Cell membrane & transport. Dr. Ali Ebneshahidi. Copyright 2004 Pearson Education, Inc., publishing as Benjamin Cummings

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Transcription:

Cell membrane & transport Dr. Ali Ebneshahidi

Cell Membrane To enclose organelles and other contents in cytoplasm To protect the cell To allow substances into and out of the cell To have metabolic reactions on its surface " Fluid mosaic model " suggests that the phospholipids form a bilayers framework, with their hydrophilic (polar) heads on the surface and their hydrophobic ( no polar ) tails on the inside. Proteins are embedded in the phospholipids bilayers. Experimental data have indicated that the in this model are securely held to the phospholipids, making the structure very stable.

Fluid Mosaic Model Figure 3.3

Functions of Membrane Proteins Transport Enzymatic activity Receptors for signal transduction Figure 3.4.1

Membrane permeability small, hydrophobic or fat-soluble molecules, such as oxygen, cross the cell membrane quite readily because of " fat dissolving fat " interaction. small, uncharged, hydrophilic or water-soluble molecules, such as water and carbon dioxide, would also be able to cross the cell membrane although there is no " fat dissolving fat " interaction. large, hydrophilic molecules are usually impermeable to cell membrane. Any molecules carrying strong electrical charges (i.e. ions ) are always impermeable to cell membrane, unless transported by special mechanisms.

Movements across cell membrane Diffusion Spontaneous phenomenon where small, hydrophobic molecules move from a higher concentrated area to lower concentrated area. All molecules have motion called Brownian Movement, and a concentration gradient (the difference in two concentrated areas) will always move molecules to the less concentrated area. No external energy is required. Diffusion stops when equilibrium is achieved (no concentration gradient). Factors that affect diffusion rate includes temperature, concentration, molecular size, and diffusion distance.

DIFFUSION

Facilitated diffusion allow large, hydrophilic molecules to cross the cell membrane. molecules bind with a specific protein carrier at the cell membrane. The combined molecule is now fat soluble and can diffuse to the other side. Movement is from a higher concentrated area to a lower concentrated area. No external energy is required. Diffusion rate depends largely on the number of protein carriers available ; when all proteins carriers are bound, "saturation " occurs and the diffusion rate stabilizes.

Diffusion Through the Plasma Membrane

Osmosis movement of water molecules from a higher concentrated area to a lower concentrated area. usually goes to the opposite direction of solute movement. water always diffuses to an area with a higher osmotic pressure (where there is more solutes and less water ). Because of osmosis, cells respond differently when they are placed in different osmotic pressure settings.

Filtration passage of substances through a membrane (e.g. capillary wall) by diffusion or osmosis, aided by hydrostatic pressure. usually referred to as the separation of solute from solvent in a solution. hydrostatic pressure forces water to the other side of the membrane. Important in absorption and excretion processes.

molecules move across the cell membrane from a lower concentrated area to a higher concentrated area. Active transport Requires external energy and a protein carrier. Critical in maintaining homeostasis by allowing important substances (e.g. nutrient molecules ) to move against concentration gradients.

Sodium-Potassium Pump 6 K + is released and Na + sites are ready to bind Na+ again; the cycle repeats. Extracellular fluid 1 Binding of cytoplasmic Na+ to the pump protein stimulates phosphorylation by ATP. Cytoplasm 2 Phosphorylation causes the protein to change its shape. Concentration gradients of K + and Na + 5 Loss of phosphate restores the original conformation of the pump protein. 4 K + binding triggers release of the phosphate group. 3 The shape change expels Na + to the outside, and extracellular K + binds. Figure 3.10

Functions of Membrane Proteins Intercellular adhesion Cell-cell recognition Attachment to cytoskeleton and extracellular matrix Figure 3.4.2

Endocystosis allows large molecule that cannot be transported by other methods to enter the cell by membrane vesicles. " pinocytosis " transports liquid substances, while "phagocytosis" transports solid substances. Divided into 3 main phases adhesion, ingestion, and digestion.

Exocytosis Allows large molecule that cannot be transported by other methods to exit the cell membrane.

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