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Membrane Structure and Function
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Membrane Function Membranes organize the chemical activities of cells.
The outer plasma membrane forms a boundary between a living cell and its surroundings Exhibits selective permeability Controls traffic of molecules in and out
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Membrane Function Internal membranes provide structural order for metabolism Form the cell's organelles Compartmentalize chemical reactions
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Membrane Structure Phospholipid Phospholipids are the major structural component of membranes.
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Membrane Structure All membranes are phospholipid bilayers with embedded proteins. Phospholipid Bilayer Label the: Hydrophilic heads Hydrophobic tails
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Membrane Structure Embedded in the bilayer are proteins
Most of the membrane’s functions are accomplished by the embedded proteins. Integral proteins span the membrane Peripheral proteins are on one side or the other of the membrane
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Plasma Membrane Glycoproteins and glycolipids are proteins/lipids with short chain carbohydrates attached on the extracellular side of the membrane.
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Carbohydrate of glycoprotein Glycoprotein Glycolipid Integrin Phospholipid Microfilaments of cytoskeleton Cholesterol
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Membrane Proteins Types of Membrane Proteins Recognition proteins
Integrins Cell junction proteins Enzymes Receptor proteins Transport proteins Passive and active
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Recognition Proteins - identify type of cell and identify a cell as “self” versus foreign
Most are glycoproteins Carbohydrate chains vary between species, individuals, and even between cell types in a given individual. Glycolipids also play a role in cell recognition
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Integrins Integrins are a type of integral protein
The cytoskeleton attaches to integrins on the cytoplasmic side of the membrane Integrins strengthen the membrane Cell Junction proteins - help like cells stick together to form tissues
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Many membrane proteins are enzymes
This is especially important on the membranes of organelles.
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Receptor Proteins Receptor proteins bind hormones and other substances on the outside of the cell. Binding triggers a change inside the cell. Called signal transduction Example: The binding of insulin to insulin receptors causes the cell to put glucose transport proteins into the membrane.
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Messenger molecule Receptor Activated molecule
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Transport Proteins Passive Transport Proteins
allow water soluble substances (small polar molecules and ions) to pass through the membrane without any energy cost Active Transport Proteins The cell expends energy to transport water soluble substances against their concentration gradient
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Transport of Substances Across the Plasma Membrane (PM)
Passive Transport (Simple) Diffusion Facilitated diffusion Osmosis Active Transport Bulk Flow - endocytosis and exocytosis
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Passive Transport In passive transport substances cross the membrane by diffusion Diffusion - net movement of substances from an area of high concentration to low concentration no energy required
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Factors Affecting Diffusion Rate
Steepness of concentration gradient Steeper gradient, faster diffusion Molecular size Smaller molecules, faster diffusion Temperature Higher temperature, faster diffusion
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Simple Diffusion Nonpolar, hydrophobic molecules diffuse directly through the lipid bilayer Simple diffusion does not require the use of transport proteins. Examples: O2, CO2, steroids Polar, hydrophilic substances cannot pass directly through the lipid bilayer Examples: water, ions, carbohydrates
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Simple Diffusion Polar molecules ions small, nonpolar molecules
(ex. Glucose, water) ions (ex. H+, Na+, K+) small, nonpolar molecules (ex. O2, CO2) LIPID-SOLUBLE WATER-SOLUBLE LIPID-SOLUBLE
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Facilitated Diffusion
In facilitated diffusion small polar molecules and ions diffuse through passive transport proteins. No energy needed Most passive transport proteins are solute specific Example: glucose enter/leaves cells through facilitated diffusion
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Facilitated Diffusion
Higher concentration of Passive transport protein Lower concentration
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Osmosis Osmosis – diffusion of water across a selectively permeable membrane Water moves from an area of _______ water concentration to an area of _____ water conc. Is energy required ?
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Consider two solutions separated
Osmosis Terms Consider two solutions separated by a plasma membrane. Hypertonic solution with a relatively high concentration of solute Hypotonic solution with a relatively low concentration of solute Isotonic solutions with the same solute concentration
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cluster of water molecules
Lower concentration of solute Higher concentration of solute Equal concentration of solute H2O Solute molecule Selectively permeable membrane Water molecule Solute molecule with cluster of water molecules Net flow of water
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Osmosis and Animal Cells
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Osmosis and Plant Cells
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Osmosis When a Cell is Placed in a Hypotonic Solution
Water concentration is _________ the cell. Water flows ___________ the cell.
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Osmosis When a Cell is Placed in a Hypertonic Solution
Water concentration is _________ the cell. Water flows ___________ the cell.
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See page 83 Isotonic solution Hypotonic solution Hypertonic solution
H2O H2O H2O H2O Animal cell (1) Normal (2) Lysed (3) Shriveled H2O H2O H2O Plasma membrane H2O Plant cell (4) Flaccid (5) Turgid (6) Shriveled (plasmolyzed) See page 83
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Osmosis Summary When a cell is placed in a Hypotonic solution:
Cell gains water through osmosis Animal cell lyses; plant cell becomes turgid (firm) When a cell is placed a Hypertonic solution: Cell loses water through osmosis Animal cell shrivels; plant cell plasmolyzes
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Active Transport Active transport proteins move substances across the PM against their concentration gradient. Requires energy (ATP) Active transport proteins are highly selective Active transport is needed for proper functioning of nerves and muscles
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Active Transport of “X”
Active transport proteins span the plasma membrane They have openings for “X” on only one side of the membrane “X” enters the channel and binds to functional groups inside the transport protein. Cytoplasmic ATP binds to the transport protein
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Active Transport of “X”
A phosphate group is transferred from ATP to the transport protein protein is energized by the added –P. The energized transport protein changes shape and releases “X” on the other side of the cell. The phosphate group is released from the transport protein and it resumes its original shape. Process repeats.
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Transport protein Solute 1 Solute binding
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Transport protein Solute 1 Solute binding 2 Phosphorylation
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Transport protein Protein changes shape Solute 1 Solute binding 2 Phosphorylation 3 Transport
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Transport protein Protein changes shape Phosphate detaches Solute 1 Solute binding 2 Phosphorylation 3 Transport 4 Protein reversion
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Active Transport tell the story…
ATP P ADP
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Bulk Flow Vesicles are used to transport large particles across the PM. Requires energy Types: Exocytosis Endocytosis Phagocytosis, pinocytosis, receptor-mediated
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Exocytosis Fluid outside cell Vesicle Protein Cytoplasm
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Bulk Flow Exocytosis Cytoplasmic vesicle merges with the PM and releases its contents Example: Golgi body vesicles merge with the PM an release their contents How nerve cells release neurotransmittors
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Endocytosis Endocytosis can occur in three ways
Vesicle forming Endocytosis can occur in three ways Phagocytosis ("cell eating") Pinocytosis ("cell drinking") Receptor-mediated endocytosis
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Endocytosis Endocytosis
PM sinks inward, pinches off and forms a vesicle Vesicle often merges with Golgi for processing and sorting of its contents
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Endocytosis - terms Phagocytosis – cell eating
Membrane sinks in and captures solid particles for transport into the cell Examples: Solid particles often include: bacteria, cell debris, or food Pinocytosis – cell drinking Cell brings in a liquid
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Endocytosis - comments
Phagocytosis and pinocytosis are not selective Membrane sinks inward and captures whatever particles/fluid present. Vesicle forms and merges with the Golgi body…
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Receptor Mediated Endocytosis
Receptor Mediated Endocytosis is a highly specific form of endocytosis. Receptor proteins on the outside of the cell bind specific substances and bring them into the cell by endocytosis
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Receptor Mediated Endocytosis
Receptor proteins on PM bind specific substances (vitamins, hormones..) Membrane sinks in and forms a pit Called a coated pit Pit pinches closed to form a vesicle around bound substances Cytoskeleton aids in pulling in the membrane and vesicle formation
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Plasma membrane Receptor-mediated endocytosis Coat protein Receptor Coated vesicle Coated pit Coated pit Specific molecule Material bound to receptor proteins
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Phagocytosis EXTRACELLULAR FLUID CYTOPLASM Food being ingested Pseudopodium “Food” or other particle Food vacuole Pinocytosis Plasma membrane Vesicle Receptor-mediated endocytosis Plasma membrane Coat protein Receptor Coated vesicle Coated pit Coated pit Specific molecule Material bound to receptor proteins
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Plasma Membrane Notes Continued…
The Plasma Membrane Plasma Membrane Notes Continued… What Are Three Forms of Transport Across the Membrane ? 4/19/2017 G. Podgorski, Biol. 1010
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Objective: Compare active transport with passive transport.
The Plasma Membrane 4/19/2017 Objective: Compare active transport with passive transport. Distinquish between endocytosis and exocytosis G. Podgorski, Biol. 1010
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is a type of Simple Diffusion which…
The Plasma Membrane Review… Passive Transport 4/19/2017 is a type of Simple Diffusion which… Doesn’t require energy Moves solids, liquids and gases from high to low concentration Biological connection Oxygen or water diffusing into lung cells and carbon dioxide diffusing out. G. Podgorski, Biol. 1010
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Passive Transport can also occur as … Facilitated diffusion which…
The Plasma Membrane 4/19/2017 Passive Transport can also occur as … Facilitated diffusion which… Doesn’t require energy Uses transport proteins to move high to low concentration Biological connection: Glucose or Protein in the form of amino acids move from blood into a cell. G. Podgorski, Biol. 1010
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The Plasma Membrane 4/19/2017 In cells proteins (amino acids) are Critical to Membrane Function because of 4 main reasons which are… G. Podgorski, Biol. 1010
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2 Types of Transport Proteins are…
The Plasma Membrane 4/19/2017 2 Types of Transport Proteins are… Channel proteins are embedded in the cell membrane & have a pore for materials to cross Carrier proteins can change shape to move material from one side of the membrane to the other G. Podgorski, Biol. 1010
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Facilitated Diffusion
The Plasma Membrane 4/19/2017 Facilitated Diffusion Molecules will randomly move through the pores in Channel Proteins. G. Podgorski, Biol. 1010
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Facilitated Diffusion
The Plasma Membrane 4/19/2017 Facilitated Diffusion Some Carrier proteins do not extend through the membrane. They bond and drag molecules through the lipid bilayer and release them on the opposite side. G. Podgorski, Biol. 1010
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The Plasma Membrane 4/19/2017 Carrier Proteins Other carrier proteins change shape to move materials across the cell membrane G. Podgorski, Biol. 1010
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Active Transport Requires energy or ATP
The Plasma Membrane 4/19/2017 Active Transport Requires energy or ATP Moves materials from LOW to HIGH concentration AGAINST concentration gradient G. Podgorski, Biol. 1010
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What is the name of this organelle?
The Plasma Membrane 4/19/2017 What is the name of this organelle? What is the mitochondria function? How does it transport the materials it needs to function? Why is this important? G. Podgorski, Biol. 1010
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Exocytosis- moving things out.
The Plasma Membrane Moving the “Big Stuff” 4/19/2017 Exocytosis- moving things out. Molecules are moved out of the cell by vesicles that fuse with the plasma membrane. This is how many hormones are secreted and how nerve cells communicate with one another. G. Podgorski, Biol. 1010
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The Plasma Membrane Exocytosis 4/19/2017 Exocytic vesicle immediately after fusion with plasma membrane. G. Podgorski, Biol. 1010
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The Plasma Membrane Moving the “Big Stuff” 4/19/2017 Large molecules move materials into the cell by one of three forms of endocytosis. G. Podgorski, Biol. 1010
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Pinocytosis Most common form of endocytosis.
The Plasma Membrane Pinocytosis 4/19/2017 Most common form of endocytosis. Takes in dissolved molecules as a vesicle. G. Podgorski, Biol. 1010
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Pinocytosis Cell forms an invagination
The Plasma Membrane 4/19/2017 Pinocytosis Cell forms an invagination Materials dissolve in water to be brought into cell Called “Cell Drinking” G. Podgorski, Biol. 1010
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Example of Pinocytosis
The Plasma Membrane Example of Pinocytosis 4/19/2017 mature transport vesicle pinocytic vesicles forming Transport across a capillary cell (blue). G. Podgorski, Biol. 1010
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Receptor-Mediated Endocytosis
The Plasma Membrane 4/19/2017 Receptor-Mediated Endocytosis Some integral proteins have receptors on their surface to recognize & take in hormones, cholesterol, etc. G. Podgorski, Biol. 1010
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Receptor-Mediated Endocytosis
The Plasma Membrane Receptor-Mediated Endocytosis 4/19/2017 G. Podgorski, Biol. 1010
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Endocytosis – Phagocytosis
The Plasma Membrane 4/19/2017 Endocytosis – Phagocytosis Used to engulf large particles such as food, bacteria, etc. into vesicles Called “Cell Eating” G. Podgorski, Biol. 1010
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Phagocytosis About to Occur
The Plasma Membrane Phagocytosis About to Occur 4/19/2017 This is a picture of a White Blood Cell… about to flow around and eat a Prokaryotic Bacteria G. Podgorski, Biol. 1010
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Phagocytosis - Capture of a Yeast Cell (round yellow object ) by
The Plasma Membrane 4/19/2017 Phagocytosis - Capture of a Yeast Cell (round yellow object ) by the White Blood Cells (BLUE) extending found in the Immune System Cell G. Podgorski, Biol. 1010
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The Plasma Membrane 4/19/2017 Exocytosis The opposite of endocytosis is exocytosis. Large molecules that are manufactured in the cell are released through the cell membrane. From inside the Cell out to the … cells environment which will then distribute the molecule to the proper system to get rid of the material G. Podgorski, Biol. 1010
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