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Plasma Membrane. mhhe.com. LECTURE #7. Function. Plasma membrane boundary Separates cell contents from the environment Regulate movement of molecules to and from the cell EX: Chloride ( Cl -). Characteristics. Thin Fatty Fluid Flexible Stable Dynamic Active.
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Plasma Membrane mhhe.com LECTURE #7
Function • Plasma membrane boundary • Separates cell contents from the environment • Regulate movement of molecules to and from the cell • EX: Chloride (Cl-)
Characteristics • Thin • Fatty • Fluid • Flexible • Stable • Dynamic • Active blog.pegasuscom.com
Components • Phospholipidbilayer (major component) • Cholesterol • Proteins • Glycocalyx
Phospholipidbilayer • In water, phospholipids will form bilayers • Amphipathic: Hydrophobic tails point in; hydrophilic heads point out • Contacts water on intracellular and extracellular surfaces watery extracellular fluid – hydrophilic hydrophobic hydrophilic watery cytosol
Phospholipidbilayer • This chemistry regulates passage of molecules (no covalent bonds hold it together!) • Bulk of thickness is hydrophobic • Hydrophobic molecules pass through readily • e.g., fatty acids, steroid hormones, etc. • Movement of hydrophilic molecules is restricted • e.g., ions, amino acids, sugars, etc.
Factors affecting fluidity Degree of saturation
Cholesterol • Nestled between phospholipid molecules • Restricts movement through membrane • Maintains membrane fluidity • Not too rigid in cold temps • Not too fluid in high temps
Cholesterol Cholesterol can “patch” weak spots in the lipid bilayer
Proteins • Some embedded, some on surface • Roles • Structural support • Recognition • Communication • Transport • Etc.
Proteins • Structural support These proteins areattached to cytoskeleton • Stabilize the cell • Give animal cells characteristic shapes
Proteins • Recognition Cells in the immune systemcan discern between self and foreign molecules • Cell surface proteins
Proteins • Communication Various ways of communicating • Signals sent to other cells • Cell ejects hormones or proteins • Signals received by receptor proteins • Binding site “fits” a specifictype of signaling molecule
Insulin is a signaling hormone Insulin’s message: “Glucose levels are rising in the bloodstream; please construct some protein channels so you can take some of this glucose in!”
Proteins • Transport • Many materials cannot pass through plasma membranes • Transport proteins move specific molecules across
Glycocalyx • Short, branched carbohydrate (sugar) chains • Attach to membrane lipids and proteins • Functions • Binding sites for signaling molecules • Lubricate cells • Adhesion to adjacent cells
Movement • All molecules and ions are in a constant state of random motion • Temperature is a measure of the degree of motion • There is no motion below absolute zero • −273 oC (−459.7°F) chemistryland.com
Diffusion • Molecules will tend to move from a region of high concentration to a region of lower concentration. • Net movement is down aconcentration gradient = difference between highestand lowest concentration • Movement of molecules ordered disordered state • Spontaneous movement • Can move up concentration gradient, but it takes energy! pictureninja.com
Semi-permeable membranes • If a membrane is permeable to water and a solute, then both will diffuse to equilibrium… • But what if the membrane is permeable to water but not the solute?
Osmosis Net movement of water is down its concentration gradient Osmosis is the diffusion of fluid
Semi-permeable membrane The plasma membrane is semi-permeable • Somewhat permeable to water and lipids • Impermeable to large or charged substances watery extracellular fluid – hydrophilic hydrophobic hydrophilic watery cytosol
Plasma membrane • Osmosis takes place across the plasma membrane all the time • e.g., Water uptake by plants • e.g., Return of fluid to blood vessels
Question Why shouldn’t you drink salt water? (digestive system cells) hairremovalarea.com
Cell environments Types of solutions - Isotonic = Solute and solvent conditions are identical - Hypertonic = A solution with excess solute - Hypotonic = A solution with little solute
Isotonic Animal Plant (OK)
Hypertonic Animal Plant
Hypotonic Animal Plant
Moving stuff in & out • Some molecules can pass through the plasma membrane by simple diffusion • - No proteins needed • CO2 out of cell • Steroids in and out
Moving stuff in & out • Protein-mediated movement • Facilitated diffusion = movement down the concentration gradient requiring a transport protein • sugars, amino acids, ions
Moving stuff in & out • Protein-mediated movement • Active transport = movement up the concentration gradient requiring a transport protein and energy (ATP) • Important to maintain osmolarityof the cell. (Macromolecules in cell are charged (-) and attract counter-ions that need to bepumped out of cell.)
Moving big stuff in and out • Sometimes it is necessary to move large molecules across membranes • Large molecules cannot be moved by the same mechanisms • Channels and pumps are too small • Movement employs vesicles
Moving big stuff out • Exocytosis =Movement of materials out of a cell by fusing a vesicle with the plasma membrane • Vesicle’s contents released into extracellular fluid • e.g., Vesicles budding from Golgi complex fuse with plasma membrane to export proteins • e.g., When waste products released by cell
Moving big stuff in Endocytosis = Movement of large material into cell • e.g., Ingestion of an entire bacterial cell • Accomplished by enclosing them within vesicles derived from the plasma membrane (exocytosis in reverse). • Three forms • Pinocytosis • Receptor-mediate endocytosis • Phagocytosis
Moving big stuff in • Pinocytosis (“cell drinking”) = cell folds inward
Moving big stuff in • Receptor-mediated endocytosis= Groups of receptors congregate in depression in cell membrane • Receptors specific to molecule • e.g., Cholesterol
Moving big stuff in • Phagocytosis= (“cell eating”) Large material engulfed • e.g., Amoeba and white blood cells • Send out “pseudopodia” to engulf, form vesicle, fuse vesiclewith lysosome.
Plasma membrane • The plasma membrane is constantly being “remade” • Membrane is lost via endocytosis • Membrane is gained via exocytosis
Cell death crmagazine.org
Cell death • There are 2 ways cells die… • 1. They are killed by injurious agents • Mechanical damage • Exposure to toxic chemicals • 2. They are induced to commit suicide = apoptosis
Cell death • Death by injury leads to… • Disruption of plasma membrane’s ability to regulate passage of ions in/out of cell • Swelling of the cell bursting or leaking technologyreview.com
Cell death • Induced suicide (PCD) steps… • Cell shrinks itself, packages into “bites” • Develops blisters on surface • Chromatin and mitochondria degrade • ATP is released • Dying cell releases a “find me” signal to phagocytes • Phagocytes secrete proteins that inhibit inflammation • Cell is engulfed by phagocyte and contents recycled • The ultimate sacrifice!
Why would a cell commit suicide? 1. For proper development • Formation of fingers/toes in human fetus • Sloughing of inner lining of uterus (menstruation) • Tadpole loses its tail as it matures octopusmom.com courses.washington.edu