Practice Lecture Exam 2

... The light-dependent reactions occur during the daylight hours; the light-independent reactions occur when it is dark. d. The light-dependent reactions produce water as a by-product; the light-independent reactions produce carbon dioxide as a waste product. e. The products of the light-dependent reac ...

Part A: Multiple Choice (10 marks- Knowledge) - OISE-IS

... 2. Draw out the reaction that takes place during pyruvate oxidation. a. Only the starting material and the final product need to be shown. Do not draw the intermediate compounds. (2 marks) b. Name the compounds (2 marks) c. Complete the coupled reaction (arrow). (1 mark) d. Fill out the boxes showi ...

Biology-1 Sample Questions for Exam Two Facilitated diffusion

... 13. Which of the following statements regarding enzyme function is false? a. An enzyme's function depends on its three-dimensional shape. b. Enzymes are very specific for certain substrates. c. Enzymes are used up in chemical reactions. d. Enzymes emerge unchanged from the reactions they catalyze. e ...

ETC Details

... • Broken down into glucose • Starts at glycolysis ...

Cellular Energy

... • Lactic acid fermentation and alcoholic fermentation ...

AP Biology: Chapter 9

... 23. Write the summary equation for cellular respiration: a. Where did the glucose come from? b. Where did the O2 come from? c. Where did the CO2 come from? d. Where did the H2O come from? e. Where did the ATP come from? f. What else is produced that is not listed in this equation? ...

Bez nadpisu

... A summary of the points of entry of the standart amino acids into the citric acid cycle. Some amino acids are listed more than once; these are broken down to yield different fragments, each of which enters the citric acid cycle at a different point. This scheme represents the major catabolic pathwa ...

Cellular Respiration

... • Step 5: 5C molecule broken down – 5C molecule broken down into 4C molecule – CO2 waste created – More NADH created – ATP created ...

notes for cell resp - Fullfrontalanatomy.com

... A. AcetylCoA enters the cycle and combines with oxaloacetate to form a six carbon citrate (citric acid) B. Rearrangement of the molecule yield NADH and CO2 C. Loss of the CoA drives GDP to GTP which drives ADP to ATP D. FAD is reduced to FADH2 E. More rearrangements produce NADH and oxaloacetate F. ...

Lecture DONE exam 1A MP

... 17. Photosynthesis and Oxidative phosphorylation have the following in common A) In eukaryotes, both processes reside in specialized organelles B) ATP synthesis in both processes relies on the chemiosmotic mechanism C) Both use electron transport D) Both require light E) A, B and C 18. The main fun ...

Marine Mammal Dive Response

... During a dive, a Weddell seal’s blood flow to the abdominal organs is shut off and oxygen-rich blood is diverted to the eyes, brain, and spinal cord. Which of the following is the most likely reason for this adaptation? A. To increase the number of red blood cells in the nervous system B. To increa ...

Slide 1 - MisterSyracuse.com

... the whole thing falls apart. Most of the time, mitosis goes very smoothly. However, mistakes can be made. One such mistake has been recently reported in a paper from 2005. The scientists who discovered the mistake found that in some cells, instead of just two centrosomes (one at each side of the cel ...

acetyl-CoA - Winona State University

... The Trick: the nicotinamide functional group either has a charge (NAD+; oxidized;low energy) or has an extra electron and proton (reduced; high energy; NADH). The Nic-ring structure stabilizes the extra electron so the energy in the electron can be transferred between molecules. NADH electrons most ...

Cellular Respiration (CR

... eukaryotic cells (location and names of processes involved)? How many ATP’s are produced from each cell type? --------------------------------------------Define: The process of releasing energy (ATP) from food (glucose). ...

Quiz #3 - San Diego Mesa College

... B) is used to manufacture ATP by coupling its build up to exergonic chemical reactions C) is released a little bit at a time in a series of chemical reactions D) is released after fermentation E) both, b and c Q. 16: Which of the following is NOT true of glycolysis? A) no carbon dioxide is released ...

Cell Respiration

... You should now be able to: 1. Explain in general terms how redox reactions are involved in energy exchanges 2. Name the three stages of cellular respiration; for each, state the region of the eukaryotic cell where it occurs and the products that result 3. In general terms, explain the role of the e ...

Cell Respiration DiagramSkit WS NEW

... For the following, fill in the blanks. Most of the terms are from the above bank, and a few are not. 1. The purpose of cell respiration is to __________________________________________, which takes place in the _____________________________ of the cell. There are _____ major steps. 2. The first step ...

Unit Two “Energy Acquisition”

... 2. The “Phosphorylated” Glucose is split in two, forming 2 three-carbon sugar phosphates 3. In a series of reactions, both three-carbon sugars phosphate groups are converted to “Pyruvate” 4. The above Pyruvate forming process liberates Hydrogen so it can bond with NAD+ to form NADH, and 2 ATP’s are ...

Name - straubel

... Go to the second link on the webquest page and watch the movie. In which direction is the upper unit of ATP synthase moving, clockwise or counter cw? ...

Cellular Respiration II PPT

... - Through several redox reactions, the energy from these electrons is used to pump hydrogens across the inner mitochondrial membrane. - By creating a concentration gradient of hydrogens, ATP is made using ATP Synthase. ...

Aerobic and Anaerobic Respiration - SBI

... • For one molecule of glucose, 36 molecules of ATP are formed ...

SBI4U: Unit 2 Review, Metabolic Processes SAMPLE TEST

... do they do, where are they made? 8. Summarize the 2 major phases of glycolysis. Be able to understand the role of glucose, fructose 1-6 bisphosphate, glyceraldehyde-3-phosphate, 1,3 bisphosphoglycerate, phosphoenolpyruvate and pyruvate. How many ATP and NADH are generated in glycolysis? 9. What woul ...

Chapter 8 - University of South Alabama

... ATPs for a grand total of 36 ATPs per glucose molecule. ...

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Mitochondrion

The mitochondrion (plural mitochondria) is a double membrane-bound organelle found in most eukaryotic cells. The word mitochondrion comes from the Greek μίτος, mitos, i.e. ""thread"", and χονδρίον, chondrion, i.e. ""granule"" or ""grain-like"".Mitochondria range from 0.5 to 1.0 μm in diameter. A considerable variation can be seen in the structure and size of this organelle. Unless specifically stained, they are not visible. These structures are described as ""the powerhouse of the cell"" because they generate most of the cell's supply of adenosine triphosphate (ATP), used as a source of chemical energy. In addition to supplying cellular energy, mitochondria are involved in other tasks, such as signaling, cellular differentiation, and cell death, as well as maintaining control of the cell cycle and cell growth. Mitochondria have been implicated in several human diseases, including mitochondrial disorders, cardiac dysfunction, and heart failure. A recent University of California study including ten children diagnosed with severe autism suggests that autism may be correlated with mitochondrial defects as well.Several characteristics make mitochondria unique. The number of mitochondria in a cell can vary widely by organism, tissue, and cell type. For instance, red blood cells have no mitochondria, whereas liver cells can have more than 2000. The organelle is composed of compartments that carry out specialized functions. These compartments or regions include the outer membrane, the intermembrane space, the inner membrane, and the cristae and matrix. Mitochondrial proteins vary depending on the tissue and the species. In humans, 615 distinct types of protein have been identified from cardiac mitochondria, whereas in rats, 940 proteins have been reported. The mitochondrial proteome is thought to be dynamically regulated. Although most of a cell's DNA is contained in the cell nucleus, the mitochondrion has its own independent genome. Further, its DNA shows substantial similarity to bacterial genomes.

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Mitochondrion