Recitation 3 - Department of Chemistry ::: CALTECH

... products (metabolites) is determined by many regulatory mechanisms. ...

Chapter 4: Energy and Cellular Metabolism, Part 2

... Pyruvate, Acetyl CoA, TCA intermediates are left. ...

C383 Study Guide for the Final Exam Spring 2016 Basic Information

... molecule that you store in your liver. Circle the pathways/cycles below that are part of this overall transformation. Cross out any that are not. Gluconeogenesis, pentose phosphate pathway, glycogen synthesis, glycolysis, citric acid cycle B. Trace the metabolic path of this glutamate molecule throu ...

Microbial Metabolism

... activation energy – Number of molecules above this activation level = reaction rate ...

CHE 4310 Fall 2011

... 2. Show the three reactions in the citric acid cycle in which NADH is produced, including the structures. None of these reactions involves molecular oxygen (O2), but all three reactions are strongly inhibited by anaerobic conditions; explain why. ...

Welcome to Jeopardy!!

... Dioxide, which process can it not ...

Second test - rci.rutgers.edu

... C. it consists of seven hydrophobic transmembrane segments D. it is much more permeable to Na+ than to K+ E. none of the above ...

Cellular Respiration

... Electron Transport Chain – uses the high energy electrons from glycolysis and the Krebs cycle to synthesize ATP from ADP and Pi MOST of the energy produced from the breakdown of glucose occurs here (32/34 ATP molecules) O2 is the final electron acceptor ...

Lecture Seventeen - Personal Webspace for QMUL

...  All intermediates are PHOSPHORYLATED with the phosphoryl groups linked as either Esters or Anhydrides  Phosphorylation _______________ these intermediates  THE STAGES OF GLYCOLYSIS  Glycolysis can be considered to occur in ...

Chapter 9 Notes: Cellular Respiration

... ii. Pyruvate is broken down into pyruvic acid. iii. Krebs Cycle - pyruvic acid is broken down into CO2 in a series of energy-extracting reactions; high-energy electrons from this process are used in the next step iv. Electron Transport Chain – high-energy electrons change ADP into ATP. The electron ...

ADP, ATP and Cellular Respiration Powerpoint

... Called Lactic Acid fermentation in muscle cells (makes muscles tired) Called Alcoholic fermentation in yeast (produces ethanol) Nets only 2 ATP ...

Document

... Fermentation is used outside of the presence of oxygen. It is a series of reactions that convert NADH (from glycolysis) back into NAD+,allowing glycolysis to keep producing a small amount of ATP ...

Chapter 8 Lecture Notes - Science Learning Center

... Cell Respiration The overall reaction for cell respiration is: C6H12O6 + 6O2 → 6CO2 + 6H2O + ATP (this reaction is the reverse of photosynthesis) There are three stages to cell respiration: glycolysis, Krebs cycle, and electron transport chain/oxidative phosphorylation. ...

Lecture Power Point

... (Glc) which functions as the primary short term energy storage in muscle cells (myofiber). Glycogen is found in the form of granules in the sarcoplasm, and plays an important role in the glucose cycle. ...

Bio 210 Cell Chemistry Lecture 8 “Glycolysis”

... the phosphorylated 3C sugars to ADP. Transfer of a phosphate from a substrate to ADP directly is called “substrate-level phosphorylation”. Other ATP made in the process of respiration mostly come from “oxidative phosphorylation” in which the energy from electron transport is conserved as a proton gr ...

Cellular Respiration PowerPoint review

... The cell can use Fermentation instead!! Occurs in the Cytoplasm  Just like glycolysis!! Fermentation  A series of reactions that convert NADH (from glycolysis) back into NAD allowing glycolysis to keep producing a small amount of ATP ...

Fill in the Captions AP Lesson #26 Are our diets only glucose? How

... How do we make sure that we don’t have ATP just hanging around? ...

Chem*3560 Lecture 16: Reciprocal regulation of glycolysis and

... respond to epinephrine by activating the protein kinase A phosphorylation cascade. This causes fructose-2,6-bisphosphate levels to rise, promoting glycolysis in the muscle. ...

Cellular Respiration: Glycolysis

... Ria, Robin, Clayton, Candace and Brittany ...

CHAPTER OUTLINE

... Input and Outputs of Glycolysis Inputs = 6C glucose, 2 NAD+, 2 ATP, 4 ADP +4P Outputs = 2 (3C) pyruvate, 2 NADH, 2 ADP, 4 ATP total Two ATP net gain. 7.3 Outside the Mitochondria: Fermentation Fermentation is an anaerobic pathway a cell may utilize if oxygen is limited when breaking down glucose. Ad ...

ChemGym_ForensicsAnswers

... c. studying, aerobic d. weight lifting, anaerobic 2. What are the benefits of increased VO2 max? An increase in VO2 max means that there is more oxygen available to oxidize fuels, therefore releasing more energy in the form of ATP to the muscles. 3. Name two chronic diseases for which the risk facto ...

Cellular Respiration

... quick sprinting for about 5 seconds – A secondary supply of energy (creatine phosphate) can keep muscle cells going for another 10 seconds – To keep running, your muscles must generate ATP by the anaerobic process of fermentation ...

How much ATP is produced in this cycle?

... Plants use electron carriers to transport high-energy electrons from chlorophyll to other molecules. ...

Anaerobic Pathways Glycolysis Alternate Endpoints

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Glycolysis

Glycolysis (from glycose, an older term for glucose + -lysis degradation) is the metabolic pathway that converts glucose C6H12O6, into pyruvate, CH3COCOO− + H+. The free energy released in this process is used to form the high-energy compounds ATP (adenosine triphosphate) and NADH (reduced nicotinamide adenine dinucleotide).Glycolysis is a determined sequence of ten enzyme-catalyzed reactions. The intermediates provide entry points to glycolysis. For example, most monosaccharides, such as fructose and galactose, can be converted to one of these intermediates. The intermediates may also be directly useful. For example, the intermediate dihydroxyacetone phosphate (DHAP) is a source of the glycerol that combines with fatty acids to form fat.Glycolysis is an oxygen independent metabolic pathway, meaning that it does not use molecular oxygen (i.e. atmospheric oxygen) for any of its reactions. However the products of glycolysis (pyruvate and NADH + H+) are sometimes disposed of using atmospheric oxygen. When molecular oxygen is used in the disposal of the products of glycolysis the process is usually referred to as aerobic, whereas if the disposal uses no oxygen the process is said to be anaerobic. Thus, glycolysis occurs, with variations, in nearly all organisms, both aerobic and anaerobic. The wide occurrence of glycolysis indicates that it is one of the most ancient metabolic pathways. Indeed, the reactions that constitute glycolysis and its parallel pathway, the pentose phosphate pathway, occur metal-catalyzed under the oxygen-free conditions of the Archean oceans, also in the absence of enzymes. Glycolysis could thus have originated from chemical constraints of the prebiotic world.Glycolysis occurs in most organisms in the cytosol of the cell. The most common type of glycolysis is the Embden–Meyerhof–Parnas (EMP pathway), which was discovered by Gustav Embden, Otto Meyerhof, and Jakub Karol Parnas. Glycolysis also refers to other pathways, such as the Entner–Doudoroff pathway and various heterofermentative and homofermentative pathways. However, the discussion here will be limited to the Embden–Meyerhof–Parnas pathway.The entire glycolysis pathway can be separated into two phases: The Preparatory Phase – in which ATP is consumed and is hence also known as the investment phase The Pay Off Phase – in which ATP is produced.↑ ↑ 2.0 2.1 ↑ ↑ ↑ ↑ ↑ ↑

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Glycolysis