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Cells . Day 1 – Diffusion, plasma membrane. Molecular Movement. Molecules are always in motion Move in straight lines until collision Dynamic equilibrium. Diffusion. High to low concentration No energy required (passive transport). Fluid Mosaic Model.
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Cells • Day 1 – Diffusion, plasma membrane
Molecular Movement • Molecules are always in motion • Move in straight lines until collision • Dynamic equilibrium
Diffusion • High to low concentration • No energy required (passive transport)
Fluid Mosaic Model • Membrane molecules like a sheet of mosaic tiles, but fluid
Main component of plasma membrane Polar head - hydrophilic Non-polar tails - hydrophobic Phospholipid Molecules Head Tails
Lipid Bilayer • Inside and outside of cell primarily water • 2 layers of phospholipids face each other to form membrane (lipid bilayer)
Phospholipid Tails • Saturated and unsaturated to keep structure fluid • Animation
Diffusion through the Bilayer • Small molecules (O2, CO2) • Other non-polars – alcohol, fat-soluble vitamins • Through the pores between polar heads Pores Top View of Polar Heads
Proteins • Embedded within the lipid bilayer • Surface only – peripheral proteins • Extend through membrane – integral proteins
Peripheral Protein Integral Protein
Integral vs. Peripheral • Integral – transport molecules across the plasma membrane • Peripheral - help create “identify” of the cell • Carbohydrate “dog tags” attached
Carbohydrates • Glycolipid – carb attached to phospholipid • Glycoprotein – carb attached to protein • Glycocalyx (“sugar coat”) – carbs and peripheral proteins on surface of cells
Cholesterol • Between tails of the phospholipids • Prevents tails from tangling • It also stabilizes the membrane.