chapter 4aaitken.weebly.com/uploads/5/5/7/4/55745595/ch4_lecture.pdf · • the disorder (entropy)...
TRANSCRIPT
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Chapter 4 The Energy of Life
Bicyclists: © Tyler Stableford/The Image Bank/Getty Images
•Copyright © McGraw-Hill Education. All rights reserved. No reproduction or distribution without the prior written consent of McGraw-Hill Education.
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Chapter 4 Outline
I. Energy, TheMetabolism
II. Networks of Chemical Reactions Sustain Life
III. Cellular Energy-ATP
IV. Enzymes
I. Functions
II. Regulations
V. Membrane Transport
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All Cells Capture and Use Energy
Section 4.1
Many of this biker’s cells are extracting energy from food and using it to power his muscles.
Bicyclist: © Tyler Stableford/The Image Bank/Getty Images
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All Cells Capture and Use Energy
Section 4.1
But what is energy?
Energy is the ability to do work—to move matter.
Bicyclist: © Tyler Stableford/The Image Bank/Getty Images
Types of Energy:
Kinetic & Potential
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Energy Has Different Forms
Section 4.1 Figure 4.1
High potential energy
High kinetic energy
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Potential energy can be converted to kinetic energy (& vice versa)
Potential Energy Kinetic Energy
Thermodynamics
Thermodynamics – study of energy transformation in a
system
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Laws of Thermodynamics: Explain the characteristics of energy
1st Law:
• Energy is conserved
• Energy is not created or destroyed
• Energy can be converted (Chemical Heat)
2nd Law:
• During conversions, amount of useful energy decreases
• No process is 100% efficient
Thermodynamics
Energy is converted from more useful to less useful forms
• Entropy (measure of disorder) is increased
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Ex. The First Law of Thermodynamics
For example, the chemical (potential) energy
in food will be converted to the kinetic
energy of the cheetah’s movement
Chemical
energy
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Second Law of Thermodynamics• The disorder (entropy) in the universe is
continuously increasing.
– Energy transformations proceed spontaneously
to convert matter from a more ordered, less
stable form, to a less ordered, more stable form
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– During each conversion, some of the energy dissipates into the environment as heat.
– During every energy transfer or transformation, some energy is unusable, often lost as heat
– Heat is defined as the measure of the random motion of molecules
For example, disorder is added to the cheetah’ssurroundings in the form of heat
and the small molecules that are the by-products of metabolism.
Heat co2
H2O+
Second Law of Thermodynamics
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– Living cells unavoidably convert organized forms of energy to heat
– According to the second law of thermodynamics, every energy transfer or transformation increases the entropy (disorder) of the universe
For example, disorder is added to the cheetah’ssurroundings in the form of heat
and the small molecules that are the by-products of metabolism.
Heat co2
H2O+
Second Law of Thermodynamics
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Section 4.1 Figure 4.2
Notice that heat energy is lost at each step. Heat energy is disordered and cannot be converted back to a useful form of energy… second law of thermodynamics.
Energy Transformations Are Inefficient
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Energy Transformations Are Inefficient
Section 4.1 Figure 4.3
Entropy is a measure of the randomness, or disorder, of the universe.
Light bulb photos: © Ryan McVay/Riser/Getty Images
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Energy Transformations Are Inefficient
Section 4.1 Figure 4.3
Since heat energy is constantly being lost to the universe, and heat energy is disordered, the entropy of the universe is increasing. This is called the second law of thermodynamics.
Light bulb photos: © Ryan McVay/Riser/Getty Images
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Clicker Question #1
To the right, the same light bulb is shown at three different stages of falling (1, 2, and 3). Assume stage 2 is the moment just before impact, and stage 3 is just after impact. At what stage is potential energy the highest? At what stage is entropy the highest?
A. 2; 3B. 1; 2C. 3; 1D. 3; 2E. 1; 3
1
2
3
Flower: © Doug Sherman/Geofile/RF; Light bulb photos: © Ryan McVay/Riser/Getty Images
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Clicker Question #1
To the right, the same light bulb is shown at three different stages of falling (1, 2, and 3). Assume stage 2 is the moment just before impact, and stage 3 is just after impact. At what stage is potential energy the highest? At what stage is entropy the highest?
A. 2; 3B. 1; 2C. 3; 1D. 3; 2E. 1; 3
1
2
3
Flower: © Doug Sherman/Geofile/RF; Light bulb photos: © Ryan McVay/Riser/Getty Images
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4.1 Mastering Concepts
Give an example of how your body has both potential and kinetic energy.
Bicyclists: © Tyler Stableford/The Image Bank/Getty Images
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Chemical Reactions Sustain Life
Section 4.2 Figure 4.4
Metabolism includes all chemical reactions in cells, including those that build new molecules and those that break down existing molecules.
Building complex molecules out of simple parts
Breaking complex molecules into simple parts
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Metabolic reactions:
• Chemical reactions in organism
Anabolic = builds
up molecules
Metabolism
Two Types of Metabolic Reactions:
Catabolic = breaks
down molecules
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Chemical Reactions Sustain Life
Section 4.2 Figure 4.4
Chemical reactions can also be classified according energy requirements.
Endergonic- require energyExergonic- release energy
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Free Energy
Energy of a system
• Gibb’s free energy = energy available to cause change
• difference in free energy (ΔG) - predict if rxn will occur
• If ΔG (+) or 0,
• If ΔG (-),
-process non-spontaneous
-consume energy
-process spontaneous
-release energy
• system – moves to more stable (lower energy)
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Chemical Reactions
• Exergonic reaction • Endergonic reaction
-ΔG
release free energy
spontaneous
+ΔG (or 0)
intake free energy
non-spontaneous
Glucose CO2 + H20 CO2 + H20 Glucose
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Chemical Reactions:
• Like home offices – tend toward disorder
Chemical Reactions
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Chemical Reactions:
• Endergonic – energy required to complete reaction
• Exergonic – energy given off
Exergonic
Endergonic
Chemical Reactions
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2. Endergonic reactions: “Energy in”
•Products have more energy than reactants
•Requires influx of energy »
1. Exergonic reactions: “Energy out”• Reactants have more energy than products
• Reaction releases energy
Chemical Reactions
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Reactant Reactant
Product
Product
ExergonicEndergonic
Energy isreleased.
Energymust besupplied.
En
erg
y s
up
plie
dE
ne
rgy r
ele
as
ed
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
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Chemical Reactions Sustain Life
Section 4.2 Figure 4.5
Most energy transformations in organisms occur in oxidation-reduction reactions by simply transferring
electrons from one molecule to another
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Chemical Reactions Sustain Life
Section 4.2 Figure 4.5
Oxidation is the loss of electrons from an atom or molecule; these reactions release energy. “The Giver”
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Chemical Reactions Sustain Life
Section 4.2 Figure 4.5
Reduction is the gain of electrons (and whatever energy contained in the electrons) by an atom or molecule.
These reactions require energy. (The Receiver)
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Chemical Reactions Sustain Life
Section 4.2 Figure 4.6
An electron transport chain is a series of membrane proteins participating in sequential oxidation-reduction
reactions. Energy is released at each step. (bucket brigade)
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Chemical Reactions Sustain Life
Section 4.2 Figure 4.6
Photosynthesis and cellular respiration both use electron transport chains.
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Clicker Question #2
In the reaction at the end of the electron transport chain, molecule X is being ___ and molecule Y is being ____.
A. oxidized … reducedB. reduced … oxidized
molecule X
molecule Y
Flower: © Doug Sherman/Geofile/RF
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Clicker Question #2
In the reaction at the end of the electron transport chain, molecule X is being ___ and molecule Y is being ____.
A. oxidized … reducedB. reduced … oxidized
molecule X
molecule Y
Flower: © Doug Sherman/Geofile/RF
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4.2 Mastering Concepts
What are oxidation and reduction, and why are they always linked?
Bicyclists: © Tyler Stableford/The Image Bank/Getty Images
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ATP Is the Cellular Energy Currency
Section 4.3 Figure 4.7
Adenosine triphosphate (ATP) is a nucleotide that temporarily stores energy.
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ATP Is the Cellular Energy Currency
Section 4.3 Figure 4.7
All cells rely on the potential energy stored in ATP to power chemical reactions.
Bond with high potential energy
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ATP Is the Cellular Energy Currency
Section 4.3 Figure 4.8
Removing the endmost phosphate group by hydrolysis releases the potential energy stored in ATP.
The cell uses this energy to do work.
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ATP Is the Cellular Energy Currency
Section 4.3 Figure 4.9
ATP must then be reformed. Mitochondria release energy from food, producing ATP from ADP.
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Cellular Work
• A cell does three main kinds of work
– Mechanical
– Transport
– Chemical
• Energy coupling is a key feature in the way cells
manage their energy resources to do this work
• ATP powers cellular work by coupling exergonic
reactions to endergonic reactions
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ATP Is the Cellular Energy Currency
Section 4.3
ATP formation is coupled with exergonic reactions. ATP breakdown is coupled with endergonic reactions.
Producing ATP
“Spending” ATP
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Energy Coupling - ATP / ADP Cycle
• Releasing the third phosphate from ATP to make ADP generates energy
(exergonic):
• Linking the phosphates together requires energy - so making ATP from
ADP and a third phosphate requires energy (endergonic),
• Catabolic pathways drive the regeneration of ATP from ADP and
phosphate
ATP synthesis from
ADP + P i requires energy
ATP
ADP + P i
Energy for cellular work
(endergonic, energy-
consuming processes)
Energy from catabolism
(exergonic, energy yielding
processes)
ATP hydrolysis to
ADP + P i yields energy
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How ATP Performs Work
• ATP drives endergonic reactions by
phosphorylation, transferring a phosphate
group to some other molecule, such as a
reactant
• The recipient molecule is now phosphorylated
• The three types of cellular work (mechanical,
transport, and chemical) are powered by the
hydrolysis of ATP
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ATP Hydrolysis Is Coupled with Endergonic Reactions
Section 4.3 Figure 4.10
Phosphorylation
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How ATP Performs Work
• ATP drives endergonic reactions by phosphorylation,
transferring a phosphate to other molecules - hydrolysis of
ATP
(c) Chemical work: ATP phosphorylates key reactants
P
Membrane
protein
Motor protein
P i
Protein moved
(a) Mechanical work: ATP phosphorylates motor proteins
ATP
(b) Transport work: ATP phosphorylates transport proteins
Solute
P P i
transportedSolute
Glu GluNH3
NH2
P i
P i
+ +
Reactants: Glutamic acid
and ammoniaProduct (glutamine)
made
ADP+
P
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ATP Hydrolysis Is Coupled with Energy-Requiring Reactions
Section 4.3 Figure 4.10
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Clicker Question #3
Which reaction is likely coupled with hydrolysis of ATP?
A.
B.
Flower: © Doug Sherman/Geofile/RF
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Clicker Question #3
Which reaction is likely coupled with hydrolysis of ATP?
A.
B.
Flower: © Doug Sherman/Geofile/RF
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4.3 Mastering Concepts
Describe the relationships amongenergy-requiring reactions, ATP hydrolysis, and cellular respiration.
Bicyclists: © Tyler Stableford/The Image Bank/Getty Images
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.9
Chemical reactions in cells must occur very quickly to sustain life.
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.11
An enzyme is a protein that speeds up a chemical reaction without being consumed.
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.11
Substrate molecules bind to the enzyme’s active site, where the chemical reaction occurs.
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.11
Once the chemical reaction occurs, product molecules are released. The enzyme retains its original form.
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.11
Note that not all enzymes break a single substrate into two products. Other enzymes combine two substrates into one
product, for example.
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.11
An enzyme speeds up a chemical reaction by lowering the activation energy—the energy required to start the reaction.
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Activation Energy• All reactions, both endergonic and exergonic, require an input of energy
to get started. This energy is called activation energy
• The activation energy, EA
– Is the initial amount of energy needed to start a chemical reaction
– Activation energy is needed to bring the reactants close together and
weaken existing bonds to initiate a chemical reaction.
– Is often supplied in the form of heat from the surroundings in a system.
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Fre
e e
ne
rgy
Progress of the reaction
∆G < O
EAA B
C D
Reactants
A
C D
B
Transition state
A B
C D
Products
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Reaction Rates
• In most cases, molecules do not have enough
kinetic energy to reach the transition state when
they collide.
• Therefore, most collisions are non-productive, and
the reaction proceeds very slowly if at all.
• What can be done to speed up these reactions?
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Increasing Reaction Rates
• Add Energy (Heat) - molecules move faster so they collide
more frequently and with greater force.
• Add a catalyst – a catalyst reduces the energy needed to
reach the activation state, without being changed itself.
Proteins that function as catalysts are called enzymes.
Reactant
Product
CatalyzedUncatalyzed
Product
Reactant
Activationenergy
Activationenergy
En
erg
y s
up
plied
En
erg
y r
ele
ased
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
Activation Energy and Catalysis
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Enzymes Lower the EA Barrier
• An enzyme catalyzes reactions by lowering
the EA barrier
Progress of the reaction
Products
Course of
reaction
without
enzyme
Reactants
Course of
reaction
with enzyme
EA
without
enzymeEA with
enzyme
is lower
∆G is unaffected
by enzyme
Fre
e e
nerg
y
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Enzymes Are Biological
Catalysts• Enzymes are proteins that carry out most catalysis in
living organisms.
• Unlike heat, enzymes are highly specific. Each enzyme typically speeds up only one or a few chemical reactions.
• Unique three-dimensional shape enables an enzyme to stabilize a temporary association between substrates.
• Because the enzyme itself is not changed or consumed in the reaction, only a small amount is needed, and can then be reused.
• Therefore, by controlling which enzymes are made, a cell can control which reactions take place in the cell.
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Substrate Specificity of Enzymes
• Almost all enzymes are globular proteins with one or more active sites on their surface.
• The substrate is the reactant an enzyme acts on
• Reactants bind to the active site to form an enzyme-substrate complex.
• The 3-D shape of the active site and the substrates must match, like a lock and key
Substate
Active site
Enzyme
Enzyme- substrate
complex
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Substrate Specificity of Enzymes• Binding of the substrates causes the enzyme to adjust its
shape slightly, leading to a better induced fit.
• Induced fit of a substrate brings chemical groups of the active site into positions that enhance their ability to catalyze the chemical reaction
• When this happens, the substrates are brought close together and existing bonds are stressed. This reduces the amount of energy needed to reach the transition state.
Substate
Active site
Enzyme
Enzyme- substrate
complex
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The Catalytic Cycle Of An Enzyme
Substrates
Products
Enzyme
Enzyme-substrate
complex
1 Substrates enter active site; enzyme
changes shape so its active site
embraces the substrates (induced fit).
2 Substrates held in
active site by weak
interactions, such as
hydrogen bonds and
ionic bonds.
3 Active site (and R groups of
its amino acids) can lower EA
and speed up a reaction by
• acting as a template for
substrate orientation,
• stressing the substrate bonds
and stabilizing the
transition state,
• providing a favorable
microenvironment,
• participating directly in the
catalytic reaction.
4 Substrates are
Converted into
Products.
5 Products are
Released.
6 Active site
Is available for
two new substrate
Mole.
Figure 8.17
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1 The substrate, sucrose, consists
of glucose and fructose bonded together.
Bond
Enzyme
Active site
The substrate binds to the enzyme,
forming an enzyme-substrate
complex.
2
H2O
The binding of the substrate
and enzyme places stress on
the glucose-fructose bond,
and the bond breaks.
3
Glucose Fructose
Products are
released, and the
enzyme is free to
bind other
substrates.
4
The Catalytic Cycle Of An Enzyme
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Factors Affecting Enzyme
Activity• Temperature - rate of an enzyme-
catalyzed reaction increases with
temperature, but only up to an optimum
temperature.
• pH - ionic interactions also hold enzymes
together.
• Inhibitors and Activators
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Effects of Temperature and pH• Each enzyme has an optimal temperature in
which it can function
Optimal temperature for
enzyme of thermophilic
Ra
te o
f re
actio
n
0 20 40 80 100Temperature (Cº)
(a) Optimal temperature for two enzymes
Optimal temperature for
typical human enzyme
(heat-tolerant)
bacteria
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Effects of Temperature and pH– Each enzyme has an optimal pH in which it can
function
Figure 8.18
Ra
te o
f re
actio
n
(b) Optimal pH for two enzymes
Optimal pH for pepsin
(stomach enzyme)Optimal pH
for trypsin
(intestinal
enzyme)
10 2 3 4 5 6 7 8 9
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Enzyme Inhibitors• Competitive inhibitors bind to the active site of an enzyme,
competing with the substrate
(b) Competitive inhibition
A competitive
inhibitor mimics the
substrate, competing
for the active site.
Competitive
inhibitor
A substrate can
bind normally to the
active site of an
enzyme.
Substrate
Active site
Enzyme
(a) Normal binding
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Enzyme Inhibitors• Noncompetitive inhibitors bind to another
part of an enzyme, changing the function
A noncompetitive
inhibitor binds to the
enzyme away from
the active site, altering
the conformation of
the enzyme so that its
active site no longer
functions.
Noncompetitive inhibitor
(c) Noncompetitive inhibition
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.11
Many enzymes have non-protein partners called cofactors that help catalyze reactions. Some cofactors are metals (e.x. Zn, Fe, Cu, Mg) Others are organic molecules called coenzymes (e.x. B-vitamins)
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Enzymes Speed Biochemical Reactions
Section 4.4 Figure 4.4
Only some chemical reactions are occurring in a cell at a given time. How does the cell control the rate of chemical reactions?
Feedback loops
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Many Factors Affect Enzyme Activity
Section 4.4 Figure 4.13
In a process called negative feedback, the product of a reaction slows the production of more product.
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Many Factors Affect Enzyme Activity
Section 4.4 Figure 4.13
In the opposite process, called positive feedback, the product of a reaction stimulates its own production.
Positive feedback
Enzyme 4’s product stimulates action
of enzyme 1
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Clicker Question #4
According to the graph, at what temperature do you predict the bacterial enzyme becomes denatured?
A. 55°CB. 66°CC. 73°CD. 78°C
Flower: © Doug Sherman/Geofile/RF
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Clicker Question #4
According to the graph, at what temperature do you predict the bacterial enzyme becomes denatured?
A. 55°CB. 66°CC. 73°CD. 78°C
Flower: © Doug Sherman/Geofile/RF
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4.4 Mastering Concepts
What do enzymes do in cells?
Bicyclists: © Tyler Stableford/The Image Bank/Getty Images
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Substances Enter and Exit Cells By Multiple Methods
Section 4.5
A cell’s interior is chemically different from its exterior. It maintains this difference by regulating transport of dissolved
substances (solutes) across its membrane.
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Section 4.5
Solutes enter and exit cells by different methods, depending on two factors: concentration gradients and the chemical nature of
the substance (polarity, charge, and size).
Substances Enter and Exit Cells By Multiple Methods
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Section 4.5
“Gradient” Describes a Difference Between Neighboring Regions
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Section 4.5
At the top, the black pixels are abundant and close together.
High concentration of black pixels
“Gradient” Describes a Difference Between Neighboring Regions
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Section 4.5
At the top, the black pixels are abundant and close together.
High concentration of black pixels
Low concentration of black pixels
At the bottom, the black pixels are sparse.
“Gradient” Describes a Difference Between Neighboring Regions
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Section 4.5
This image is a concentration gradient of black pixels, with high concentration at the top and low concentration at the bottom.
At the top, the black pixels are abundant and close together.
High concentration of black pixels
Low concentration of black pixels
At the bottom, the black pixels are sparse.
“Gradient” Describes a Difference Between Neighboring Regions
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Section 4.5
This image is a concentration gradient of black pixels, with high concentration at the top and low concentration at the bottom.
High concentration of black pixels
Low concentration of black pixels
This arrow points down the concentration gradientsince it starts at high concentration and ends at low concentration of black pixels.
“Gradient” Describes a Difference Between Neighboring Regions
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Section 4.5
The balls within this box have the same concentration gradient as the black pixels did.
High concentration of balls
Low concentration of balls
This arrow points down the concentration gradientsince it starts at high concentration and ends at low concentration of balls.
Concentration Gradients Have a Tendency to Dissipate
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Section 4.5
If the balls started bouncing around the box at random, they would become more evenly distributed over time.
High concentration of balls
Low concentration of balls
This arrow points down the concentration gradientsince it starts at high concentration and ends at low concentration of balls.
Concentration Gradients Have a Tendency to Dissipate
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Section 4.5
This is how it would look after time has passed. No energy is required to dissipate the gradient; it occurs by random motion.
Concentration Gradients Have a Tendency to Dissipate
Equal distribution of balls
No concentration gradient
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Section 4.5
Maintaining this distribution of balls within the box requires energy, since the concentration gradient has a tendency to dissipate.
High concentration of balls
Low concentration of balls
This arrow points down the concentration gradientsince it starts at high concentration and ends at low concentration of balls.
Concentration Gradients Have a Tendency to Dissipate
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Membrane Transport May Release or Cost Energy
How cells transport substances across their membranes:• Passive transport
• Simple diffusion• Facilitated diffusion• Osmosis
• Active transport• Endocytosis/exocytosis
Section 4.5
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Section 4.5
Passive transport occurs when concentration gradients dissipate across a biological membrane.
Table 4.2
Passive Transport Does Not Require Energy
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Section 4.5
In simple diffusion, particles move from high concentration to low concentration—that is, they move down their concentration gradient.
Low concentration areas
High concentration areas
Figure 4.15
Passive Transport Does Not Require Energy
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Section 4.5
Osmosis, the diffusion of water down its concentration gradient, is also a type of passive transport.
Figure 4.16
Passive Transport Does Not Require Energy
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Section 4.5
Water moves toward high solute concentrations as it moves down its concentration gradient.
Figure 4.17
Passive Transport Does Not Require Energy
All blood cells: © Dr. David M. Phillips/Visuals Unlimited
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Section 4.5 Figure 4.17
Equal solute concentrations inside
and outside cell
Passive Transport Does Not Require Energy
All blood cells: © Dr. David M. Phillips/Visuals Unlimited
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Section 4.5 Figure 4.17
Higher solute concentration inside cell
Passive Transport Does Not Require Energy
All blood cells: © Dr. David M. Phillips/Visuals Unlimited
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Section 4.5 Figure 4.17
Lower solute concentration inside cell
Passive Transport Does Not Require Energy
All blood cells: © Dr. David M. Phillips/Visuals Unlimited
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Section 4.5 Figure 4.18
Passive Transport Does Not Require Energy
Plant photos © Nigel Cattlin/Science Source
Osmosis determines how much water is in plant cells. Hypotonic surroundings result in a loss of turgor pressure, causing the plant to wilt.
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Section 4.5
Facilitated diffusion is passive transport that requires membrane proteins.
Table 4.2
Passive Transport Does Not Require Energy
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Membrane Proteins Transport Ions and Polar Molecules
Section 4.5
The hydrophobic tails of phospholipids repel hydrophilic substances. Therefore, ions (such as Cl- and Na+) and polar substances must pass
through a protein channel to cross the membrane.
Table 4.2
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Active Transport Requires Energy
Section 4.5
In active transport, the cell uses energy and a transport protein to move a substance against its concentration gradient.
Table 4.2
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For example, the sodium-potassium pump uses ATP to transportNa+ and K+
across the membrane.
Figure 4.19Section 4.5
Active Transport Requires Energy
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Clicker Question #5Why does the sodium-potassium pump require energy? Refer to the image below.
A. It uses a membrane protein.B. It transports ions.C. It moves solutes against their concentration gradients.D. All of the choices are correct.
Flower: © Doug Sherman/Geofile/RF
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Clicker Question #5Why does the sodium-potassium pump require energy? Refer to the image below.
A. It uses a membrane protein.B. It transports ions.C. It moves solutes against their concentration gradients.D. All of the choices are correct.
Flower: © Doug Sherman/Geofile/RF
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Large Substances Enter or Leave Cells in Vesicles
Endocytosis allows a cell to engulf fluids and large molecules and bring them into the cell.
Figure 4.20Section 4.5
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Large Substances Enter or Leave Cells in Vesicles
Section 4.5
Exocytosis uses vesicles to transport substances out of cells.
Figure 4.21
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Membrane Transport Summary
Is the substance nonpolar?
Yes
No
Is the substance moving down its concentration gradient?
Yes
No
Is the substance very large?
No
Yes
Is the substance entering or leaving the cell?
Exocytosis
Facilitated diffusion
Simple diffusion
Active transport
Entering Endocytosis
Leaving
Section 4.5
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Clicker Question #6
This solute is ____, and its transport _____ require ATP.
A. polar … does notB. polar … doesC. nonpolar … does notD. nonpolar … does
Flower: © Doug Sherman/Geofile/RF
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Clicker Question #6
This solute is ____, and its transport _____ require ATP.
A. polar … does notB. polar … doesC. nonpolar … does notD. nonpolar … does
Flower: © Doug Sherman/Geofile/RF
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4.5 Mastering Concepts
Distinguish between simple diffusion, facilitated diffusion, and active transport.
Bicyclists: © Tyler Stableford/The Image Bank/Getty Images
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Investigating Life: Does Natural Selection Some Genetic Illnesses?
Section 4.6
Membrane proteins called CFTR occur in tissues that secrete watery fluids, such as the linings of the lungs and intestines.
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Investigating Life: Does Natural Selection Maintain Cystic Fibrosis?
Section 4.6
CFTR proteins move chloride ions out of cells by active transport. Water follows by osmosis.
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Investigating Life: Does Natural Selection Maintain Cystic Fibrosis?
Section 4.6
In the lungs, CFTR proteins help to thin the mucus. Patients with cystic fibrosis lack functional CFTR proteins. The mucus remains thick, making breathing difficult.
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Investigating Life: Does Natural Selection Maintain Cystic Fibrosis?
Section 4.6
In contrast, the cholera toxin overstimulates CFTR proteins, resulting in watery diarrhea and severe dehydration.
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Investigating Life: Does Natural Selection Maintain Cystic Fibrosis?
Section 4.6
The faulty CFTR proteins that cause cystic fibrosis might be maintained in the population by protecting against cholera.
Figure 4.22