business - linn–benton community collegecf.linnbenton.edu/mathsci/bio/jacobsr/upload/9 - the cell...
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Business
Midterm 1 is Monday
Study Guide in “Exams and Study Guides” section
Optional review session = Tuesday @ 5:30pm
Bring questions!
Homework due in lab
PreLab #4
Homework Section, pages 27 & 28
Homework #6
Homework Section, pages 15 & 16
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O S M O S I S
The Cell
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Differential Permeability
Semi-permeability
Molecules vary in
Size
Polarity
Charge
Presence of carrier molecules
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Membrane Transport
Passive or active processes
Passive = diffusion and filtration
Active = require energy
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Membrane Transport
Passive processes
No cellular energy (ATP) required
Substance moves down its concentration gradient
Active processes
Energy (ATP) required
Occurs only in living cell membranes
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Membrane Transport
Passive processes
Diffusion
Simple
Osmosis
Facilitated
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Simple Diffusion
Movement of a molecule from high to low concentration
Concentration gradient
Driven by kinetic energy of molecules
No ATP required
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Figure 3.8a
(a) Membrane permeable to both solutes and water
Solute and water molecules move down their concentration gradients
in opposite directions. Fluid volume remains the same in both compartments.
Left
compartment:
Solution with
lower osmolarity
Right
compartment:
Solution with
greater osmolarity
Membrane
H2O
Solute
Solute
molecules
(sugar)
Both solutions have the
same osmolarity: volume
unchanged
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Simple Diffusion
Examples
Non-polar or lipid soluble substances
Diffuse directly through lipid bilayer
Oxygen
Carbon dioxide
Fat soluble vitamins
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Figure 3.7a
Extracellular fluid
Lipid-
soluble
solutes
Cytoplasm
(a) Simple diffusion of fat-soluble molecules
directly through the phospholipid bilayer
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Osmosis
Diffusion of water molecules through a differentially permeable membrane
Follows its concentration gradient
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Facilitated Diffusion
Passive transport
Utilizes carriers or channels embedded in membrane
Relies on concentration gradient
Examples
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Copyright 2009 John Wiley & Sons, Inc.
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Figure 3.7b
Lipid-insoluble
solutes (such as
sugars or amino
acids)
(b) Carrier-mediated facilitated diffusion via a protein
carrier specific for one chemical; binding of substrate
causes shape change in transport protein
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Figure 3.7c
Small lipid-
insoluble
solutes
(c) Channel-mediated facilitated diffusion
through a channel protein; mostly ions
selected on basis of size and charge
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Active Transport
Dependent upon carriers
Moves substances against concentration gradient
Requires ATP
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Active Transport
Advantages
“Stocking up” on needed substances
Elimination of overabundant intracellular substances
Example
Sodium-potassium pump
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Active Transport
Sodium-potassium pump (Na+K+ ATPase)
Located in all plasma membranes
Maintains electrochemical gradients essential for functions of muscle and nerve tissues
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Figure 3.10
Extracellular fluid
K+ is released from the pump protein
and Na+ sites are ready to bind Na+ again.
The cycle repeats.
Binding of Na+ promotes
phosphorylation of the protein by ATP.
Cytoplasmic Na+ binds to pump protein.
Na+
Na+-K+ pump
K+ released
ATP-binding site Na+ bound
Cytoplasm
ATP ADP
P
K+
K+ binding triggers release of the
phosphate. Pump protein returns to its
original conformation.
Phosphorylation causes the protein to
change shape, expelling Na+ to the outside.
Extracellular K+ binds to pump protein.
Na+ released
K+ bound
P
K+
P
Pi
1
2
3
4
5
6
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Other Transport Processes
Passive processes
Filtration
Active processes
Endocytosis
Phagocytosis
Pinocytosis
Receptor mediated endocytosis
Exocytosis
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Figure 3.13a
Phagosome
(a) Phagocytosis
The cell engulfs a large
particle by forming pro-
jecting pseudopods (“false
feet”) around it and en-
closing it within a membrane
sac called a phagosome.
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Figure 3.13b
Vesicle
(b) Pinocytosis
The cell “gulps” drops of
extracellular fluid containing
solutes into tiny vesicles.
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Figure 3.13c
Vesicle
Receptor recycled
to plasma membrane
(c) Receptor-mediated
endocytosis
Extracellular substances
bind to specific receptor
proteins in regions of coated
pits, enabling the cell to
ingest and concentrate
specific substances
in protein-coated
vesicles.
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Exocytosis
Examples
Hormone secretion
Neurotransmitter release
Mucus secretion
Ejection of wastes
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Figure 3.14a
1 The membrane-
bound vesicle
migrates to the
plasma membrane.
2 There, proteins
at the vesicle
surface (v-SNAREs)
bind with t-SNAREs
(plasma membrane
proteins).
The process of exocytosis
Extracellular
fluid
Plasma membrane
SNARE (t-SNARE)
Secretory
vesicle Vesicle
SNARE
(v-SNARE)
Molecule to
be secreted
Cytoplasm
Fused
v- and
t-SNAREs
3 The vesicle
and plasma
membrane fuse
and a pore
opens up.
4 Vesicle
contents are
released to the
cell exterior.
Fusion pore formed
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Osmosis
Definition
Body fluid compartments
Intracellular
Extracellular
Plasma
Interstitial
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Osmosis
Molarity
Number of moles of a solute in a liter of water
When solutions of different molarity are separated by a membrane, osmosis occurs until equilibrium is reached
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Molarity
1 M= a 1 Molar solution
0.5 M= a 0.5 Molar solution
As solute concentration ↑, solvent concentration ↓
Which of the above solutions has a higher concentration of water?
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Osmosis
Tonicity
The ability of a solution to cause a cell to shrink or swell
Isotonic
A solution with the same solute concentration as that of the cytosol
Hypertonic
A solution having greater solute concentration than that of the cytosol
Hypotonic
A solution having lesser solute concentration than that of the cytosol
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FYI
Osmolarity versus tonicity
Osmolarity is a measure of total solute concentration
Tonicity is a property of a solution which depends on the osmotic force exerted across the membrane
This force is influenced by the differing concentrations of solutes
May cause cell to shrink or swell
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Figure 3.8a
(a) Membrane permeable to both solutes and water
Solute and water molecules move down their concentration gradients
in opposite directions. Fluid volume remains the same in both compartments.
Left
compartment:
Solution with
lower osmolarity
Right
compartment:
Solution with
greater osmolarity
Membrane
H2O
Solute
Solute
molecules
(sugar)
Both solutions have the
same osmolarity: volume
unchanged
A B A B
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Figure 3.8b
(b) Membrane permeable to water, impermeable to solutes
Both solutions have identical
osmolarity, but volume of the
solution on the right is greater
because only water is
free to move
Solute molecules are prevented from moving but water moves by osmosis.
Volume increases in the compartment with the higher osmolarity.
Left
compartment
Right
compartment
Membrane
Solute
molecules
(sugar)
H2O
A B
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Osmosis
Osmotic pressure
Force used to lift the water against gravity
The measure of the tendency of water to move into a solution with a higher solute concentration
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Figure 3.9
Cells retain their normal size and
shape in isotonic solutions (same
solute/water concentration as inside
cells; water moves in and out).
Cells lose water by osmosis and
shrink in a hypertonic solution
(contains a higher concentration
of solutes than are present inside
the cells).
(a) Isotonic solutions (b) Hypertonic solutions (c) Hypotonic solutions
Cells take on water by osmosis until
they become bloated and burst (lyse)
in a hypotonic solution (contains a
lower concentration of solutes than
are present in cells).
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RBC with internal osmolarity of 0.3 M
0.3M 0.3M
0.8 M Distilled Water
crenation lysis
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Figure 3.9
Cells retain their normal size and
shape in isotonic solutions (same
solute/water concentration as inside
cells; water moves in and out).
Cells lose water by osmosis and
shrink in a hypertonic solution
(contains a higher concentration
of solutes than are present inside
the cells).
(a) Isotonic solutions (b) Hypertonic solutions (c) Hypotonic solutions
Cells take on water by osmosis until
they become bloated and burst (lyse)
in a hypotonic solution (contains a
lower concentration of solutes than
are present in cells).
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Solutes
Electrolytes
Dissociate into ions in solution
NaCl → Na+ + Cl-
Electrolytes have greater osmotic power than non-electrolytes
Greater ability to cause fluid shifts
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Electrolytes
NaCl Na+ + Cl– electrolyte; two particles
MgCl 2 Mg2+ + 2 Cl - electrolyte; three particles
glucose glucose non-electrolyte; one particle
glucose does not dissociate in water
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Thought Question
A 0.5 M NaCl solution would be isotonic
to a ___M glucose solution
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Thought Question
When the blood becomes hypotonic to the tissues:
a) blood volume increases
b) edema develops
c) hypertension develops
d) all of the above
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Questions?