Cell Transport WebQuest

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Name: Date: Cell Transport WebQuest Biomembranes I: Membrane Structure and Transport Go to http://www.phschool.com/science/biology_place/biocoach/biomembrane1/intro.html Concept 1: Membrane Structure Membranes consist of a combined with a variety of in a fluid arrangement. The surfaces of cell membranes are (water-loving); the interiors are (water-fearing). Hydrophilic molecules tend to interact with and each other. Hydrophobic molecules interaction with water and tend to interact with other molecules. Concept 2: Osmosis Osmosis (movement of across membranes) depends on the relative of solute molecules on either side of the. The presence or absence of cell influences how cells respond to osmotic fluctuations in their environment. Click on Review in the upper right hand corner. It will open up a new screen. Concept 2 Review: Isotonic, Hypotonic, and Hypertonic Solutions Water moves readily across cell membranes through special protein-lined, and if the total concentration of all dissolved solutes is not on both sides, there will be net of water molecules into or out of the cell. Whether there is net movement of water into or out of the cell and which it moves depends on whether the cell s environment is isotonic, hypotonic, or hypertonic. 1

Label the three illustrations below as isotonic, hypotonic, or hypertonic. Click Next on the bottom left side of the screen. Concept 2 Review: Cells in Isotonic Solutions When two environments are isotonic, the total concentration of dissolved solutes is the in both of them. When cells are in isotonic solution, movement of water out of the cell is exactly by movement of water into the cell. A solution of NaCl (saline) is isotonic to cells. Select animate to watch the movement of water molecules through protein channels in the cell membrane in an isotonic solution. Make your own sketch of a cell in an isotonic solution: 2

Click Next on the bottom left side of the screen. Concept 2 Review: Cells in Hypotonic Solutions Hypotonic comes from the Greek hypo, meaning and tonos meaning. In a hypotonic solution, the total concentration of all dissolved solute particles is than that of another solution or less than that of a. If concentrations of dissolved solutes are less the cell than, the concentration of water outside is correspondingly greater. When a cell is exposed to such hypotonic solutions, there is net movement of water the cell. Cells without cell will swell and may (lyse) if excess water is not removed from the cell. Cells with cell walls often benefit from the pressure that develops in hypotonic environments. Select animate to watch the movement of water molecules across the cell in a hypotonic solution. Make your own sketch of a cell in a hypotonic solution: Select A Closer Look to see plant and animal cells in hypotonic environments on the bottom of the page. Compare and contrast what happens when a plant cell and animal cell are placed in a hypotonic solution. 3

Click Back to Review and then select Next to view cells in hypertonic solutions. Concept 2 Review: Cells in Hypertonic Solutions Hypertonic comes from the Greek hyper, meaning, and tonos, meaning stretching. In a hypertonic solution, the total concentration of all dissolved solute particles is than that of another solution, or greater than the concentration in a. If concentrations of dissolved solutes are greater the cell, the concentration of water outside is correspondingly. As a result, water inside the cell will flow to attain equilibrium, causing the cell to. As cells lose water, they lose the ability to or. Hypertonic environments, such as concentrated brines or, have been used for food preservation because microbial cells that would otherwise cause spoilage are in these very hypertonic environments and are unable to function. Select animate to watch the movement of water molecules across the cell in a hypertonic solution. Make your own sketch of a cell in a hypertonic solution: Select A Closer Look to see plant and animal cells in hypertonic environments on the bottom of the page. Compare and contrast what happens when a plant cell and animal cell are placed in a hypertonic solution. 4

Close the review screen you are on to go back to the BioCoach Activity. You should still be on Concept 2: Osmosis. Click Next Concept. Concept 3: Selective Permeability of Membranes Cell membranes are selectively permeable. Some solutes can cross the membrane, some cross with, and others do not cross at all. A few lipophilic (lipid-loving) substances move freely across the cell membrane by. Most small molecules or ions require the assistance of specific to transport them across the membrane. molecules do not cross intact cell membranes, except in certain special cases. Concept 4: Passive and Active Transport Most biologically important solutes require carriers to cross cell membranes, by a process of either or transport. Active transport uses to move a solute uphill against its gradient, whereas in facilitated diffusion, a solute moves its concentration gradient and no input is required. In the illustration below, label which type of transport is shown: facilitated diffusion or active transport. 5

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