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Transport Chapter 7 & 36. What you need to know! The role of diffusion (osmosis), active transport, and bulk flow in the movement of water and nutrients.

Published byMarianna Haynes Modified over 9 years ago

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Presentation on theme: "Transport Chapter 7 & 36. What you need to know! The role of diffusion (osmosis), active transport, and bulk flow in the movement of water and nutrients."— Presentation transcript:

1 Transport Chapter 7 & 36

2 What you need to know! The role of diffusion (osmosis), active transport, and bulk flow in the movement of water and nutrients in plants. How electrochemical gradients are formed.

3 Movement of Substances Bulk Flow: Collective movement of substances in the same direction in response to a force Example: blood flow (force = heart) Movement of substances may be active or passive. Active movement requires energy (ATP) Passive transport: movement of substances down a concentration gradient (high  low)

4 Passive Transport 1.Simple diffusion: gases go between phospholipids (no proteins needed) 2.Osmosis: water facilitated by aquaporins 3.Dialysis: diffusion of solutes across a semipermeable membrane that allows small molecules through and blocks large ones: dialysis tubing, kidney, dialysis of patients with kidney problems 4.Plasmolysis: net movement of water out of plant cells leading to collapse of cell Wilting plants, drop in turgor

5 Passive Transport 5.Facilitated Diffusion: diffusion of solutes through channel proteins/pores Examples: ions, sugars, proteins, AA 6.Counter current exchange: exchange of substances between two oppositely running bulkflows, maximizing exchange Example: waterflow and bloodflow through fish gills

6 Active Transport Movement of solutes against a concentration gradient using transport proteins Requires the expenditure of ATP 1.Electrochemical gradient: Na/K pump in nerve cells builds up not only a gradient of Na and K, but also a charge across the membrane Resting potential = -60mV

7 Cotransport: coupled transport Couples transport “downhill” with transport “uphill” Example: H+ gradient over plasma membrane is used to move sucrose into cells Na/Glucose co transporter Example: salts in Gatorade cotransport with glucose

8 Vesicular Transport Uses membrane bound vesicles to move large substances across membrane 1.Exocytosis: fusing of vesicle with membrane, releasing contents outside of cells Example: secretion of hormones, enzymes, neurotransmitters in synapses 2.Endocytosis: pinching in of membrane around molecules leading to internalization Example: phagocytosis, pinocytosis, receptor mediated endocytosis, endosymbiotic Theory

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