chapter 4.2: transport across the csm
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Chapter 4.2: Transport across the CSM. INB Pg33 . CSM transport. Phospholipid bilayer creates effective barrier against water soluble molecules and ions Prevents aqueous contents from escaping - PowerPoint PPT PresentationTRANSCRIPT
I N B P G 3 3
CHAPTER 4.2: TRANSPORT ACROSS THE CSM
CSM TRANSPORT
• Phospholipid bilayer creates effective barrier against water soluble molecules and ions• Prevents aqueous contents from escaping• Some essential transport is achieved through diffusion,
facilitated diffusion, osmosis, active transport and bulk transport
DIFFUSION
• Diffusion: net movement, as a result of random motion of its molecules or ions, of a substance from a region of high concentration to a region of low concentration• Particles move down a concentration gradient
RATES OF DIFFUSION
• ‘steepness’ of concentration gradient: greater difference = higher rate• Temperature: higher temperature = higher
rate• Surface area of diffusion: greater surface
area – higher rate• Nature of molecules/ions: small
molecules = greater rate
DIFFUSION
• Respiratory gases cross membrane by diffusion (uncharged and nonpolar)• Water (even though
it is polar) can cross because molecules are very small
FACILITATED DIFFUSION
• Diffusion that takes place with the help of a certain protein molecule• Channel proteins• Carrier proteins
CHANNEL PROTEINS
• Water-filled pores• Fixed shape• Allow charged substances
(usually ions) to diffuse through membrane• Gated to allow for selectivity
and control of movement
CARRIER PROTEINS
• Flips between shapes to alternately open binding sites on interior/exterior of membrane• Direction of movement depends on concentration
gradient inside and outside of cell
OSMOSIS
• Type of diffusion involving water molecules only
WATER POTENTIAL
• Water potential: tendency of water molecules to move from one place to another• Measured by Greek symbol psi Ψ
WATER POTENTIAL
• Water potential for pure water is 0• Solutes make water
potential less than 0, the more solute, the more negative the water potential• The amount that
solutes lower the water potential is called solute potential
PRESSURE POTENTIAL
• Increasing pressure increases water potential• The contribution made by
pressure to water potential is called pressure potential and is given by symbol Ψp
• Pressure potential makes water potential less negative (more positive)
WATER POTENTIAL IN ANIMAL CELLS
OSMOSIS IN PLANT CELLS
DO NOW 1/14/14
• IDOLATRY (ai DOLL ah tree) n.• blind or excessive devotion to something• Ben’s parents worried about his IDOLATRY to the occult.• Elvis’ IDOLATROUS fans stormed Graceland.• Peter has an IDOLATROUS addiction for the game of golf.
• Warm up:Draw a membrane and label what will keep out ions + increase membrane fluidity, what will control rigidity and help keep out polar molecules, what allows for cell recognition and what allows polar molecules to enter.
ACTIVE TRANSPORT
• Active transport moves molecules/ions against concentration gradient• Achieved by carrier proteins (specific for structure of
particular ion/molecule)• Requires ATP for energy, supplied by cellular respiration• Can occur into or out of the cell
SODIUM-POTASSIUM PUMP
• Found in CSM of all animal cells• Use ~30% avg cell energy and ~70% neuron cell energy
• Pump 3 Na+ ions out of the cell and 2 K+ ions into the cell• Net result: inside of cell become more negative than the
outside
SODIUM-POTASSIUM PUMP
• Difference in charges between inside membrane and outside creates a potential difference (p.d.) which allows nerve cells to propagate a signal
ACTIVE TRANSPORT
• Important in re-absorption in the kidneys, where certain useful molecules and ions have to be re-absorbed into the blood after filtration into the kidney tubules• Involved in
absorption of products of digestion in the gut
ACTIVE TRANSPORT
• Used to load sugar from photosynthesizing cells of leaves into phloem tissue for transport around the plant
ACTIVE TRANSPORT
• http://www.youtube.com/watch?v=Kd3LorZcJew&feature=related
BULK TRANSPORT
• Bulk transport involves the mechanism of moving large quantities of molecules into the cell (endocytosis) or out of the cell (exocytosis)• Large molecules such as proteins or
polysaccharides, part of cells, or even whole cells may be transported across the membrane
ENDOCYTOSIS
• Involves the engulfing of material by the CSM to form a small sac, or endocytic vacuole• Two forms: phagocytosis and pinocytosis
PHAGOCYTOSIS
• ‘cell eating’• Bulk up take of solid material• Cells specializing in this are called phagocytes
and the vacuoles are called phagocytic vacuoles• Ex: engulfing of bacteria by immune cells
ENDOCYTOSIS
• http://www.youtube.com/watch?feature=fvwp&NR=1&v=a4aZE5FQ284 • http://www.youtube.com/watch?v=JnlULOjUhSQ
PINOCYTOSIS
• ‘cell drinking’ – bulk uptake of liquid into cell• Vacuoles ( vesicles) formed
are often extremely small, in which the process is called micro-pinocytosis• Human egg cells take up
nutrients from cells that surround it by pinocytosis• http://www.youtube.com/w
atch?v=InG6xF9D4EM
EXOCYTOSIS
• Process by which bulk material is removed from a cell• Ex: how plants transport materials out of CSM to make
cell wall• Ex: secretion of digestive enzymes of the pancreas• Secretory vesicle from the Golgi carry the enzymes to the CSM
and release their contents
BULK TRANSPORT• http://www.youtube.com/watch?v=aWItglvTiLc&feature=related • http://www.youtube.com/watch?v=pvOz4V699gk&feature=fvwrel
HOMEWORK
• Pg 81 #5,6,7 (ING Pg 34)