biological concepts bmz 116 section b
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Biological Concepts BMZ 116 Section B. Set your “clickers” to Channel 28. - PowerPoint PPT PresentationTRANSCRIPT
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Biological ConceptsBMZ 116 Section B
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http://www.cas.muohio.edu/~meicenrd/BMZ116/TBMZ116.htm
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http://www.cas.muohio.edu/~meicenrd/BMZ116/TBMZ116.htm
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http://www.cas.muohio.edu/~meicenrd/bmz116/homeworkinstructions.html
MAKE SURE TO COMPLETE HOMEWORK QUIZZES BY THE DUE DATE !
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I am a
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Freshman Sophomore Junior Senior
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A. Freshman
B. Sophomore
C. Junior
D. Senior
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I am devoting a total of __ hours each week to BMZ 116.
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A. 0 – 2 h
B. 3 – 4 h
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I. 18 – 19 h
J. 20 – 21 h
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BUDGET ENOUGH TIME FOR THIS CLASS IN YOUR WEEKLY SCHEDULE.
• The "rule of thumb" is: 2 - 3 hours of homework per credit hour of class.
• This is a 4 credit hour class, so budget at least __?__ homework hours per week for this class, OUTSIDE of the time your spend in lecture and laboratory.
•That means a total commitment of 3 hrs (lecture) + 2 hrs (lab) + _?_ hrs (homework) = _TOTAL_ hrs/week devoted to BMZ116.
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Now I plan on devoting a total of __ hours each week to BMZ 116.
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A. 0 – 2 h
B. 3 – 4 h
C. 5 – 6 h
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F. 11 – 13 h
G. 14 – 15 h
H. 16 – 17 h
I. 18 – 19 h
J. 20 – 21 h
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Converting the Suns Nuclear Fusion Energy to Human Flesh
You should have read Chapter 8 Introduction to Metabolism Before Coming to Class
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•Overview: The Energy of Life
•The living cell
– Is a miniature factory where thousands of reactions occur
– Converts energy in many ways
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http://plantsinmotion.bio.indiana.edu/usbg/toc.htm
•Some organisms
•Convert light to energy, as in photosynthesis
http://earthobservatory.nasa.gov/Library/OzoneWeBreathe/Images/flourescence.jpg
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• Some organisms
• Convert energy to light, as in bioluminescence
http://www.shoarns.com/Luminous.html
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http://www.shoarns.com/Luminous.html
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Metabolism = All controlled, enzyme‑mediated chemical reactions by which cells acquire and use energy.
Transcription & Translation Control
An organism’s metabolism transforms matter and energy, subject to the laws of thermodynamics
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Compartmentalization
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Organization of the Chemistry of Life into Metabolic Pathways
• A metabolic pathway has many steps
– That begin with a specific molecule and end with a product
– That are each catalyzed by a specific enzyme
Enzyme 1 Enzyme 2 Enzyme 3
A B C DReaction 1 Reaction 2 Reaction 3
Startingmolecule
Product
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Organization of the Chemistry of Life into Metabolic Pathways
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• Types of metabolic pathways
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• Energy
– Is the capacity to cause change
– Exists in various forms, of which some can perform work• Work = Distance X Force
Metabolism = All controlled, enzyme‑mediated chemical reactions by which cells acquire and use energy.
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Kinds of Work
1. Mechanical eg. Controlled Fall down Mad River Mountain
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Kinds of Work
2. Transport eg. heart
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Kinds of Work
3. Electrochemical eg. Nerves
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• Kinetic energy
– Is the energy associated with motion
• Potential energy
– Is stored in the location of matter
– Includes chemical energy stored in molecular structure
Forms of Energy
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Climbing up converts kinetic
energy of muscle movement
to potential energy.
Energy can be converted from one form to another
Diving platform over sink hole,
Wakulla Springs FL
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Higher up on the platform, a diver
has more potential energy
Energy can be converted from one form to another
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Diving converts potential
energy to kinetic energy.
Energy can be converted from one form to another
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Energy can be converted from one form to another
In the water, a diver has less potential energy
having transferred kinetic energy to the
water.
Divers chemical potential energy could be transferred if the gators kinetic energy exceeds that of the
diver
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The Laws of Energy Transformation
• Thermodynamics
– Is the study of energy transformations
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The First Law of Thermodynamics
– Energy can be transferred and transformed
– Energy cannot be created or destroyed
www.flmnh.ufl.edu/cnhc/potm-jul01.html
The chemical (potential)
energy in food will be converted to the kinetic
energy of the alligators movement
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http://www.smh.com.au/news/world/battle-of-the-giants-python-bursts-eating-gator/2005/10/06/1128191820927.html
Battle of the giants: python bursts eating gatorOctober 6, 2005 - 10:34AM
Unless you bite off
more than you can digest!
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The Second Law of Thermodynamics
– Conversion of energy from one source to another source is never 100% efficient, some energy is always lost as heat
– No process can take place which results in a net decrease in the entropy of the universe
• Entropy = Degree of randomness or disorder in a system
www.saltgrassflats.com/wildlife/alligator.html
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The Second Law of Thermodynamics– Spontaneous changes that do not require outside energy increase
the entropy, or disorder, of the universe
Every energy transfer or transformation
increasesthe disorder (entropy) of the universe. For example, disorder is added to the gator’ssurroundings in the form of heat and the small molecules that are the by-products
of metabolism.www.saltgrassflats.com/wildlife/alligator.html
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•Living systems are highly ordered
Do living organisms violate the Second Law of Thermodynamics?
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Do living organisms violate the Second Law of Thermodynamics?
Sun ‑ Ultraviolet image spanning about a month
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Galileo image of Earth & Moon
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Plants
Advanced Very High Resolution Radimeter image of Vegetation Index Aug 1987
Dark‑blue & green = Dense Vegetation Pink & dark red = Sparse Vegetation
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Plants
Little more than 10% of old growth forest remains in Pacific Northwest Mt Hood National Forest
Dark red = Old Growth; Light Red = Regrowth; Pink= Young seedlings;
Blue = No timber due to logging
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4. Chloroplasts (Photosynthesis)
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5. Animals/Plants (Cellular Respiration)
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Hertzsprung‑Russel Diagram depicting stellar evolution
Even the Sun is subject to the Laws of
Thermodynamics
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Projected Life History of our Sun
Link to Discussion on Red Giants Link to Discussion on Stellar Evolution
All terrestrial life will be extinct 500 million years from now
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• Which of the following represents the ∆G of the reaction? – a
– b
– c
– d
– e
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Which of the following represents the ∆G of the reaction?
20% 20% 20%20%20%
1. a
2. b
3. c
4. d
5. e
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• For a process to be spontaneous
• ∆G must be negative
– Either give up enthalpy, ∆H is negative
– Or give up order, ∆S is positve
– Or both
∆G = ∆H – T∆S
T = temperature
The free-energy change of a reaction tells us whether the reaction occurs spontaneously
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• The change in free energy, ∆G during a biological process
– Is related directly to the enthalpy change (∆H) and the change in entropy (∆S)
∆G = ∆H – T∆S
The free-energy change of a reaction tells us whether the reaction occurs spontaneously
T = temperature
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Free-Energy Change, G
•A living system’s free energy
– Is energy that can do work under cellular conditions
Ergonic = grk “work” En = “in” Ex = “out”
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Free Energy, Stability, and Equilibrium
• Organisms live at the expense of free energy
• During a spontaneous change
– Free energy decreases and the stability of a system increases
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• At maximum stability
– The system is at equilibrium
Chemical reaction. In a cell, a sugar molecule is broken down into simpler molecules.
.
Diffusion. Molecules in a drop of dye diffuse until they are randomly dispersed.
Gravitational motion. Objectsmove spontaneously from ahigher altitude to a lower one.
• More free energy (higher G)• Less stable• Greater work capacity
• Less free energy (lower G)• More stable• Less work capacity
In a spontaneously change • The free energy of the system decreases (∆G<0) • The system becomes more stable• The released free energy can be harnessed to do work
(a) (b) (c)
Figure 8.5
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Free Energy and Metabolism
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Endergonic and Exergonic Reactions in Metabolism
Energy
Products
Amount ofenergyreleased (∆G>0)
Reactants
Progress of the reaction
Fre
e e
ne
rgy
(b) Endergonic reaction: energy required Figure 8.6
Reactants
Products
Energy
Progress of the reaction
Amount ofenergyreleased
(∆G <0)
Fre
e e
ne
rgy
(a) Exergonic reaction: energy released
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PHOTOSYNTHESIS CELLULAR RESPIRATION
∆G = +686 kcal/mol
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Equilibrium and Metabolism
• Reactions in a closed system
– Eventually reach equilibrium
Figure 8.7 A
(a) A closed hydroelectric system. Water flowing downhill turns a turbine that drives a generator providing electricity to a light bulb, but only until the system reaches equilibrium.
∆G < 0 ∆G = 0
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• Cells in our body
– Experience a constant flow of materials in and out, preventing metabolic pathways from reaching equilibrium
Figure 8.7
(b) An open hydroelectric system. Flowing water keeps driving the generator because intake and outflow of water keep the system from reaching equlibrium.
∆G < 0
Equilibrium and Metabolism
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• An analogy for cellular respiration
Figure 8.7 (c) A multistep open hydroelectric system. Cellular respiration is analogous to this system: Glucoce is brocken down in a series of exergonic reactions that power the work of the cell. The product of each reaction becomes the reactant for the next, so no reaction reaches equilibrium.
∆G < 0
∆G < 0
∆G < 0
Equilibrium and Metabolism
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The Structure and Hydrolysis of ATP
• ATP (adenosine triphosphate)
– Is the cell’s energy shuttle
– Provides energy for cellular functions
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• ATP hydrolysis
– Can be coupled to other reactions
Endergonic reaction: ∆G is positive, reaction is not spontaneous
∆G = +3.4 kcal/molGlu Glu
∆G = + 7.3 kcal/molATP H2O+
+ NH3
ADP +
NH2
Glutamicacid
Ammonia Glutamine
Exergonic reaction: ∆ G is negative, reaction is spontaneous
P
Coupled reactions: Overall ∆G is negative; together, reactions are spontaneous ∆G = –3.9 kcal/molFigure 8.10
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How ATP Performs Work
• ATP drives endergonic reactions
– By phosphorylation, transferring a phosphate to other molecules
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• The three types of cellular work
– Are powered by the hydrolysis of ATP
(c) Chemical work: ATP phosphorylates key reactants
P
Membraneprotein
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
GluGlu
NH3
NH2
P i
P i
+ +
Reactants: Glutamic acid and ammonia
Product (glutamine)made
ADP+
P
Figure 8.11
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I. Metabolism = All controlled, enzyme‑mediated chemical reactions by which cells acquire and use energy.
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I. Metabolism = All controlled, enzyme‑mediated chemical reactions by which cells acquire and use energy.
The active siteIs the region on the enzyme where the
substrate binds
Induced fit of a substrateBrings chemical groups of
the active site into positions that enhance their ability to
catalyze the chemical reaction
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Active site
Specific orientation Temporary bonds
Changing shape Bond Strains
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The activation energy, EAIs the initial amount of energy needed to start a chemical reaction Is often supplied in the form of heat from the surroundings in a system
An enzyme catalyzes reactions By lowering the EA barrier
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Organization of the Chemistry of Life into Metabolic Pathways
• A metabolic pathway has many steps
– That begin with a specific molecule and end with a product
– That are each catalyzed by a specific enzyme
Enzyme 1 Enzyme 2 Enzyme 3
A B C DReaction 1 Reaction 2 Reaction 3
Startingmolecule
Product
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• The catalytic cycle of an enzyme
Substrates
Products
Enzyme
Enzyme-substratecomplex
1 Substrates enter active site; enzymechanges shape so its active siteembraces the substrates (induced fit).
2 Substrates held inactive site by weakinteractions, such ashydrogen bonds andionic bonds.
3 Active site (and R groups ofits amino acids) can lower EA
and speed up a reaction by• acting as a template for substrate orientation,• stressing the substrates and stabilizing the transition state,• providing a favorable microenvironment,• participating directly in the catalytic reaction.
4 Substrates are Converted intoProducts.
5 Products areReleased.
6 Active siteIs available fortwo new substrateMole.
Figure 8.17
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I. Metabolism = All controlled, enzyme‑mediated chemical reactions by which cells acquire and use energy.
Competetive Inhibition Non-competetive Inhibition
Feed back Inhibition
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• Each enzyme
– Has an optimal temperature in which it can function
Figure 8.18
Optimal temperature for enzyme of thermophilic
Rat
e o
f re
actio
n
0 20 40 80 100Temperature (Cº)
(a) Optimal temperature for two enzymes
Optimal temperature fortypical human enzyme
(heat-tolerant) bacteria
Effects of Local Conditions on Enzyme Activity
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– Has an optimal pH in which it can function
Figure 8.18
Rat
e o
f re
actio
n
(b) Optimal pH for two enzymes
Optimal pH for pepsin (stomach enzyme) Optimal pH
for trypsin(intestinalenzyme)
10 2 3 4 5 6 7 8 9
Effects of Local Conditions on Enzyme Activity
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Cofactors
• Cofactors
– Are nonprotein enzyme helpers
• Coenzymes
– Are organic cofactors
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Allosteric Regulation of Enzymes
• Allosteric regulation
– Is the term used to describe any case in which a protein’s function at one site is affected by binding of a regulatory molecule at another site
Allosteric Activation and Inhibition
• Many enzymes are allosterically regulated
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– They change shape when regulatory molecules bind to specific sites, affecting function
Stabilized inactiveform
Allosteric activaterstabilizes active fromAllosteric enyzme
with four subunitsActive site
(one of four)
Regulatorysite (oneof four)
Active formActivator
Stabilized active form
Allosteric activaterstabilizes active form
InhibitorInactive formNon-functionalactivesite
(a) Allosteric activators and inhibitors. In the cell, activators and inhibitors dissociate when at low concentrations. The enzyme can then oscillate again.
Oscillation
Figure 8.20
Allosteric Activation and Inhibition
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• Cooperativity
– Is a form of allosteric regulation that can amplify enzyme activity
Figure 8.20
Binding of one substrate molecule toactive site of one subunit locks all subunits in active conformation.
Substrate
Inactive form Stabilized active form
(b) Cooperativity: another type of allosteric activation. Note that the inactive form shown on the left oscillates back and forth with the active form when the active form is not stabilized by substrate.
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Feedback Inhibition
The end product of a metabolic pathway shuts down the pathway
Active siteavailable
Isoleucineused up bycell
Feedbackinhibition
Isoleucine binds to allosteric site
Active site of enzyme 1 no longer binds threonine;pathway is switched off
Initial substrate(threonine)
Threoninein active site
Enzyme 1(threoninedeaminase)
Intermediate A
Intermediate B
Intermediate C
Intermediate D
Enzyme 2
Enzyme 3
Enzyme 4
Enzyme 5
End product(isoleucine)
Figure 8.21
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Specific Localization of Enzymes Within the Cell
• Within the cell, enzymes may be
– Grouped into complexes
– Incorporated into membranes
– Contained inside organelles
1 µm
Mitochondria,sites of cellular respiraion
Figure 8.22