is called the metaphase plate

31. Metaphase

32. Anaphase Centromeres of the chromosomes split
Motor proteins in kinetochores pull chromosomes toward poles

33. Anaphase

34. Telophase and Cytokinesis
New sets of chromosomes extend into chromatin
New nuclear membrane is formed from the rough ER
Nucleoli reappear
Generally cytokinesis completes cell division

35. Telophase and Cytokinesis