1. Amino acids are joined together by peptide bonds to form

... a. NADH would not be able to bind b. FADH2 would not be able to bind c. There would be an increase in the amount of ATP created d. The electron transport chain would not function at all 22. Fats and proteins can also be used to harness energy. How do these molecules enter cellular respiration? a. As ...

Review Questions

... d. energy released from movement of protons through ATP synthase e. No external source of energy is required because the reaction is exergonic. ____ 17. Approximately what percentage of the energy of glucose ( ) is transferred to storage in ATP as a result of the complete oxidation of glucose to and ...

BIOCHEMISTRY

... the Krebs Cycle, producing a total of 2 ATP, 6 NADH, and 2 FADH2. So far, cellular respiration has produced from one glucose molecule a net total of 4 ATP (two from glycolysis, and two from the Krebs Cycle). c. Electron Transport Chain and Chemiosmosis. The remaining energy (not yet stored in ATP) f ...

BIO 212 SI Kukday--Energetics (2) Review 2/7

... Dr. Kukday’s “Can You?” Questions (Highlighted ones are addressed in this worksheet, you will need to address the ones that aren’t highlighted on your own time): Paralysis Case: 1.) Can you identify types of enzyme regulation (emphasis on feedback inhibition)? 2.) Can you predict the consequences o ...

PHOTOSYNTHESIS - Green Local Schools

... 6CO2+6H2O+ energy(ATP)  The complex process in which cells make ATP by breaking down organic compounds  Heterotrophs – Organisms that obtain energy from eating autotrophs or other heterotrophs ...

Lecture 08 Notes

Chapter 9. Cellular Respiration STAGE 1: Glycolysis

... also used by prokaryotes and yeasts that are facultative anaerobes. Fermentation is also used by your own muscles when you are working out strenuously and gas exchange is not happening fast enough to replenish ATP through oxidative phosphorylation. ...

Exam 1 2007 - chem.uwec.edu

... a and d 5. What two 3-carbon molecules are generated by the cleavage of fructose-1,6bisphosphate? A) glyceraldehyde-3-phosphate and 3-phosphoglycerate B) glyceraldehyde-3-phosphate and dihydroxyacetone phosphate C) pyruvate and phosphoenolpyruvate D) enolase and 2-phosphoglycerate E) glyceraldehyde- ...

Chapter 9 - Cellular Respiration

... A. fermentation – partial degradation of sugars without oxygen (anaerobic respiration_ B. Aerobic respiration – oxygen is consumed as reactant along with organic fuel (glucose) C. Cellular respiration is the enzymatic breakdown of glucose (C6H12O6) in the presence of oxygen (O2) to produce cellular ...

Nutrient Role in Bioenergetics

... Energy metabolism – lipolysis ...

Biology 2 –Quiz 7 Cellular Respiration Name: Date: For the

... 8. When glucose is oxidized to CO2 and water, approximately 40% of its energy is transferred to a. Heat b. ATP c. Water d. Acetyl Co A 9. What do muscle cells in oxygen deprivation produce? a. ATP, alcohol, and recycled NAD+ b. CO2 and Lactic Acid c. ATP, Lactic Acid, and recycled NAD+ d. ATP, lacti ...

photosynthesis-and-cellular-respiration-worksheet

... produce NADH andFADH2, ATP is formed by substrate-level phosphorylation, and CO2 is released NADH (from glycolysis and Kreb’s) and FADH2 (from Kreb’s) transfer electrons to carrier molecules in mitochondrial membrane. In a series of redox reactions, H+ is pumped into intermembrane space, and electro ...

Course Specifications General Information

... 1 - The objective of this course is to know the metabolic pathways of different food stuffs 2 - To know different biochemical reactions taking place in our bodies catalysed by enzymes and how metabolic disorder of some pathways lead to diseases ...

GLYCOLYSIS Generation of ATP from Metabolic Fuels

Chapter 8

... – Uses 2 ATP Stage II. Energy recovery – 2 molecules of glyceraldehyde-3phosphate converted to pyruvate – Produces 4 ATP ...

PowerPoint Presentation - Ch. 6 Cellular Respiration

... Stored as a polysaccharide, such as glycogen, in our liver & muscle cells. How is glycogen used between meals? Glycogen is hydrolyzed to glucose to serve as fuel between meals. ...

BIO 101 Exam 2 practice questions Practice questions Ch 8,9 YOU

Document

... • ATP hydrolysis (+Mg) reextends myosin head ...

Document

... Metabolism = the total of all chemical reactions occurring within the cell Catabolism = the breaking down of complex molecules into simple molecules with the release of energy Anabolism = the synthesis of complex molecules from simple molecules with the use of energy ...

In-Class Student Activity: Fate of carbon atoms during Cellular

... b. The students will then need to pass (throw!) the apple pieces to the next stage of the cycle where the A2 & B2 students will model pyruvate oxidation (let them have fun by throwing a third of each half apple into the air to represent release of CO2!). By the time the A3 and B3 students have finis ...

Metabolic Characteristics of the Major Organs and Tissues

... A significant portion of the amino acids entering the liver are used in liver protein biosynthesis. Another portion of amino acids is used to synthesize the plasma proteins of blood. Excess amino acids are deaminated. The ammonium ions produced are converted into urea, and the carbon skeletons are ...

Section 5 - anabolism. the process by which molecules are

... 1. energy is neither created nor destroyed, but transformed from one form to another. 2. in any isolated system, the degree of entropy can only increase. - biological order and the increase thereof is possible because of the release of heat energy from cells. the increase of biological order is comp ...

Fructose 6-Phosphate

... Hexokinase is inhibited by its product, glucose 6-phosphate (G-6-P). High concentrations of G-6-P signal that the cell no longer requires glucose for energy, for glycogen, or as a source of biosynthetic precursors. Glucose 6-phosphate levels increase when glycolysis is inhibited at sites further alo ...

BCH 3033 General Biochemistry EXAM 5 Name: Fall, 2012

... 20. Free fatty acids in the bloodstream are: a. bound to hemoglobin. b. carried by the protein serum albumin. c. freely soluble in the aqueous phase of the blood. d. nonexistent; the blood does not contain free fatty acids. e. present at levels that are independent of epinephrine. 21. Transport of f ...

Lecture Slides for Fatty Acid Catabolism

... Peroxisomes • b-Oxidation also occurs in peroxisomes (major site in plants) • In critters, peroxisomes are primary organelles for oxidation of very long chain and branched fatty acids (cerotic acid, phytanic acids) ...

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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