1. Chapter 7
Respiration

2. Cellular Respiration (p 222)
process that releases energy… by breaking down glucose (sugar)… and other food molecules… in the presence of oxygen
Energy is released in a SLOW controlled way
Video

3. 3 stages of Cellular Respiration
(Each step captures some energy and makes it ATP)

5. Glycolysis
1 molecule of glucose is broken down in ½ , producing 2 molecules of pyruvic acid and a 3 carbon compound-

6. 2 ATP molecules into its “account” to get glycolysis going
FACTS
1st step of cell resp.
2 ATP molecules into its “account” to get glycolysis going
Energy releasing process (2ATP→4ATP)
Amount of energy made is small- but happens quickly
1,000’s of ATP made in a few milli-seconds
Takes place in cytoplasm

7. The formula for aerobic cellular respiration is
C6H12O6 + O2 → CO2 + H2O + Energy (as ATP)
The word equation for this is:
Glucose + Oxygen → Carbon dioxide + Water + Energy (as ATP)

8.
ATP- charged battery
ADP uncharged battery

9. No oxygen? During fermentation:
cells convert NADH to NAD+ by passing high-energy electrons back to pyruvic acid.
This action converts NADH back into the electron carrier NAD+,
…..allows glycolysis to continue producing a steady supply of ATP.

10. Fermentation Sore Muscles, wine and beer, bread…
Def: releases energy from food by making ATP WITHOUT oxygen (anaerobic)
2 types
Alcoholic Fermentation
Lactic Acid Fermentation

11. Alcoholic Used by yeast and other microbes Causes dough to rise
CO² is released ( this is why bread has spaces)

12. Make wine. Yeast, grapes, sugar and dark place cool place…
Make wine? Yeast, grapes, sugar and dark place cool place….and a way for Co2 bubbles to escape-

13. Lactic Acid Fermentation
Pyruvic acid → Lactic Acid
Vigorous Exercise…(sprinting)
after a while oxygen cannot reach the muscles fast enough and you run out…
so in order to keep going anyway…your muscles keep producing ATP thru Lactic Acid Fermentation…
sore muscles

14. Uni-cellular org produce LA as a waste during fermentation
Kimchi
Cheese
Yogurt
Buttermilk

16. Have Oxygen ?
At the end of glycolysis, about 90 percent of the chemical energy that was available in glucose is still unused, locked in the high-energy electrons of pyruvic acid.
To extract the rest of that energy, the cell turns to one of the world's most powerful electron acceptors—oxygen.
Oxygen is required for the final steps of cellular respiration. Because the pathways of cellular respiration require oxygen, they are said to be aerobic.

17. Krebs and electron transport
2nd stage:
The Krebs cycle is named after Hans Krebs, the British biochemist who demonstrated its existence in  
During the Krebs cycle, pyruvic acid is broken down into carbon dioxide in a series of energy-extracting reactions.

18. Then….
  The electron transport chain uses the high-energy electrons from the Krebs cycle…. to convert ADP into ATP.
See video

19. Aerobic vs Anaerobic Resp
Aerobic- oxygen needed to make ATP
Krebs cycle
An-aerobic- fermentation
Lactic acid
alcoholic

20. How much energy is in food
Food energy is measured in calories
Food is for
Chemical building blocks for bodies
Raw materials for new molecules
Energy
1 gram of glucose= 3811 calories of heat energy…… WOW???!!!!!!

21. WOW???!!!
On the label, foods are actually in kilocalories not calories
1000 calories- 1 kilocalorie
Hershey kiss= 22 kilo-calories REALLY (22,000 calories)-

22. Calorimeter
Calorie- amount of energy needed to raise the temperature of 1 gram of water , up 1 degree Celsius

23. How efficient is the process of cellular respiration?
The 36 ATP molecules the cell makes per glucose represent about 38 percent of the total energy of glucose.
That might not seem like much, but it means that the cell is actually more efficient at using food than the engine of a typical automobile is at burning gasoline.
What happens to the remaining 62 percent? It is released as heat, which is one of the reasons your body feels warmer after vigorous exercise

24. Equation for Respiration
Observations?
The formula for aerobic cellular respiration is
C6H12O6 + O2 → CO2 + H2O + Energy (as ATP)
The word equation for this is:
Glucose + Oxygen → Carbon dioxide + Water + Energy (as ATP)

25. Photosynthesis vs. Respiration
Study the relationships between the 2

26. Creatine (GNC- Vitamin Shoppe)
Creatine Phosphate
Occurs naturally in muscle cells
Contains reserve of energy
Its P- group can be removed to make more ATP, from ADP, when there is a short supply
Will help to sustain intense activity longer
*** Can cause kidney damage though, if used improperly…

28. Start race (1 sec – 10 sec)
11 sec- 90 sec
ATP already in muscles (STORED- only lasts a few seconds)
ATP from fermentation (90 seconds or 50 meters)
Steady pace (2min-19 min)
ATP from Cell Resp…. energy in muscle and tissues: “carbohydrate glycogen”, lasts for 15 or 20 min.
Steady Pace (20 min +)
Stored molecules (fat) used (as energy supply
End race
Breathe deeply to remove lactic acid- extra oxygen needed

30. Energy and ExerciseBang
Energy and ExerciseBang! The starter's pistol goes off, and the runners push off their starting blocks and sprint down the track. The initial burst of energy soon fades, and the runners settle down to a steady pace. After the runners hit the finish line, they walk around slowly and breathe deeply to catch their breath.Let's look at what happens at each stage of the race in terms of the pathways the body uses to release energy. To obtain energy, the body uses ATP already in muscles and new ATP made by lactic acid fermentation and cellular respiration. At the beginning of a race, the body uses all three ATP sources, but stored ATP and lactic acid fermentation can only supply energy for a limited

31. time.Quick Energy What happens when your body needs lots of energy in a hurry? In response to sudden danger, quick actions might make the difference between life and death. To an athlete, a sudden burst of speed might win a race.Cells normally contain small amounts of ATP produced during glycolysis and cellular respiration. When the starting gun goes off in a footrace, the muscles of the runners contain only enough of this ATP for a few seconds of intense activity. Before most of the runners have passed the 50-meter mark, that store of ATP is nearly gone. At this point, their muscle cells are producing most of their ATP by lactic acid fermentation. These sources can usually supply enough ATP to last about 90 seconds. In a 200- or 300-meter sprint, this may be just enough to reach the finish line.Fermentation produces lactic acid as a byproduct. When the race is over, the only way to get rid of lactic acid is in a chemical pathway that requires extra oxygen. For that reason, you can think of a quick sprint building up an oxygen debt that a runner has to repay after the race with plenty of heavy

32. breathing. Long-Term Energy What happens if a race is longer
breathing.Long-Term Energy What happens if a race is longer? How does your body generate the ATP it needs to run 2 kilometers or more, or to play in a soccer game that lasts more than an hour? For exercise longer than about 90 seconds, cellular respiration is the only way to generate a continuing supply of ATP. Cellular respiration releases energy more slowly than fermentation, which is why even well-conditioned athletes have to pace themselves during a long race or over the course of a game. Your body stores energy in muscle and other tissues in the form of the carbohydrate glycogen. These stores of glycogen are usually enough to last for 15 or 20 minutes of activity. After that, your body begins to break down other stored molecules, including fats, for energy. This is one reason why aerobic forms of exercise such as running, dancing, and swimming are so beneficial for weight control.