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Cells Chapter 3

Cells Chapter 3. Cellular Basis of Life. Structural units of all living things Human adult has around 75 trillion cells Cells are 60% water, and bathed in a dilute saltwater solution (interstitial fluid) Cell Theory Cell is the basic structural and functional unit of living organisms

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Cells Chapter 3

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  1. Cells Chapter 3

  2. Cellular Basis of Life • Structural units of all living things • Human adult has around 75 trillion cells • Cells are 60% water, and bathed in a dilute saltwater solution (interstitial fluid) • Cell Theory • Cell is the basic structural and functional unit of living organisms • Activity of an organism depends on activities of cells • Biochemical activities of cells are dictated by the relative number of their subcellular structures • Continuity of life has a cellular basis Cell Properties = Properties of Life!

  3. Anatomy of a Generalized Cell • Cells are not all the same! • Generalized cell – demonstrates functions common to all cells • All cells have three main regions: Nucleus Cytoplasm Cell membrane

  4. Cell Nucleus • “headquarters” or control center of cell • Contains DNA • Instructions for building proteins • Necessary for cell reproduction • Conforms to shape of cell • Three regions/structures • nuclear envelope (double layer) • nucleolus (nucleoli) • RNA + protein • site of ribosome production • Chromatin (DNA + protein) • Form chromosomes

  5. Plasma Membrane • Selectively permeable • Composed of lipids, proteins, and carbohydrates in a phospholipid bilayer Fluid Mosaic Model

  6. Plasma Membrane LINK • Phospholipids • heads = hydrophilic, tails = hydrophobic • O2 & CO2 can pass through easily, others cannot • Impermeable to water soluble molecules • Cholesterol embedded in the bilayer – helps with structural stability

  7. Plasma Membrane • Proteins have many functions! • Receptor proteins • Receive hormones/chemical messengers • Form pores • Water & water soluble molecules to pass through • Selective channels • Transport specific ions • Glycoproteins form recognition sites (marker) • Cell identification! • Glycocalyx: sticky surface of cell due to sugars

  8. Carbohydrates (glycoproteins)

  9. Membrane Junctions • Some cells loose in body (blood cells, sperm, phagocytic cells) • Cells bound together in three ways: • Glycoproteins in glycocalyx act as adhesive • Wavy contours of membranes of adjacent cells fit in tongue-and-groove fashion • Special membrane junctions are formed (vary structurally depending on function!) • Tight: impermeable, leakproof, prevent substances from passing through (like a zipper) • Desmosomes: anchoring junctions (like rivets), prevents cells from being pulled apart • Gap junctions: allow communication

  10. Cytoplasm • Cellular material outside the nucleus and inside the plasma membrane • “factory area” where cellular activity takes place • 3 elements: • Cytosol (fluid that suspends elements) • Organelles (metabolic machinery of cell) • Inclusions (chemical substances present based on the different type of cell) • i.e. lipid droplets in fat cells, glycogen granules in liver/muscle cells, pigments in hair & skin cells, mucus, etc.

  11. Organelles Pg. 68-71 Link

  12. Cell Extensions Cilia Flagella

  13. Cell Diversity STRUCTURE DETERMINES FUNCTION • Over 200 different cell types in the human body • Cells differentiate in development • Vary in size, shape, and function

  14. Cell Diversity Rough ER and Golgi apparatus Fibroblasts No organelles Nucleus Erythrocytes (a) Cells that connect body parts Figure 3.8a

  15. Cell Diversity Epithelial cells Nucleus Intermediate filaments (b) Cells that cover and line body organs Figure 3.8b

  16. Cell Diversity Skeletal musclecell Nuclei Contractile filaments Smooth musclecells (c) Cells that move organs and body parts Figure 3.8c

  17. Cell Diversity Fat cell Lipid droplet Nucleus (d) Cell that stores nutrients Figure 3.8d

  18. Cell Diversity Macrophage Lysosomes Pseudopods (e) Cell that fights disease Figure 3.8e

  19. Cell Diversity Processes Nervecell RoughER Nucleus (f) Cell that gathers information and controls body functions Figure 3.8f

  20. Cell Diversity Sperm Flagellum Nucleus (g) Cell of reproduction Figure 3.8g

  21. Cell Physiology: Membrane Transport • Movement of substances into and out of the cell • Cell membranes are selectively permeable • Some substances can pass through but others cannot (only healthy/unharmed cells!) • Due to phospholipidbilayer • Two basic methods of transport: • Passive process (no energy required) • Active processes (cell must provide metabolic energy (ATP) ATP

  22. Membrane Transport • Passive mechanisms • Simple diffusion • Osmosis • Facilitated diffusion • Filtration • Active mechanisms • Active transport (solute pumping) • Vesicular transport • Exocytosis • Endocytosis

  23. Passive Transport: Diffusion • Molecules and ions move away from a region where they are more concentrated to a region where they are less concentrated • Concentration gradient (rate affected by differences in concentration) • Powered by kinetic energy (rate of diffusion affected by size of particles & temperature) • Phospholipids control diffusion through membrane. Molecules diffuse if: • Small enough to pass through pores formed by proteins (simple) • Lipid soluble (simple) • Assisted by a membrane carrier

  24. Extracellular fluid Passive Transport: Diffusion Water molecules Lipid- soluble solutes • Simple diffusion: unassisted diffusion of solutes through a selectively permeable membrane • Lipid-soluble (fats, fat-soluble vitamins, O2, CO2) • Pass through membrane pores (small ions such as Cl-) • Osmosis: diffusion of water through selectively permeable membrane • Passes through aquaporins protein (channels) Lipid bilayer Cytoplasm (a) Simple diffusion of fat-soluble molecules directly through the phospholipid bilayer (d) Osmosis, diffusion of water through a specific channel protein (aquaporin) or through the lipid bilayer

  25. Osmosis

  26. hypotonic hypertonic

  27. Passive Transport: Diffusion • Facilitated diffusion • Passage of lipid-insoluble and large molecules (i.e. glucose) • Uses protein carriers or channels • Down concentration gradient • Filtration • Water and solutes forced through a membrane (or capillary wall) by fluid (hydrostatic) pressure • Move down pressure gradient • Solute-containing fluid (filtrate) • Not selective (blood cells & proteins too large) • i.e. kidneys

  28. Excretion

  29. Active Transport • Cell uses ATP supply to move substances across the membrane • Substances too large for channels, membrane lacks protein carriers for them, not lipid-soluble, or against concentration gradient • Solute pumping (active transport) : require protein carriers (solute pumps powered by ATP) • Very specific • Amino acids, most ions, some sugars, sodium-potassium pump

  30. Active Transport: Vesicular Transport • Uses ATP to move substances into or out of cells without their actually crossing the plasma membrane • Exocytosis: moves substances out of cell • Secrete hormones, mucus, and other cell products or eject cellular wastes (i.e. secretory cells, nerve cells) • Packaged in golgi into a vesicle • Endocytosis: moves substances into cell • Engulf extracellular substances by enclosing them in small vesicle, digested by lysosomes • Phagocytosis: use pseudopods (phagocytes) – protective mechanism (i.e. macrophages, neutrophils) • Pinocytosis: cell “gulps” droplets of ECF (absorption, i.e. small intestine) Phagocytosis

  31. Exocytosis

  32. Endocytosis

  33. Cell Cycle • Series of changes a cell goes through from the time it is formed until it divides • Two periods: • Interphase (“living”): cell grows & carries on usual metabolic activities • DNA replication occurs (S phase) • Cell division: reproduction of the cell

  34. Cell Division • Mitosis • Prophase • Metaphase • Anaphase • Telophase • Cytokinesis • Division of cytoplasm • Liver (binucleate and multinucleate cells due to no cytokinesis)

  35. Cell Differentiation • Process by which cells develop different characteristics in structure & function • 200 different cell types!

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