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بسم الله الرحمن الرحيم

بسم الله الرحمن الرحيم. THE CELL. The cell. The cell is the basic unit of the organism. Similar or related cells are grouped to form the tissue. There are 4 basic tissues (epithelial, connective, muscular and nervous). The tissues are assembled to form the organs.

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بسم الله الرحمن الرحيم

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  1. بسم الله الرحمن الرحيم

  2. THE CELL

  3. The cell • The cell is the basic unit of the organism. • Similar or related cells are grouped to form the tissue. • There are 4 basic tissues (epithelial, connective, muscular and nervous). • The tissues are assembled to form the organs. • Organs are collected to form the systems

  4. Cytosol (cytoplasmic matrix) • It fills the spaces between the organelles and inclusions. • It contains enzymes, soluble proteins, nutrients and precursors of macromolecules. • It contains the microtubular lattice that holds the organelles in their position in the cytoplasm.

  5. Divisions of Organelles

  6. Membranous organelles • Cell membrane. • Mitochondria. • Rough-surfaced endoplasmic reticulum. • Golgi Apparatus. • Secretory vesicles. • Lysosomes and Endosomes. • Peroxisomes. • Smooth-surfaced endoplasmic reticulum.

  7. Non-membranous organelles • Free Ribosomes. • Polysomes.

  8. The Cell Membrane • 7-8 nm thick. • Not visible by light microscope (LM), but appears trilaminar membrane by EM. • Is formed from two layers separated by thin space. • Molecular components of the cell membrane: • Phospholipid and glycolipid. • Proteins: peripheral and integral. • Cholesterol. • Carbohydrate.

  9. The Cell Membrane • Maintain the structural integrity of cell. • Control movement of substances in and out of the cell. • Regulate cell-cell interaction. • Recognition of outer environments. • Interface between cytoplasm and extracellular environments. • Transport system of some molecules.

  10. The Mitochondria • By LM, appear as thin threads. • By EM, flexible rod-shaped organelles. • 0.5 - 1 x 7 micron and may reach to 2000 in one liver cell. • It has smooth outer and folded inner membranes, these folds called cristae. • Between membranes are the intermembranous space. • Matrix space lies between the cristae

  11. The Mitochondria • The matrix space contains proteins which form the enzymes responsible for Krebs cycles and degradation of fatty acids. • It also contains mitochondrial ribosomes, RNA, DNA and electron-dense matrix granules formed of calcium ions.

  12. Functions of Mitochondria • Production of energy by oxidative phosphorylation of ADP to ATP. • Regulation of calcium level in the cytoplsm.

  13. Golgi Complex • By EM, appear as parallel flattened saccules arranged in stack. The saccules are formed of smooth single membrane devoid of ribosomes. • It has cis face (facing the RER) and small transfer vesicles. • It has trans face (at the top of the satck) and large secretory vesicles. • And medial compartment between them.

  14. Functions Golgi Complex • Modification of protein synthesized in RER. • Packaging and distribution of proteins to the different secretory vesicles and lysosomes. • Sorting out the membrane constituents and regulating where they go (cell membrane or in stored vesicles.

  15. Secretory Vesicles • The trans side of the Golgi saccules distend to form presecretory granules which bud off when their contents become condensed to form the secretory vesicles. • Secretory products are released at the cell surface by exocytosis. • Some vesicles are not discharged and form lysosomes.

  16. Lysosomes • They are rounded membranous vesicles containing different types of acid hydrolases such as: sulphatases, proteases, nucleases, lipases and glycosidases. • They function in digestion macromolecules, phagocytosed microorganisms, cellular depris and aged organelles such as mitochondria and RER. • Some vesicles are not discharged and form lysosomes.

  17. PEROXISOMES • They are small spherical membranous organelles containing oxidative enzymes. • They are concerned with reactions which produce or break down hydrogen peroxide. • Hydrogen peroxide used in killing phagocytosed bacteria and breaking down fatty acids.

  18. Smooth Endoplasmic Reticulum • They are a system of anastomosing and branching membranous tubules that lack ribosomes at their external surface. • Their functions are: • Synthesis of concerned steroid, cholesterol and triglycerides. • Detoxification of drugs. • Muscle contraction (sarcoplasmic reticulum)

  19. Free Ribosomes and Polysomes • Under LM, free ribosomes appear as diffuse cytoplasmic basophilia. • They may aggregate together to form the polysomes. • They synthesize the proteins of cytoplasmic matrix and nucleus and some mitochondrial proteins

  20. Cytoskeleton • Is the internal cytoplasmic support system that controls and maintain the shape of the cell. • It consists of microtubule and filaments.

  21. Microtubules • Sites of microtubules: • Centrioles. • Cilia. • Flagella. • Mitotic spindles • Function of microtubules: • Change in cell shape. • Movement of the cell organelles and vesicles. • Control movement of chromosomes.

  22. Filaments • Types of filaments: • Thin filament: actin in muscle. • Intermediate filament: neurofilament. • Thick filament: myosin. • Function of filaments: • Give 3 dimentional support to the cell. • Allow shortening of the muscle fibers.

  23. Cytoplasmic inclusions • Stored food: • Glycogen. • Lipid. • Pigments: • Exogenous: carotine, carbon particles. • Endogenous: hemoglobin, hemosiderin, bilirubun, melanin and lipofuscin.

  24. The Nucleus • Nuclear envelop. • Nuclear chromatin. • Nucleolus.

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