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Chapter 9 Cell Respiration
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How much energy is in food?
One gram of _______ “burned” (oxidized) in presence of _______ = 3811 calories of heat energy A _______ is the amount of _______ needed to raise the temperature of one gram of water one degree Celsius. Kilocalorie on food labels (1 Calorie = 1000 calories) When cells “burn” glucose, they release the _______ contained within its _______ bonds.
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Oxygen or not? Anaerobic: “not in air” Does not require _______
Glycolysis and fermentation Aerobic pathways in cell respiration need _______ to release _______ from food. Krebs cycle and ETC
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Overview of Cell Respiration
Cellular respiration is the process that releases _______ by breaking down _______ in the presence of _______. 6O2 + C6H12O6 6CO2 + 6H2O + Energy oxygen + glucose carbon dioxide + water + energy Respiration Overview (3:50)
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Study diagram on page 222.
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The MIGHTY Mitochondrion
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Glycolysis Process in which one molecule of _______ is broken in half, producing two molecules of ________ _______ (pyruvate) Energy input of ___ _____; ___ _____ produced; net gain of ___ _____. 2 ATP 2 ADP 4 ADP 4 ATP Two advantages: speed and does not require oxygen. Cells can produce thousands of ATP molecules in just a few milliseconds. When a cell generates large amounts of energy from ATP, it runs into a problem. In just a few seconds, all of the NAD+ is filled with electrons and the cell cannot keep glycolysis going, thus stopping ATP production. 2NAD+ 2 Pyruvic acid 2
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Glycolysis 2NAD+ Overview of Glycolysis (3:00)
Two high-energy _______ and ____ picked up by NAD+ to make _______ Energy in NADH carried to _____ No _______ needed and high _______ are the advantages. It’s a form of _____ production in O2-deprived cells (muscle) and red blood cells (no mitochondria) 2 ATP 2 ADP 4 ADP 4 ATP 2NAD+ 2 2 Pyruvic acid Overview of Glycolysis (3:00)
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Fermentation If there is no _______ present, cell will go through _____________ Cells convert _______ to NAD+ by passing high energy _______ back to _________, allowing glycolysis to continue producing a steady supply of _____. __________ discovered it’s carried out by microbes
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Alcoholic Fermentation
Forms _____________ and _____ as wastes. Occurs mainly in _______ and a few other microorganisms Causes bread dough to _______ When yeast in dough run out of _______, they begin to ferment, giving off bubbles of ______. Small amount of alcohol evaporates. Process explained in 1897 by German chemist Eduard Buchner – The birth of _____________ - how exciting!!! C6H12O6 + zymase 2C2H5OH + 2CO2
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Lactic Acid Fermentation
Regenerates NAD+ so _______ can continue. Produced during vigorous exercise in _______ Rapid production of ATP Lactic acid (lactate) is a _______ product Buildup of lactate in _____________ causes a painful, burning sensation, but only temporarily Broken down into ____ and _____ by liver Moves the metabolic burden from ___________ to ___________
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Lactic Acid Fermentation
Metabolism of Lactic Acid – The Cori Cycle
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Lactic Acid Fermentation
Cheese, yogurt, sour cream, pickles, and sauerkraut are all produced using lactic acid fermentation.
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Review The first step of cellular respiration is…
Where does glycolysis occur? What occurs if there no oxygen present after glycolysis?
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Review What are the two types of fermentation?
This type of fermentation occurs in muscle cells: ________________ Two types of phosphorylation in mitochondrion?
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Glycolysis (review) Process in which one molecule of glucose is broken in half, producing two molecules of pyruvic acid (pyruvate) Energy input of 2 ATP 2 ATP 2 ADP 4 ADP 4 ATP Two advantages: speed and does not require oxygen. Cells can produce thousands of ATP molecules in just a few milliseconds. 2NAD+ 2 Pyruvic acid 2
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Krebs Cycle During the Krebs cycle, _________ is broken down into CO2 in a series of ________-extracting reactions. Occurs in the _______ of mitochondrion. First described by Sir ______ _________ (1937) Awarded Nobel Prize in Physiology or Medicine in 1953 aka: The Citric Acid Cycle
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Krebs Cycle Begins when __________ enters. One carbon from pyruvate becomes a part of _____ and is released from the cell. At the same time, 2 _______ are combined with 1 H+ ion changing NAD+ into _____. Next, _________ A joins the remaining 2 carbon molecules from pyruvate to form ________-CoA. Acetyl-CoA adds its two- carbon acetyl group to a 4-carbon compound (oxaloacetate) producing ________ acid (citrate).
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Krebs Cycle _______ is broken down into a 5-carbon compound (alpha-ketoglutarate) and more _____ is released. Again, 2 electrons and 1 H+ ion convert NAD+ to NADH. Then, another carbon atom leaves in ____ as a waste product, leaving the 4-carbon compound _______ acid (malate).
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Krebs Cycle Krebs Overview (1:55)
Following that, NAD+ picks up 2 __________ and an ____ ion and becomes __________. Also, ADP is converted into _____. Next, ______ picks up 2 __________ and 2 _____ ions and becomes __________ Finally, another ______ picks up 2 __________ and an _____ ion and oxaloacetate moves on to start the cycle again. Krebs Overview (1:55)
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Where do the products of the Krebs Cycle go?
CO2 released into the _______ ATP used for cell activities NADH and FADH2 used to generate large amounts of _____ in the ______.
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Review Where does the Krebs cycle take place?
Number of ATPs generated by Krebs for each molecule of glucose? Two electron carriers generated by Krebs? Waste product of Krebs?
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Electron Transport Chain
The ETC uses high-energy _______ from the _______ _______ to convert 32 ADPs to 32 ATPs. Series of carrier proteins located in inner ____________ of ______________. O2 is essential for getting rid of low-energy electrons and hydrogen ions (wastes of cell respiration) ADP
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________ serves as the final electron acceptor of the ETC.
High-energy _______ from NADH and FADH2 are passed from one carrier to the next. At the end, an enzyme combines these electrons with H+ ions and oxygen to form _______. ________ serves as the final electron acceptor of the ETC. ADP
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Electron Transport Chain
Each time 2 ________ travel down the ETC, their energy is used to pump _____ ions across the membrane from the matrix to the intermembrane space of the ____________. _____ ions build up in the intermembrane space, making it __________ charged and the outside __________ charged. ADP
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Electron Transport Chain
This imbalance of _______ between the matrix and the intermembrane space causes H+ ions to move through _____ ___________. ATP synthase turns when this happens, converting _____ to _____ Average of 3 ATPs for every pair of _________ ETC Review (2:02) ADP
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Review Number of ATPs produced in ETC? Waste product of ETC?
Purpose of energetic electrons? Location of ETC in eukaryotes? Prokaryotes? What enables ATP synthase to produce ATP?
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So What’s the Point?? The overall goals of the four pathways are:
a. Glycolysis: to convert ________into ______ for fermentation or _______ b. Fermentation: to produce ______ to keep _______ going c. Krebs: to produce _______ and _______ for the _____ d. ETC: to produce large amounts of _____ for the cell
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How much energy does a single molecule of glucose provide?
Glycolysis = 2 ATP Krebs Cycle = 2 ATP ETC = 32 ATP TOTAL = 36 ATP 18 times more ATP produced than _______ Respiration extracts about 38 percent of total _______ of _______. Remaining 62 percent released as ______
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What happens when you need a burst of energy?
Your cells contain enough _____ for only a few seconds of intense activity. When you participate in vigorous ________, after a few seconds your body will begin to produce _____ by _______ _______ fermentation. This type of ATP production will last about 90 _______.
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What happens if you need energy for longer than 90 seconds?
________ respiration is the only way to generate a continuing supply of ______. Releases ________ slower than fermentation. Which means athletes need to train and pace themselves. Body stores energy in muscle and liver in the form of the carb ___________, which can supply energy for mins. After that, body breaks down stored molecules, like ________ & _______ for energy. This is why running, swimming, etc. are so good for weight control.
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Comparing Photosynthesis and Respiration
_______ flow takes place in ________ directions Photosynthesis ________energy; respiration ___________ energy Cell respiration occurs in all eukaryotes and nearly all prokaryotes. Photosynthesis occurs only in plants, algae, and some bacteria. What happens to O2 and CO2 in plant cell?
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