1. Cells Chapter 3 Bio160

2. Plasma Membrane Plasma membrane – flexible yet sturdy barrier that surrounds and contains the cytoplasm of a cell. Fluid mosaic model Lipid bilayer Membrane proteins

3. Plasma Membrane Cytoplasm – Everything inside the cell including the fluid (cytosol) and organelles. The plasma membrane is selectively permeable, which means that only certain substances can enter or leave the cell

4. Transport Across Membranes ProcessEnergy SourceDescriptionExamples Passive processes Simple diffusionKinetic energyNet movement of particles (ions, molecules, etc.) from an area of their higher concentration to an area of their lower concentration, that is along their concentration gradient Movement of fats, oxygen, carbon dioxide through the lipid portion of the membrane, and ions through protein channels under certain conditions OsmosisKinetic energySimple diffusion of water through a selectively permeable membrane Movement of water into and out of cells via membrane pores

5. Transport Across Membranes Facilitated diffusionKinetic energySame as simple diffusion, but the diffusing substance is attached to a lipid- soluble membrane carrier protein Movement of glucose into cells FiltrationHydrostatic pressure Movement of water and solutes through a semipermeable membrane from a region of higher hydrostatic pressure to a region of lower hydrostatic pressure, that is along a pressure gradient Movement of water, nutrients, and gasses through a capillary wall; formation of kidney filtrate

6. Transport Across Membranes Active processes Active transport (solute pumping) ATP (cellular energy) Movement of a substance through a membrane against a concentration (or electrochemical gradient; requires a membrane carrier protein) Movement of amino acids and most ions across the membrane Bulk transport ExocytosisATPSecretion or ejection of substances from a cell; the substance is enclosed in a membranous vesicle, which fuses with the plasma membrane and ruptures, releasing the substance to the exterior Secretion of neurotransmitters, hormones, mucus, etc.; ejection of cell wastes

7. Transport Across Membranes Phagocytosis (endocytosis) ATP“Cell eating”; A large external particle (proteins, bacteria, dead cell debris) is surrounded by a “seizing foot” and becomes enclosed in a plasma membrane In the human body, occurs primarily in protective phagocytes (some white blood cells, macrophages) Pinocytosis (endocytosis) ATP“Cell drinking”; Plasma membrane sinks beneath an external fluid droplet containing small solutes; membrane edges fuse, forming a fluid-filled vesicle Occurs in most cells; important for taking in solutes by absorptive cells of the kidney and intestine

8. Transport Across Membranes Receptor-mediated endocytosis ATPSelective endocytosis process; external substance binds to membrane receptors, and coated pits are formed Means of intake of some hormones, cholesterol, iron, and other molecules

9. Tonicity Isotonic – concentrations of solutes are the same on both sides of the membrane 0.9% NaCl solution (normal physiological saline) is isotonic for red blood cells (RBC) Hypotonic – a solution that has lower concentration of solutes than the cytosol Lysis or hemolysis in RBC Hypertonic – a solution that has greater concentration of solutes than the cytosol Crenation – cell shrinkage

10. Nucleus Nucleus – control center contains chromosomes - heredity material- called chromatin when cell is not dividing nucleolus - assembly plant for ribosomes surrounded by nuclear membrane which has pores in it through which substances enter and exit

11. Ribosomes Ribosomes - contain both rRNA and ribosomal proteins functions as the workbench for protein synthesis some ribosomes are free ribosomes - no attachment to organelles - concerned primarily with synthesizing proteins for use inside cell

12. Ribosomes some ribosomes are attached to the endoplasmic reticulum (ER), hence rough ER, involved in the synthesis of proteins for insertion in the cell membrane or for export from the cell

13. Endoplasmic Reticulum Endoplasmic reticulum (ER) - system of membrane-enclosed channels continuous with nuclear membrane and Golgi complex rough ER - has attached ribosomes - proteins synthesized are stored by the ER and sugar groups may be added to form glycoproteins - then transported from ER to Golgi

14. Endoplasmic Reticulum (2) smooth ER - no ribosomes attached - provides a surface area for chemical reactions –site of steroid, fatty acid, phospholipid synthesis (ex: in testis provides surface for enzymes involved in testosterone synthesis) –site of carbohydrate synthesis, detoxification of alcohol, pesticides, carcinogens (ex: liver synthesis of glycogen) –stores Ca ++ in muscle (but called sarcoplasmic reticulum (SR) in muscle)

15. Golgi Apparatus Golgi apparatus - consists of stacks of flattened sacs (like pancakes) that can form vesicles for exocytosis, lysosomes, or for storage (vesicles are membrane bound sacs that are smaller than vacuoles) Golgi receives proteins, carbohydrates, lipids from vesicles made from ER and collects, sorts, packages as new vesicles, and delivers vesicles for storage, membrane use, or exocytosis, lysosomes

16. Lysosomes Lysosome - formed by Golgi and contain powerful digestive (hydrolytic) enzymes that: recycle monomers in a cell from polymers (proteins, carbohydrates, lipids, nucleic acids) destroy bacteria engulfed by white blood cells (WBC) when the phagocytic vesicle fuses with lysosome

17. Mitochondria Mitochondria - powerhouse of cell - double membraned - found in both animal and plant cells, but not in bacteria Major site of chemical reactions that release energy from certain nutrient molecules and transfer it to ATP, a chemical form the cell can use.

18. Cytoskeleton Cytoskeleton - elaborate network of protein structures = "bones and muscles" microfilaments - thin strands of actin - aid in cell movement (ex. amoeboid movement as in WBC), aid in cytokinesis –most highly developed in muscles

19. Cytoskeleton –provide monorail system to move organelles/vesicles microtubules - hollow tubes formed of globular proteins called tubulins –also in centrioles, cilia, spindle fibers

20. Centrosomes and Centrioles Centrioles - paired cylindrical bodies, each composed of microtubules Organize spindle fibers and asters during mitosis in animal cells (may not be necessary for this purpose because plants produce spindle fibers during mitosis but they lack centrioles) Centrosomes – a structure near the Golgi and nucleus that contains two centrioles.

21. Centrosomes and Centrioles –Having centrioles at each pole in mitosis provides a vehicle for transmission of centrioles to all cells Form the bases of cilia and flagella

22. Cilia/Flagella Cilia/Flagella - Membrane bound sets of microtubules that move by means of ATP cannot produce cilia/flagella without centrioles –Cilia – tiny, hairlike structures that fringe the surface of some cells –Flagellum – long, usually single extension, ex. tail of a sperm