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2 Lactic acids (Two 3-carbon molecules with an extra H attached)
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4, Disorder
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PART 2 Universal Building Blocks of Life
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respiration is the breakdown or catabolism of organic molecules (such as carbohydrates, lipids, or proteins) within the cell, and in the presence of oxygen Cellular respiration is therefore often called aerobic (air-OH-bik) respiration This is because the process involves the breakdown of organic molecules within cells when oxygen from the air (aero-) is present Cellular respiration (aerobic respiration within cells) most often involves the catabolism of glucose or other simple sugars Cellular respiration, then, starts up where the process of glycolysis stops Glycolysis always provides the cell with a net of 2 ATP molecules/1 glucose molecule catabolized Aerobic respiration provides the cell with many, many more To discuss respiration, we must go where it occurs within the mitochondrion You may recall (from 3) that the mitochondria (my-toeKAHN-dree-uh) are the organelles where the cell s aerobic (oxygen-using) metabolism takes place The mitochondria are literally thread (mito-) granules (chondr) This is evident from an examination of Figure 47 Some mitochondria are long and slender, like threads Others are short and rounded, much like tiny granules But whatever their shape, these mitochondria receive the two pyruvic acids produced from glycolysis Each pyruvic acid then enters the Krebs cycle Named after the German biochemist, Hans Krebs, the Krebs cycle is a repeating cycle of aerobic reactions that break down the pyruvic acids produced by glycolysis The enzymes that run the reactions of the Krebs cycle are located in the middle cavity of each mitochondrion The Krebs cycle rotates twice (once for each of the pyruvic acids fed into it) Along the way, a net total of 2 ATPs, several CO2 molecules, and a number of hydrogen-carrier molecules result The hydrogen-carrier molecules, produced by the Krebs cycle then move onto the electron transport system The electron transport system is located along the cristae (KRIS-tee), the inner crests or ridges of the mitochondrion The large molecules of the electron transport system, as their name indicates, carry high-energy electrons from H atoms down to lower and lower energy levels, releasing considerable amounts of energy along the way A net total of 34 more ATPs are produced from the electron transport process Finally, the transported electrons, now depleted of most of their former energy, are transferred to an oxygen atom The oxygen atom then combines with two H ions, thereby creating water (H2O) The overall equation for cellular (aerobic) respiration, using glucose as the fuel molecule, is:
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C6 H12 O6 Glucose 6 O2 Oxygen ! 6 CO2 Carbon dioxide 6 H2 O Water 36 ATP Free energy
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CHAPTER 4 Chemicals: The Tiniest Blocks
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Animal cell Cytoplasm Glucose enters cell Cow eats green plant Glycolysis
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Aerobic (O2 taken in) Glucose O2 O O
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2 pyruvic acids
Cristae
Pyruvic acid High-energy electrons Electron transport system molecules H-carriers H+ + H ATP O atom CO2 H 2O ATP Mitochondria or thread-granules Krebs cycle
Fig 47 An overview of cellular respiration (aerobic respiration)
PART 2 Universal Building Blocks of Life
Capsulizing this section, we have: Glycolysis alone (anaerobic conditions) 2 ATPs/glucose ! Glycolysis cellular respiration (aerobic conditions) 38 ATPs/glucose !
SUMMARY
Let us now put together what we have learned about metabolism in plants (autotrophs) versus animals (heterotrophs) Photosynthesis uses CO2 and H2O, but gives o O2 Cellular respiration consumes the O2 given o during photosynthesis, and gives o CO2 These CO2 molecules are then picked up by plant cells and consumed during photosynthesis By this exchange of chemicals, photosynthesis feeds cellular respiration what it needs to proceed, while cellular respiration returns the favor And so the Chemical Balance of Life between plants and animals, autotrophs and heterotrophs, goes on and on and on, generating and maintaining Earth s biosphere for hundreds of thousands of years
2, Web
Quiz
Refer to the text in this chapter if necessary A good score is at least 8 correct answers out of these 10 questions The answers are listed in the back of this book 1 Chemical bonds are: (a) Ways in which Biological Disorder is promoted (b) The means by which plants grow without need for any energy (c) Chemical linkages that serve as temporary storers of potential energy (d) Always due to a net loss of outermost electrons between di erent atoms The four major types of chemical body-builders identi ed in this chapter are:
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