cell transport: moving molecules in and out of the cell
DESCRIPTION
Cell Transport: Moving molecules in and out of the cell. Label the following parts of your diagram. Plasma membrane (about 6-7 nm wide) A. Phospholipids (A1 is the phosphate head, A2 is the fatty acid tail) F, G. Proteins Some have channels (G) D. Carbohydrate Glycoproteins (C) - PowerPoint PPT PresentationTRANSCRIPT
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Cell Transport: Moving molecules in and out of the cell
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Label the following parts of your diagram
Plasma membrane (about 6-7 nm wide)
A. Phospholipids (A1 is the phosphate head, A2 is the fatty acid tail)
F, G. Proteins Some have channels (G)
D. Carbohydrate Glycoproteins (C)
– this is a molecule where a carb is attached to a protein Glycolipids (B)
The is a molecule where a carb is attached to a phospholipid
E. Cholesterol
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Plasma membrane
Phospholipid bilayer that surrounds all cells and certain organelles within the cell
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Phospholipids
Hydrophilic Phosphate head
Hydrophobic Fatty acid Tails
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In water what will happen?
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Water on outside of cell
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Water on outside of cell
Also Water on Inside of cell
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Double Layer Allows:
All hydrophobic parts to be away from water
All hydrophilic parts to be near water
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Membranes are MORE than just phospholipids
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Key components
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The role of four key membrane components
Phospholipids allow only small non-polar molecules to enter
Proteins Act as transport for some larger molecules All transport of polar or charged molecules Increase contact with the water
Cholesterol Fluidity control (not too rigid, not too loose (more cholesterol =
more rigid.
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The role of membrane components
Carbohydrates Chains act as “ID” tags help the body to
recognize whether a cell is “self” or “foreign”
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Review of vocabulary
Homeostasis Maintenance of the cells internal conditions (pH, water,
temperature, size, etc)
The main job of the cell membrane is to maintain internal conditions!
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Review of Vocabulary
SolutionHomogeneous mixture
Solute: what is dissolved (in living things this can be glucose, amino acids, salts, etc)
Solvent: What is the dissolver (in living things, this is water)
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What needs to enter and leave the cell
What needs to enter the cell (what goes IN)? Gases like O2, N2, CO2 Ions Small polar molecules (water) Polar molecules (glucose, amino acids, fatty acids,
nucleotides)What needs to leave the cell (OUT)?
excess H2O, CO2, other waste products, glucose (in a leaf cell or in an intestinal cell), ions, large polar molecules (proteins) , N2, O2 (in the case of plant cells)
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Selective Permeability
The membrane allows some, but not all molecules into the cell
The membrane DOES NOT necessarily protect the cell from “Bad things”!
http://www.youtube.com/watch?v=Pt4Ch-YW-xs
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Not everything that passes through the phospholipids of the membrane are good!
Polar molecules like Glucose and water
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What passes through the phospholipid bilayer?
GasesOxygen (O2) and nitrogen (N2) and CO2
http://education.seattlepi.com/kinds-molecules-can-pass-through-plasma-membrane-through-simple-diffusion-4587.html
Sometimes things that aren’t good for us!!!!
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What types require a membrane protein
Look at the diagram (slide 25)…what cannot go through the membrane but is required by cells?
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What do cells need that CAN’T pass through the phospholipid bilayer?
Small polar molecules (H2O) Ions
(Na+, Cl-, K+, Ca++) Large polar molecules
(Sugars, Amino Acids)
How do these things get into the cell????
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These must go through proteins to get in
Need the proteins to “help” (facilitate) moving the molecule into the cell or out of the cell
http://www.d.umn.edu/~sdowning/Membranes/diffusionanimation.html
http://www.youtube.com/watch?v=NC8pIzNzqrc
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Passive Transport
Requires no energy; molecules move from an area of high concentration to an area of low concentration.
Molecules “roll down the hill” to spread out
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Three types of Passive Transport
DiffusionFacilitated DiffusionOsmosis
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Diffusion
Movement of solutes from areas of high concentration to areas of low concentration until concentrations are equal
Move due to a concentration gradient.
Concentration Gradient = differences in Concentration
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Diffusion – Do we need a membrane?
High Conc. Low Conc.
Can occur without a membrane
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Think of it as “spreading out”
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Progression of Liquid Diffusion
http://www.youtube.com/watch?v=aVc_LEuiZ-4
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?
High Conc. Low Conc.
The dye moves from an area of HIGH CONCENTRATION to an area of LOW concentration (of the dye)
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Facilitation
Facilitated Diffusion
movement of solute from high concentration to low concentration
…………..BUT requires transport protein
…………..WHY? to move molecule that are too big or polar to get through the phospholipid bilayer
EXAMPLE: GLUCOSE too big for the PL membrane
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Facilitated Diffusion compared to Diffusion
One requires “help” or facilitation to get through the membrane
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Osmosis
A Passive Process where water moves across a cell membrane from an area that is hypotonic (lots of water, little solute) to an area that is hypertonic (little water, lots of solute). THE SOLUTE DOES NOT MOVE!!!!
PICTURE: Think of water as trying to dilute the concentrated side to make the concentrations equal (it can only do this if water moves, but not the solute!). Eventually both sides are “medium”
Weak Iced Tea Strong Iced Tea
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Osmosis
http://highered.mcgraw-hill.com/sites/0072495855/student_view0/chapter2/animation__how_osmosis_works.html
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Osmosis and Tonicity
Water will move from an area of high concentration of WATER (low solute) to low concentration of water ( high solute)
Tonicity is concerned with the concentration of solute
Water moves from LOW tonicity (high water) to HIGH tonicity (low water)
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A B A B
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TONICITY
Term used to compare the concentrations (of solute) of two solutions
The tonicity will determine in WHICH DIRECTION the water flows
3 ConditionsHypotonic
IsotonicHypertonic
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Terms used to describe tonicity
The solution with the higher concentration is called Hypertonic.
The solution with the lower concentration is called Hypotonic
If the concentrations are equal, they are called Isotonic
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20% Salt Solution
10% Salt Solution
Assume the yellow circle is a cell. Is the salt solution outside the cell hypotonic, hypertonic or isotonic to the cell?
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Outside is Hypertonic
Animal cells swell andCould break open (CYTOLYSIS)
Plant cells exhibit HIGH TURGORPRESSURE (they like this)
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10% Salt Solution
20% Salt Solution
Is the solution hypotonic or hypertonic to the cell?
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?Outside is Hypertonic
Animal cells shrivel. This iscalled CRENATION
The cell membraneof plant cells pulls Away from the cell wallPLASMOLYSIS
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20% Salt Solution
20% Salt Solution
Isotonic:
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Isotonic
Animal cells like thisenvironment(Isotonic cell)
While the PlantCell is at equilibrium, It prefers that theenvironment is hypotonic)
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CrenationC
ytol
ysis
Comparing animal cells at different
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PlasmolysisVs.
Turgidity in Plant cells
- Turgor pressure: Pressure that the water INSIDE the cell puts on
the cell wall. Supports plant
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http://highered.mcgraw-hill.com/sites/9834092339/student_view0/chapter38/animation_-_osmosis.html
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A B A B
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Active Transport
Cell must use energy to force molecules to move across the membrane from a low concentration to a high concentration.
Usually used to move ion and since ions can not go through the phospholipids requires a transport protein . Usually moving from a low to high concentration
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Active Transport:
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Vesicle transport: when molecules are too big for the proteins!
EXOCYTOSIS – moves molecules OUT of the cell
ENDOCYTOSIS – moves molecules INTO the cell.
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Vesicle Transport
Vesicle transport is different from Diffusion, Osmosis, facilitated diffusion and active transport
HOW IS IT DIFFERENT? Moves large quantities
(many molecules) at a time.
Requires energy
Must package the molecules in a vesicle (efficient transport)
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Vesicle Transport
Making a vesicle requires the cell to exert energy in the form of ATP.
Concentration differences don’t matter
Vesicle transport is named based on the direction the vesicle is moving (into or out of the cell)
Moving materials out of a cell in a vesicle is called exocytosis. Moving materials into the cell is called endocytosis.
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Exocytosis – Bulk Transport out of cell
Way of releasing large quantities of stuff from the cell including : Hormones, mucus and cell wastes
NEEDS ATP
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Bulk transport into cell
Endocytosis
PHAGOCYTOSIS
PINOCYTOSIS
(SOLIDS)
(LIQUIDS)
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PHAGOCYTOSIS: “CELL EATING” PROTEINS, BACTERIA, DEAD CELLS ARE ENCLOSED IN A PL. MEMB. SAC.
NEEDS ATP
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PINOCYTOSIS: “Cell Drinking”
Plasma membrane “sinks” below a liquid containing small solutes and the sides “fuse” creating a vesicle
OCCURS IN MOST CELLS, EXP: KIDNEYS AND INTESTINES
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REVIEW of CELL STRUCTURES AND FUNCTIONS (Eukaryotes)
Hperlink for Cell Structure and Function