classified as a means of passive transport. In simple diffusion‚ a hydrophobic molecule can move into the hydrophobic region of the membrane without getting rejected. Simple diffusion does not involve a protein. An example of simple diffusion is osmosis. Hydrophilic molecules cannot participate in simple diffusion because they would move into the hydrophobic region of the membrane and be rejected. Facilitated diffusion is a type of passive transport that is dependent on single transport protein
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Water molecules move from high to low Osmosis is what they seem to know Solute and Solvent are what’s inside The polarity of water makes it easy to find “Hyper” and “Hypo” tells you how much is there But isotonic means that they are fair Water molecules move from the inside out Scientists call this plasmolysis without a doubt All of this happens inside a membrane It is a serious matter‚ not a fun little game When a membrane is selective it chooses what it wants Few things are moved through
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3.1 BIOLOGICAL MEMBRANES 3.1.1 Properties of Cell Membranes • Separates living cell from its nonliving surroundings. • 8 nm thick. • Selectively permeable - allows some substances to cross more easily than others. 4.1.2 Fluid Mosaic Model • Singer and Nicolson (1972) - plasma membrane is a mosaic of proteins dispersed within lipid bilayer‚ with only bilayer‚ the hydrophilic regions exposed to water. Hydrophilic region of protein Phospholipid bilayer Hydrophobic region of protein
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you be able to observe any diffusion? No 5. Does being unable to observe diffusion necessarily mean that diffusion is not taking place? It can still take place due to molecules moving all the time due to the mixture of concentration. Osmosis Activity 4: Osmosis 1. Did you observe any pressure changes during the experiment? If so‚ in which beaker(s)‚ and with which membranes? Pressure changed in the left beaker with 20 MWCO 2. Why? Lower number in molecules moving around 3. Did the Na+/Cl-
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PhysioEx™ Lab: Cell Transport Mechanisms and Permeability Activity 1: Simple Diffusion Chart 1 Dialysis Results (Average Diffusion rate in mM/min) Solute Membrane (MWCO) 20 50 100 200 NaCl (—) 0.0150 0.0150 0.0150 Urea (—) (—) 0.0094 0.0094 Albumin (—) (—) (—) (—) Glucose (—) (—) (—) 0.0040 1) Which solute(s) were able to diffuse into the right beaker from the left? NaCl‚ Urea‚ Glucose 2) Which solute(s) did not diffuse? Albumin 3) If the solution in the left beaker
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& exocytosisDiffusion‚ facilitated diffusion‚ and osmosis. Types of Particles Transported proteins‚ ions‚ large cells‚ complex sugars. Anything soluble (meaning able to dissolve) in lipids‚ small monosaccharides‚ water‚ oxygen‚ carbon dioxide‚ sex hormones‚ etc. Examples phagocytosis‚ pinocytosis‚ sodium/potassium pump‚ secretion of a substance into the bloodstream (process is opposite of phagocytosis & pinocytosis) diffusion‚ osmosis‚ and facilitated diffusion. Importance In eukaryotic
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more permeable to water. When ADH is increased in the blood flow‚ more water-permeable channels are inserted‚ allowing more water to be reabsorbed by osmosis into the blood stream. When this happens‚ less urine‚ of a much lowered water potential‚ passes out of the body. This suggests that due to the cell walls being more permeable to water and also osmosis reabsorbing the water‚ this in turn lead to Leah’s water intoxication‚ as it was stored in the body opposed to leaving it correctly. Consequently
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Diffusion across Biological Membranes: A simulation Introduction Diffusion is the process by which collisions between molecules cause to spread apart. This movement is described as movement from an area of greater concentration to an area of lower concentration. Hence‚ diffusion continues until the molecules are equally distributed. This is to ensure that molecules have reached a state of equilibrium. Diffusion occurs spontaneously‚ no energy is involved. In cells‚ Diffusion occurs through
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Lecture: Plasma Membrane and Transport I. Structure of the Plasma Membrane A. plasma membrane - the surface encapsulating a cell B. Fluid Mosaic Model 1. bilayer of phospholipids a. hydrophilic heads - P04 end "water" "loving" attracted to water on inner/outer parts of cell b. hydrophobic tails - fatty acids "water" "fearing" attracted to each other on inside of bilayer c
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occurs when solutes are transferred from a high concentration of that solute to a lower concentration of solutes. Solutes do not depend on the concentration of other solutes‚ which allows the cell to take in oxygen while releasing carbon dioxide. Osmosis is a special type of diffusion‚ which occurs when water is diffused across the membrane. This can be affected by how hydrophilic a solute is on either side of the membrane. The diffusion of glucose‚ starch‚ and iodine was observed when the solutes
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