The Flow of Energy Within Organisms

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Presentation transcript:

The Flow of Energy Within Organisms

Mighty Mini Motor In The News

Energy and Life Life involves a constant flow of energy Energy = ability to do work Energy states Potential Kinetic

Potential Energy Potential Energy Kinetic Energy Energy not actively doing work Kinetic Energy Energy of motion

Energy Laws Laws of Thermodynamics First law Energy can neither be created or destroyed Second law Disorder in a closed system tend to increase

Entropy Measure of disorder Energy is required to overcome entropy Organisms have an input of energy to continue to function

Energy and Chemical Reactions Chemical reactions release & store energy

Activation Energy Required to start reactions Helps break or destabilize bonds

Exergonic Reaction Energy is released Proceed spontaneously once started Catabolic reactions Breaks complex molecules to simple Releases energy Common in organisms

Endergonic reaction Energy used in bonding reactants Builds molecules Called anabolic reactions

Metabolic Pathways Move, store, & release energy Keep bodies working

Enzymes Lower activation energy Increase rate of reaction (catalyst)

Substrates Substances on which enzymes work Bound to active sites by enzymes

How Enzymes Catalyze an Exergonic Reaction

Enzyme Substrate

Enzymes can Catalyze Reactions Between Two Substrates

Environmental Conditions Affect Enzyme Activity Temperature Can change enzyme shape Can affect enzyme activity

Enzymes Work Best in Conditions Specific to an Organism

Other Factors Affecting Enzymes pH Presence of chemicals binding to enzymes Activators catalyze reactions Inhibitors shuts off enzyme activity

End Products Can regulate enzyme activity

Cofactors Additional parts of enzymes Molecules other than proteins Help catalyze chemical reactions

Coenzymes Organic cofactor Synthesized with vitamins Important for many functions

ATP Adenosine triphosphate Primary energy carrier of living systems

ATP Unstable covalent bonds on phosphate Requires little activation energy High energy transfer potential

Phosphorylation Energy transferred along with phosphate Used for most cellular work

ATP – ADP Cycle ATP loses phosphate group Phosphate is added to ADP Energy is released Hydrolysis Product is ADP (adenosine diphosphate) Phosphate is added to ADP Requires energy from exergonic reactions Dehydration synthesis Product is ATP

End Chapter 6