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Cell Membranes

Cell Membranes. What ’ s wrong with this picture?. http://www.studyblue.com/notes/note/n/osmolality-and-osmo-gap/deck/1598495. The Plasma Membrane. Membranes. Cells separate “ inside and outside ” with lipid barriers called membranes. Organelle membranes separate too.

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Cell Membranes

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  1. Cell Membranes • What’s wrong with this picture? http://www.studyblue.com/notes/note/n/osmolality-and-osmo-gap/deck/1598495

  2. The Plasma Membrane

  3. Membranes • Cells separate “inside and outside” with lipid barriers called membranes. • Organelle membranes separate too. • Limits passage of polar substances. • Protein channels allow specific passage. BILL: What is the difference between polar and charged?

  4. What passes freely? • Small, uncharged polar molecules • Small nonpolar molecules like N2 • Model simple diffusion http://www.studyblue.com/notes/note/n/biology-172-lecture-7-flashcards/deck/124266

  5. Cell Walls • Are outside the membrane • Structural • Plant cell walls are made of cellulose • Prokaryotes and fungi also have cell walls. http://www.phschool.com/science/biology_place/biocoach/plants/walls.html

  6. Phospholipid Bilayer • This represents a phospholipid- • The tails are fatty acid, the head, phosphorylated alcohol • These form a sheet two molecules thick. Polar head-Hydrophilic-label Nonpolar tail-Hydrophobic-label http://en.wikipedia.org/wiki/Phospholipid

  7. Why the embedded cholesterol? What might a membrane in an arctic dweller look like? Increase or decrease fluidity depending on temperature.(Decreases fluidity when warm, increases fluidity when cold…keeps membranes fluid at very cold temperatures)

  8. Membrane ProteinsFunction in • Transport- • Enzyme • Surface receptors • ID Markers • Cell-cell connection • Attachment http://www.pc.maricopa.edu/Biology/pfinkenstadt/BIO201/201LessonBuilder/UnitOne/Membrane/index.html

  9. Embedded Proteins • Can be hydrophilic with charges and polar side groups or… • Hydrophobic, with nonpolar Place your proteins in the membrane. http://www.uic.edu/classes/bios/bios100/lecturesf04am/lect08.htm

  10. Anchoring in the membrane What could keep proteins in the membrane?

  11. Transmembrane Proteins • Carriers- change shape • Active and passive transport • Sodium potassium pump • Channels- • are tunnels through the hydrophobic core • Receptors • Transmit information from the outside of the cell • Hormone receptors, neurotransmitters.

  12. What needs a channel? Hydrophilic substance like large polar molecules and ions http://www.cipsm.de/en/publications/researchAreaF/2007/index.html

  13. Carrier proteins Have you seen shape changes before? • Holds ion or molecule • Changes shape • To move something across the membrane Green ball is one K+ in a potassium pump Campbelll p 125 8th edition.

  14. Aquaporins • Channel Protein • Each aquaporin allows 3 billion water molecules per second to pass into the cell single file. What might the positively charged region do? http://www.bio.miami.edu/~cmallery/150/memb/water.channels.htm

  15. Receptor Proteins • Example: • G protein linked receptor • neurotransmitter

  16. Cell Surface Markers • Glycoproteins- a carbohydrate combined with a protein. Add a carbohydrate chain to a protein embedded in the membrane. Add and label • Important in the self recognition. • Recognized by the immune system. • Glycolipid- a carbohydrate combined with a lipid . Add a carbohydrate to a lipid. Add and label. • Important in tissue recognition. • Example is blood group marker.

  17. Cell surface markersGlycocalyx- “Sugar coating” You Me • Glycoproteins- “self” recognition The protein/carbohydrate chain shape is different person to person. For example, the major histocompatibility complex proteins are recognized by the immune system. • Glycolipids-tissue recognition The lipid/carbohydrate chain shape is specific for a certain tissue. For example blood group markers.

  18. Transport ModesThrough the cell membrane • Passive - Down the concentration gradient-primary role in importing resources and exporting waste • Diffusion • Facilitated Diffusion- membrane proteins help charged and polar molecules pass. • Osmosis • Active- Against the concentration gradient. Energy requiring. Requires membrane proteins. • Endocytosis/Exocytosis • Na+/K+ Pump • Proton Pump

  19. Diffusion • Often by Ion Channels • Direction of movement determined by • Relative concentration • Voltage • Each channel is specific for one or a few ions • Nervous system

  20. Facilitated Diffusion • Carrier Proteins • Specific also • Bind/release • Moves things down the concentration gradient • Passive transport • Can become saturated

  21. Active Transport • Uses Energy • Moves things against the gradient • Na/K Pump • Coupled Transport • Gradients created by one process can power another

  22. Sodium Potassium Pump • Cytoplasmic Na+ binds (high affinity in this shape). • Na+ binding stimulates phosphorylation by ATP • Phosphorylation causes shape change, lower Na+ affinity, now high K+ affinity. • The K+ binding causes phosphate to be released • Phosphate release causes shape to return. Now low K+ affinity,

  23. Endocytosis and Exocytosis • Exocytosis-internal vesicles fuse with the plasma membrane to release large macromolecules out of the cell. • Endocytosis-cell takes in macromolecules and particulate matter by forming new vesicles from the plasma membrane.

  24. Bulk Transport • Endocytosis • Phagocytosis-particulate • Pinocytosis-liquid • Receptor-Mediated endocytosis • Clathrin coated pits bind to specific molecules.

  25. Bulk Transport Explain the diagram. • Exocytosis • Neurotransmitter discharge • Hormone secretion • Digestion enzymes http://www.kscience.co.uk/as/module1/pictures/endoexo.jpg

  26. Eukaryotic cells are compartmentalized By Membranes These special areas let things happen by… • Minimizing competing interactions • Increasing surface area where reactions can occur • Compartmentalizing metabolic processes and enzymatic reactions. • Examples: Endoplasmic Reticulum, mitochondria, chloroplast, Golgi, nuclear envelope • Archaea and Bacteria generally lack internal membranes and organelles.

  27. Protein Pieces

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