How Cells Work: Membrane Transport 1 Review of transport concepts (Please Review): : http://www.wiley.com/legacy/college/boyer/0470003790/anima tions/membrane_transport/membrane_transport Osmosis animation: http://highered.mcgraw- hill.com/sites/0072495855/student_view0/chapter2/animation_ _how_osmosis_works.html The cell membrane acts as a barrier. However, cells need to obtain energy from food and get rid of waste from metabolism, so substances must move across the membrane. The process of substance movement across the cell membrane is called membrane transport.
Welcome message from author
This document is posted to help you gain knowledge. Please leave a comment to let me know what you think about it! Share it to your friends and learn new things together.
Transcript
How Cells Work: Membrane Transport
1
Review of transport concepts (Please Review): :
http://www.wiley.com/legacy/college/boyer/0470003790/animations/membrane_transport/membrane_transport
Osmosis animation: http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_osmosis_works.html
The cell membrane acts as a barrier. However, cells need to obtain energy from food and get rid of waste from metabolism, so substances must move across the membrane. The process of substance movement across the cell membrane is called membrane transport.
Diffusion
2
Def: Tendency of molecules (or ions) to scatter evenly in a solution due to random motion and collision of moleculesVariables include: distance, size, temperature, steepness of gradient and charge (positive or negative: like charges repel, unlike attract)
Random thermal motion due to kinetic energy “powers” diffusion
3
All molecules have kinetic energy and are in constant motion.
• This motion is called Brownian movement.
• Random movement due to this motion leads to molecule collisions.
• Collisions redirect molecules so that eventually the molecules become evenly distributed in space.
• The process is called diffusion and requires no added energy.
Check it out: Random movement of small particles in water (here)http://galileoandeinstein.physics.virginia.edu/more_stuff/Applets/brownian/brownian.html
4
Sometimes atoms pull hard enough to steal each other’s electrons ionic
bonds
What is this
and what is
happening
here?
What is this
and what is
happening
here?
What is this
and what is
happening
here?Cytoplasm
Interstitial
(extracellular fluid)
Summary: Membrane serves as a physical barrier to diffusion of water soluble substances
9
Permeability: property of membrane that defines what substances can move across.
Impermeable – nothing can passPermeable – passes freely Selectively permeable – some things can cross.
Variables that determine permeability include: size, charge, shape, lipid solubility of molecule and proteins in the membrane.
Review: Types of Transport Across Cell Membranes
10
Passive Transport: Diffusion Simple Diffusion
Substances other than water move: small lipid soluble substances including: oxygen, fat soluble vitamins down concentration gradientOsmosis: movement of water down concentration gradient
Facilitated Diffusion: requires a pathway through the membraneCarrier mediated: amino acids, sugarsChannel mediated: ions
Filtration: powered by blood pressure (hydrostatic pressure) e.g. bulk flow of substances across capillary walls, Active Transport (requires energy for transport)
Primary active transport: ATP hydrolysis provides energySecondary active transport: coupled to gradients established by ATP
Vesicle-mediated Transport: requires energy, substances move in and out of the cell via vesicle fusion with the cell membrane
Transport Paths
Figure 3.10
Active Transport: Primary
12
http://www.youtube.com/watch?v=iA-Gdkje6pg
Primary active transport uses energy of ATP hydrolysis to move substances up energetic gradients . A membrane protein does the work.
EX: Na+,K + pump moves Na+
out of the cell (and K+ back into cell). Na+
concentration is high outside the cell, therefore the pump works against a Na concentration gradient and requires energy.
Sometimes atoms pull hard enough to steal each other’s electrons ionic
bonds
Transport maintains important biological gradients that are defined by selective membrane permeability to substances. Solution inside the cell ≠ solution outside the cell.
If you poison the pump that maintains the gradient>gradients will be disrupted and lead to eventual deathEX: anything that blocks the production of ATP (limits oxygen delivery to cells) e.g. cyanide, carbon monoxide,
Ion IN (mM) OUT(mM)
Na+ 5 145
K + 100 5
Ca + + .0000001 2-5
Mg + + 30 1-2
Cl - 4 110
Big Anions
High Low
14
Mammalian Intracellular and Extracellular Solution compositions
IN:
[Na+] = low
[K+] = high
[Ca2+] = very low
[Cl-] = low
OUT:[Na+] = high[K+] = low[Ca2+] = low
[Cl-] = high
(blood, interstitial fluid)
Consequences of semi-permeable or SELECTIVE CELL MEMBRANE BARRIER: Concentration gradients
Energy stored in electrochemical gradient is used to do work.
EX: transport of food and water into body from intestinal lumen
Energy stored in electrochemical gradient is used to send signals quickly (2 – 300 miles/hour) along neurons
so that we can perceive and respond to our environment. These signals are used by the control center – the CNS
to send commands to effectors…
Excitable CellsWhat do you already know about neurons, resting potentials, action
potentials, synaptic transmission?
Explanation of Membrane Potential (Please Review):http://bcs.whfreeman.com/thelifewire/content/chp44/4401s.swf
Related Documents
