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Ground Rules of Metabolism

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Ground Rules of Metabolism Chapter 6 6.1 What Is Energy? Capacity to do work Forms of energy Potential energy Kinetic energy Chemical energy What Can Cells Do with ... – PowerPoint PPT presentation

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Title: Ground Rules of Metabolism


1
Ground Rules of Metabolism
  • Chapter 6

2
6.1 What Is Energy?
  • Capacity to do work
  • Forms of energy
  • Potential energy
  • Kinetic energy
  • Chemical energy

3
What Can Cells Do with Energy?
  • Energy inputs become coupled to energy-requiring
    processes
  • Cells use energy for
  • Chemical work
  • Mechanical work
  • Electrochemical work

4
First Law of Thermodynamics
  • The total amount of energy in the universe
    remains constant
  • Energy can undergo conversions from one form to
    another, but it cannot be created or destroyed

5
One-Way Flow of Energy
  • The sun is lifes primary energy source
  • Producers trap energy from the sun and convert it
    into chemical bond energy
  • All organisms use the energy stored in the bonds
    of organic compounds to do work

6
Second Law of Thermodynamics
  • No energy conversion is ever 100 percent
    efficient
  • The total amount of energy is flowing from
    high-energy forms to forms lower in energy

7
Entropy
  • Measure of degree of disorder in a system
  • The world of life can resist the flow toward
    maximum entropy only because it is resupplied
    with energy from the sun

8
6.2 Energy Changes Cellular Work
  • Energy changes in cells tend to run
    spontaneously in the direction that results in a
    decrease in usable energy

9
Endergonic Reaction
glucose - a product with more energy
602 and 6H2O
Energy in
energy-poor starting substances
6
12
Figure 6.5a,bPage 100
10
Exergonic Reaction
glucose - energy-rich starting substance

602
Energy out
6
6
products with less energy
Figure 6.5a,bPage 100
11
Structure of ATP
nucleotide base (adenine)
three phosphate groups
sugar (ribose)
Figure 6.6bPage 101
12
ATP Main Energy Carrier
  • ATP couples energy inputs and outputs
  • ATP/ADP cycle regenerates ATP

ATP
energy output
energy input
ADP Pi
13
Electron Transfers
  • Oxidation - lose electron
  • Reduction - gain electron
  • Central to the formation of ATP during
    photosynthesis and aerobic respiration

14
6.3 Participants in Metabolic Pathways
  • Energy Carriers
  • Enzymes
  • Cofactors
  • Reactants
  • Intermediates
  • Products

15
Degradative and Anabolic Pathways
large energy-rich molecules
ADP Pi
BIOSYNTHETIC PATHWAYS (ANABOLIC)
DEGRADATIVE PATHWAYS (CATABOLIC)
ATP
simple organic compounds
energy-poor products
ENERGY INPUT
16
Types of Reaction Sequences
A
B
C
D
E
F
LINEAR PATHWAY
CYCLIC PATHWAY
G
K
J
I
BRANCHING PATHWAY
N
M
L
H
Figure 6.8Page 102
17
Which Way Will a Reaction Run?
  • Nearly all chemical reactions are reversible
  • Direction reaction runs depends upon
  • Energy content of participants
  • Reactant-to-product ratio

18
Chemical Equilibrium
RELATIVE CONCENTRATION OF PRODUCT
RELATIVE CONCENTRATION OF REACTANT
HIGHLY SPONTANEOUS
EQUILIBRIUM
HIGHLY SPONTANEOUS
Figure 6.9Page 103
19
Chemical Equilibrium
  • Energy in the reactants equals that in the
    products
  • Product and reactant molecules usually differ in
    energy content
  • Therefore, at equilibrium, the amount of reactant
    almost never equals the amount of product

20
No Vanishing Atoms
  • Law of conservation of mass
  • Reactions rearrange atoms, but they never destroy
    them
  • As many atoms of each element in all the products
    as there were in all the reactants

21
6.4 Electron Transfer Chains
  • Arrangement of enzymes, coenzymes, at cell
    membrane
  • As one molecule is oxidized, next is reduced
  • Create H concentration and electric gradients
    that are used for making ATP

22
6.5 Enzyme Structure and Function
  • Enzymes are catalytic molecules
  • They speed the rate at which reactions approach
    equilibrium

23
Four Features of Enzymes
  • 1) Enzymes do not make anything happen that could
    not happen on its own. They just make it happen
    much faster.
  • 2) Reactions do not alter or use up enzyme
    molecules.

24
Four Features of Enzymes

3) The same enzyme usually works for both the
forward and reverse reactions. 4) Each type of
enzyme recognizes and binds to only certain
substrates.
25
Activation Energy
  • For a reaction to occur, an energy barrier must
    be surmounted
  • Enzymes make the energy barrier smaller

activation energy without enzyme
starting substance
activation energy with enzyme
energy released by the reaction
products
Figure 6.12aPage 105
26
Activation Energy
  • Used to
  • Align reactive chemical groups
  • Briefly destabilize electric charges
  • Rearrange, create, and break bonds

27
6.6 Transition State
  • Point when a reaction can easily run in either
    direction, to product or back to a reactant
  • Substrate is bound most tightly to an enzyme in
    this state

28
Mechanisms of Bringing about Transition State
  • Helping substrates get together
  • Orienting substrates in positions favoring
    reaction
  • Shutting out water
  • Inducing changes in enzyme shape

29
Factors Influencing Enzyme Activity
  • Coenzymes and cofactors
  • Allosteric regulators
  • Temperature
  • pH
  • Salt concentration

30
6.7 How Is Enzyme Activity Controlled?
  • Allosteric Activation
  • Allosteric Inhibition
  • Feedback Inhibition

31
Allosteric Activation
enzyme active site
allosteric activator
vacant allosteric binding site
active site cannot bind substrate
active site altered, can bind substrate
Figure 6.15aPage 108
32
Allosteric Inhibition
allosteric inhibitor
allosteric binding site vacant active site can
bind substrate
active site altered, cant bind substrate
Figure 6.15bPage 108
33
Feedback Inhibition

enzyme 2
enzyme 3
enzyme 4
enzyme 5
A cellular change, caused by a specific
activity, shuts down the activity that brought
it about
enzyme 1
END PRODUCT (tryptophan)
SUBSTRATE
Figure 6.16Page 108
34
Effect of Temperature
  • Small increase in temperature increases molecular
    collisions, reaction rates
  • High temperatures disrupt bonds and destroy the
    shape of active site

Figure 6.17bPage 109
35
Effect of pH

Figure 6.17cPage 109
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