lecture slides of chap8

... A metal ion with a net +3 charge has five electrons in the 3d subshell. What is this metal? (a) Cr (b) Mn (c) Fe (d) Co (e) Ni This species has +3 charges, which indicates that it has three more protons than the electrons. According to the question that it has five electrons in the 3d subshell, and ...

Unit_5_Topic_7_Run_for_your_life_Revision_Questions

... 1. the structure of a muscle fibre 2. the way in which muscles, tendons, the skeleton and ligaments interact to enable movement, including antagonistic muscle pairs, extensors and flexors. 3. the overall reaction of aerobic respiration as splitting of the respiratory substrate (eg glucose) to releas ...

Cellular Respiration

STUDY GUIDE: GLYCOLYSIS, FERMENTATION AND ANAEROBIC

... KEY TERMS cellular respiration ...

Oxygen

...  Used by yeast, bacteria, and other cells when oxygen is not available.  Final electron acceptor: Organic molecule.  Very inefficient: Only 2% of glucose energy is converted into ATP.  Products depend on type of fermentation: Lactic acid fermentation: Used to make cheese and yogurt. Carried out ...

Chapter 6: How Cells Harvest Energy

...  Used by yeast, bacteria, and other cells when oxygen is not available.  Final electron acceptor: Organic molecule.  Very inefficient: Only 2% of glucose energy is converted into ATP.  Products depend on type of fermentation: Lactic acid fermentation: Used to make cheese and yogurt. Carried out ...

Respiration

... matrix. Some ATP and other energy carrying molecules are produced here. The gas carbon dioxide is a byproduct of this process. The Electron Transport Chain Most of the ATP is produced in this last step of cellular respiration. Electron transport takes place in the infoldings of the inner-membrane of ...

Energy and Respiration

... ATP, ADP is formed and energy is released. ATP + H2O = ADP + H3PO4 ± 30.5kJ ATP is the universal intermediary molecule. It is known as the energy ...

Chapter 9: Cellular Respiration 1 Photosynthesis and Respiration

BIOLOGY 1 QUIZ REVIEW SHEET CHAPTER 4.4

... 17. NADH and FADH2 are formed in the Krebs cycle and enter the ___electron_____ transport chain. 18. NADH and FADH2 are _____energy_____ carrying molecules 19. H diffuse out of the channel protein and ADP makes ____ATP____. ATP IS THE BIGGEST PRODUCT OF CELLULAR RESPIRATION BECAUSE WE ARE IN THE MIT ...

8.3 study guide answer key

... The Light-Independent Reactions: Producing Sugars They occur in the stroma of thylakoids and are commonly called the Calvin cycle. Six carbon dioxide molecules from the atmosphere enter the Calvin cycle and combine with 5-carbon compounds already present. They produce twelve 3-carbon molecules. Two ...

2005 MCB 3020 Study Objectives, Part 2

ch9sec1n2_2013

... NADH and __________ FADH2 are passed along the electron transport chain. Energy from passing electrons is used to transport _____________________ Hydrogen ions (H+) across the membrane. Electron Transport Chain Animation(select start, continue, and #1) ...

respiration

... and transferred to other biological pathways ...

Chapter 9: Cellular Respiration and Fermentation

Biochemistry of cell organelles

... 3. The inner membrane (MIM) does not freely permeable to solutes because it should keep the proton gradient between matrix and intermembrane space. According to chemiosmotic hypothesis (Mitchel) the mitochondrion uses this gradient as a source of energy for synthesis of ATP from ADP and Pi. ...

Cellular Respiration Packet

... charged, other side of membrane __________________ charged (5) Electrochemical gradient (chemiosmotic gradient) created for ____________________ to work (6) ATP synthase converts ________ into ________ 35. In __________________________, electron transport chain is a series of carrier proteins locate ...

Oxygen Metabolism and Oxygen Toxicity

... phosphate. As the membranes swell they become permeable leading to the leakage of enzymes, coenzymes and other cellular constituents. As the pH continues to fall, the lysosomal membranes release hydrolytic proteases, lipases, glucosides and phosphatases that digest the cell. Amazingly cells that hav ...

1) Which of the following is (are) true for anabolic

... 19) During glycolysis, when glucose is catabolized to pyruvate, most of the energy of glucose is A) retained in the pyruvate. B) transferred to ADP, forming ATP. C) transferred directly to ATP. D) used to phosphorylate fructose to form fructose-6-phosphate. E) stored in the NADH produced. 20) A mol ...

a ANSWER - Cornerstone Charter Academy

... Explain how photosynthesis and cellular respiration are necessary to provide energy that is required to sustain your life Explain why breathing is necessary to support cellular respiration Describe how cellular respiration produces energy that can be stored in ATP Explain why ATP is required for hum ...

4.2 Cellular Respiration - Dr Rob's A

... Hydrogen atoms that have been removed in glycolysis/Krebs will eventually combine with O2 to form water However, they break into H+ and e- first, the protons remaining in solution the electrons passing along a carrier system, hence the electron transport chain Each carrier in the chain is at a sligh ...

I. Introduction to class

... electron transport chain, in which electrons are transferred from organic compounds to electron carriers (NAD+ or FAD) to a final electron acceptor (O2 or other inorganic compounds).  Occurs on membranes (plasma membrane of procaryotes or inner mitochondrial membrane of eucaryotes).  ATP is genera ...

MULTIPLE CHOICE. Choose the one alternative that best

... 30. The enzyme directly responsible for almost all carbon fixation on Earth is A. Rubisco B. PEP carboxylase C. ATP synthase D. Phophofructokinase E. Ligase 31. In C4 plants, C4 and C3 pathways occur at different _________, whereas in CAM plants, CAM and C3 pathways occur at different ___________. A ...

Disciplina: SLC0673 Ciclos energéticos vitais

... and electrons. The electrons are transferred to O2 via a chain of electron-carrying molecules known as the respiratory chain. The large amount of energy released is conserved in the form of ATP, by a process called oxidative phosphorylation. ...

Microbiology: A Systems Approach, 2nd ed.

... transport • 6 H2O molecules are produced in electron transport and 2 in glycolysis; but 2 are used in Krebs cycle for a net number of 6 ...

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Electron transport chain

An electron transport chain (ETC) is a series of compounds that transfer electrons from electron donors to electron acceptors via redox reactions, and couples this electron transfer with the transfer of protons (H+ ions) across a membrane. This creates an electrochemical proton gradient that drives ATP synthesis, or the generation of chemical energy in the form of adenosine triphosphate (ATP). The final acceptor of electrons in the electron transport chain is molecular oxygen.Electron transport chains are used for extracting energy via redox reactions from sunlight in photosynthesis or, such as in the case of the oxidation of sugars, cellular respiration. In eukaryotes, an important electron transport chain is found in the inner mitochondrial membrane where it serves as the site of oxidative phosphorylation through the use of ATP synthase. It is also found in the thylakoid membrane of the chloroplast in photosynthetic eukaryotes. In bacteria, the electron transport chain is located in their cell membrane.In chloroplasts, light drives the conversion of water to oxygen and NADP+ to NADPH with transfer of H+ ions across chloroplast membranes. In mitochondria, it is the conversion of oxygen to water, NADH to NAD+ and succinate to fumarate that are required to generate the proton gradient. Electron transport chains are major sites of premature electron leakage to oxygen, generating superoxide and potentially resulting in increased oxidative stress.

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Electron transport chain