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1 BIOENERGETICS Copyright Cmassengale. 2 What is Bioenergetics? energyliving systems organisms The study of energy in living systems (environments) and.

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Presentation on theme: "1 BIOENERGETICS Copyright Cmassengale. 2 What is Bioenergetics? energyliving systems organisms The study of energy in living systems (environments) and."— Presentation transcript:

1 1 BIOENERGETICS Copyright Cmassengale

2 2 What is Bioenergetics? energyliving systems organisms The study of energy in living systems (environments) and the organisms (plants and animals) that utilize them Copyright Cmassengale

3 3 Energy Required by all organisms May be Kinetic or Potential energy Copyright Cmassengale

4 4 Kinetic Energy Energy of Motion Heat and light energy are examples Copyright Cmassengale

5 5 Potential Energy Energy of position Energy of position Includes energy stored in chemical bonds Includes energy stored in chemical bonds Copyright Cmassengale

6 6 Two Types of Energy Reactions Copyright Cmassengale

7 7 Endergonic Reactions Chemical reaction energy Chemical reaction that requires a net input of energy. Photosynthesis Photosynthesis 6CO 2 +6H 2 O  C 6 H 12 O 6 + 6O 2 SUN photons Light Energy (glucose) Copyright Cmassengale

8 8 Exergonic Reactions Chemical reactions releases energy Chemical reactions that releases energy Cellular Respiration C 6 H 12 O 6 + 6O 2  6CO 2 + 6H 2 O+ ATP (glucose)Energy Copyright Cmassengale

9 9 Metabolic Reactions of Cells Copyright Cmassengale

10 10 What is Metabolism? sum total chemical activities cells The sum total of the chemical activities of all cells. Copyright Cmassengale

11 11 Two Types of Metabolism Anabolic Pathways Anabolic Pathways Catabolic Pathways Catabolic Pathways Copyright Cmassengale

12 12 Anabolic Pathway Metabolic reactions, consume energy(endergonic), build Metabolic reactions, which consume energy (endergonic), to build complicated molecules from simpler compounds. Photosynthesis Photosynthesis 6CO 2 + 6H 2 O  C 6 H 12 O 6 + 6O 2 SUN lightenergy (glucose) Copyright Cmassengale

13 13 Catabolic Pathway Metabolic reactions release energy (exergonic)breaking down Metabolic reactions which release energy (exergonic) by breaking down complex molecules in simpler compounds Cellular Respiration Cellular Respiration C 6 H 12 O 6 + 6O 2  6CO 2 + 6H 2 O + ATP (glucose) energy Copyright Cmassengale

14 14 Cellular Energy - ATP Copyright Cmassengale

15 15 ATP Components: Components: 1. adenine: nitrogenous base 2. ribose: five carbon sugar 3.phosphate group: chain of 3 ribose adenine PPP phosphate group Copyright Cmassengale

16 16 Adenosine Triphosphate Three phosphate groups-(two with high energy bonds Three phosphate groups-(two with high energy bonds Last phosphate group (PO 4 ) contains the MOST energy Last phosphate group (PO 4 ) contains the MOST energy Copyright Cmassengale

17 17 Breaking the Bonds of ATP phosphorylation Process is called phosphorylation Occurs continually in cells ATP-ase last PO 4 bond Enzyme ATP-ase can weaken & break last PO 4 bond releasing energy & free PO 4 Copyright Cmassengale

18 18 How does ATP work ? enzymes energy-rich glucose Organisms use enzymes to break down energy-rich glucose to release its potential energy adenosine triphosphate(ATP) This energy is trapped and stored in the form of adenosine triphosphate(ATP) Copyright Cmassengale

19 19 How Much ATP Do Cells Use? each cell 10,000,000 molecules of ATP per second It is estimated that each cell will generate and consume approximately 10,000,000 molecules of ATP per second Copyright Cmassengale

20 20 Coupled Reaction - ATP exergonic hydrolysis ATP endergonic dehydration process transferring phosphate group The exergonic hydrolysis of ATP is coupled with the endergonic dehydration process by transferring a phosphate group to another molecule. H2OH2OH2OH2O H2OH2OH2OH2O Copyright Cmassengale

21 21 Hydrolysis of ATP ATP + H 2 O  ADP + P (exergonic) Hydrolysis (add water) PPP Adenosine triphosphate (ATP) PP P + Adenosine diphosphate (ADP) Copyright Cmassengale

22 22 Hyrolysis is Exergonic Energy Used by Cells Copyright Cmassengale

23 23 Dehydration of ATP ADP + P  ATP + H 2 O (endergonic ADP + P  ATP + H 2 O (endergonic ) PPP Adenosine triphosphate (ATP) PP P + Adenosine diphosphate (ADP) Dehydration (Remove H 2 O Copyright Cmassengale

24 24 Dehydration is Endergonic Energy is restored in Chemical Bonds Copyright Cmassengale

25 25 Review Copyright Cmassengale

26 26 How many high energy phosphate bonds does ATP have? Copyright Cmassengale

27 27 Which is true of photosyntheis? Anabolic or Catabolic ExergonicOrEndergonic Copyright Cmassengale

28 28 The breakdown of ATP is due to: DehydrationorHydrolysis H 2 O addedorH 2 O removed Copyright Cmassengale

29 29 Which Reactions are often Coupled in Organisms Hydrolysis or Dehydration Anabolism or Catabolism EndergonicorExergonic BOTH BOTH BOTH Copyright Cmassengale

30 30 Ready for the test? If not, review and try again!!! Copyright Cmassengale

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