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E16/W: Cell Biology Thursdays 5:30-7:30pm, Science Center Hall E Section: 7:35-8:35pm, Science Center, Rms 101b and 103b. Instructor: Katie L Kathrein, Ph.D. kkathrein@enders.tch.harvard.edu Office: Children ’ s Hospital Karp Family Research Building One Blackfan Circle, RB07005H
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E16/W: Cell Biology Thursdays 5:30-7:30pm, Science Center Hall E Section: 7:35-8:35pm, Science Center, Rms 101b and 103b Instructor: Katie L Kathrein, Ph.D. kkathrein@enders.tch.harvard.edu Office: Children’s Hospital Karp Family Research Building One Blackfan Circle, RB07005H Boston, MA 02115 Office hours: Wednesday 4:15-5:15pm in Café in Science Center Office phone: (617) 919-2078 Undergraduate Teaching Assistant: Allegra Lord alord@fas.harvard.edu Office: Karp Building, RB05007G Office phone: (617) 355-9086 Graduate Teaching Assistant: Alison Taylor alison_taylor@dfci.harvard.edu Dana Building, 1526 Office phone: 617-632-2930
Plasma membrane Functions: Compartmentalization Scaffold Barrier Gatekeeper Monitoring of outside signals Energy Transduction
Plasma membrane • The plasma membrane serves many functions for the cell • skinof the cell • gatekeeperof the cell • shapeof the cell.
Lipids -exoplasmic -cytoplasmic -Organelles
Plasma Membrane • Semi-permeable barrier • Prevents : • Stability is maintained by the interactions of components
Plasma membrane • Amphipathic chemical structure • In mechanic dissociation in aqueous solutions • Spontaneously form sealed, closed compartments • useful for laboratory studies
Plasma membrane:Components Modified Lipids Proteins (Phosphoglycerides)
Plasma MembranePhospholipids Modified Lipids • Three types in most memebranes: • Amphipathic molecules
Phospholipids • comprise ~50% by mass of animal cells • 2 chain fatty acid tail • Linked to phosphate group via glycerol linker • Capped by a polar head group • Phospholipids include: • Negative charged: • phosphotidylserine (PS) • phosphotidylinositol (PI) • Neutral: • phosphatidylcholine (PC) • phosphatidylethanolamine (PE) • sphingomyelin Polar Head group Phosphate group 2 Fatty Acid Chains
Phospholipids • Phospholipids have a glycerol linker • The phosphate group is often modified • serine • inositol • Choline • Ethanolamine
PhospholipidsHead Groups • Phosphatidylethanolamine (PE) • Phosphatidylcholine(PC) • Phosphatidylserine(PS) • Phosphotidylinositol(PI)
Plasma membrane Saturation and length • Saturated fatty acids • Unsaturated fatty acids
Other membrane lipids • Sphingolipids • sphingosine • amino alcohol with a long carbon chain
Glycolipids • Polar Head linked to lipid
Cholesterol • Steroids • Mainly in eukaryotes • Amphipathic hydrophobic Polar head group
Cholesterol • Enhances barrier properties • Modulates fluidity • Temperature dependence • Concentration dependence
Membrane Asymmetry • Different leaflets have different compositions
Membrane Asymmetry Sphingolipids PS and PI PC and PE Cholesterol
Membrane Fluidity:Lipids • Membranes are extremely mobile • Lipids • Flip flop is rare
Membrane Fluidity: FRAP Study the movement of membrane components Fluorescence Recovery After Photobleaching Free diffusion of labeled molecule- faster recovery Membrane anchored protein- little to no recovery http://www.youtube.com/watch?v=LicQb_SnCSI
Membrane Fluidity: FRAP • How do we fluorescently label a transmembrane protein? • GFP fusion protein • Fluorescently labeled antibody 3) Amphipathic molecule with fluorochrome
Membrane Fluidity: FRAP • fluorescent microscopy • “bleach” the fluorescent molecule • Watch the movement of non-bleached proteins
Membrane Fluidity: FRAP Study the movement of membrane components Fluorescence Recovery After Photobleaching Free diffusion of labeled molecule- faster recovery Membrane anchored protein- little to no recovery http://www.youtube.com/watch?v=LicQb_SnCSI
Plasma membrane:Components Modified Lipids Proteins (Phosphoglycerides)
Membrane Proteins • Proteins in the plasma membrane • Integral • Peripheral
Proteins in membrane Peripheral Integral Exo Cyto Integral 1 - Single-pass 2 - Multi-pass Peripheral 3 - Fatty acid chain attachment to membrane 4 - Oligosaccharide-linked attachment to membrane 5, 6 - Noncovalent attachment to protein anchor
Integral Membrane Proteins • Integral proteins • stretches of amino acids that span the membrane • extracellular and cytoplasmic components
Peripheral MembraneProteins • Peripheral proteins
Peripheral Membrane Proteins • fatty acid chain attachments • covalent linkage • Integral membrane proteins
Peripheral Membrane Proteins • membrane proteins have limited movements
Lipid Rafts • In lab models of bilayers, lipids can come together transiently • Suggests the existence of “lipid rafts”
Membrane Permeability Passive Diffusion • Gases and small uncharged molecules will • diffuse across the bilayer unassisted • Passive Diffusion • - Follows concentration gradient • - No energy input • - No transport proteins • Depends on relative hydrophobicity
Membrane TransportProteins • Membrane proteins act as transporters • Two basic types of transport: • Active and passive
Membrane Transport Active ATP-powered pump Channel Transporter Passive
Channels • Channels allow movement of a large number of molecules fast
Passive Transporters Three types of passive transporters • Uniporter, symporter and antiporter
Passive Transporters Uniporter • moves a single molecule down its concentration gradient
GLUT1 • Uniporter • Transports glucose into cells
GLUT1 • GLUT1 transports glucose from the outside in or inside out
Studying Uniporters in the lab • How do we characterize these proteins in the lab?
Passive Transporters Uniporter • moves a single molecule down its concentration gradient Coupled Transport • Moves against concentration gradient • Symporter • Antiporter
Symporters and Antiporters • Undergo the same conformational changes as uniporters • Move molecules against their concentration gradient
Glucose/Na+ Symporter [Glucose] high inside cell [Na+] high outside cell
Na+ linked Ca2+ Antiporter • Ions move down their respective concentration gradients
Na+ H+ antiporter • The pH in cells must be maintained as close to neutral (~7.2)
Active Transport • ATP-powered pump • couples ATP hydrolysis with movement