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UNIT 3 CELLULAR RESPIRATION PROBLEM SETS SPRING 2007
... 4B) What molecule is regenerated during alcohol or lactic acid fermentation? Why is this regeneration of this molecule critical to continued production of ATP in the cell? ...
... 4B) What molecule is regenerated during alcohol or lactic acid fermentation? Why is this regeneration of this molecule critical to continued production of ATP in the cell? ...
Organic Molecules
... –Carbo = carbon, hydrate = water –Organic compound that contains Carbon, Hydrogen, Oxygen in a 1:2:1 ratio • Glucose: C6H12O6 –Function: quick energy supply, cell identity (found on cell membranes) –“carb loading” is used by cells to store energy –End in “–ose” indicates carb ...
... –Carbo = carbon, hydrate = water –Organic compound that contains Carbon, Hydrogen, Oxygen in a 1:2:1 ratio • Glucose: C6H12O6 –Function: quick energy supply, cell identity (found on cell membranes) –“carb loading” is used by cells to store energy –End in “–ose” indicates carb ...
03 - summer worksheet
... B. Circle and identify all of the functional groups seen in this ATP molecule shown below. (note: ATP is an incredibly important energy molecule that we will talk about a lot in this class. Take a couple of minutes to get to know it….). ...
... B. Circle and identify all of the functional groups seen in this ATP molecule shown below. (note: ATP is an incredibly important energy molecule that we will talk about a lot in this class. Take a couple of minutes to get to know it….). ...
Summary for Chapter 7 – Metabolism: Transformations
... other monosaccharides), glycerol, fatty acids, and amino acids. Aided by enzymes and coenzymes, the cells use these products of digestion to build more complex compounds (anabolism) or break them down further to release energy (catabolism). High-energy compounds such as ATP may capture the energy re ...
... other monosaccharides), glycerol, fatty acids, and amino acids. Aided by enzymes and coenzymes, the cells use these products of digestion to build more complex compounds (anabolism) or break them down further to release energy (catabolism). High-energy compounds such as ATP may capture the energy re ...
Lecture: Fasting and gene expression, Part 1
... Krebs cycle, when there is excess carbohydrate Pyruvate available PDH Krebs cycle for energy generation ...
... Krebs cycle, when there is excess carbohydrate Pyruvate available PDH Krebs cycle for energy generation ...
Biochemistry Jeopardy
... What is atherosclerosis? Hardening of the arteries, also called atherosclerosis, is a common disorder. It occurs when fat, cholesterol, and other substances build up in the walls of arteries and form hard structures called plaques. Over time, these plaques can block the arteries and cause symptoms ...
... What is atherosclerosis? Hardening of the arteries, also called atherosclerosis, is a common disorder. It occurs when fat, cholesterol, and other substances build up in the walls of arteries and form hard structures called plaques. Over time, these plaques can block the arteries and cause symptoms ...
Miss G`s Killer Biochem Review
... SPEEDS up the RATE of a chemical reaction by lowering a chemical reaction’s activation ...
... SPEEDS up the RATE of a chemical reaction by lowering a chemical reaction’s activation ...
Ass3_ans - The University of Sydney
... The following information relates to questions 9 -18 (1 mark each). The oxidation of glucose is often summarised as the balanced equation: C6H12O6 + 6 O2 + 32 ADP + 32 P 6CO2 + 6 H2O + 32 ATP Of course, this misses out all the juicy steps of glucose transport, glycolysis, PDH, Krebs cycle, electro ...
... The following information relates to questions 9 -18 (1 mark each). The oxidation of glucose is often summarised as the balanced equation: C6H12O6 + 6 O2 + 32 ADP + 32 P 6CO2 + 6 H2O + 32 ATP Of course, this misses out all the juicy steps of glucose transport, glycolysis, PDH, Krebs cycle, electro ...
Ass3 - The University of Sydney
... The following information relates to questions 9 -18 (1 mark each). The oxidation of glucose is often summarised as the balanced equation: C6H12O6 + 6 O2 + 32 ADP + 32 P 6CO2 + 6 H2O + 32 ATP Of course, this misses out all the juicy steps of glucose transport, glycolysis, PDH, Krebs cycle, electro ...
... The following information relates to questions 9 -18 (1 mark each). The oxidation of glucose is often summarised as the balanced equation: C6H12O6 + 6 O2 + 32 ADP + 32 P 6CO2 + 6 H2O + 32 ATP Of course, this misses out all the juicy steps of glucose transport, glycolysis, PDH, Krebs cycle, electro ...
Physiological role of insulin
... • Inhibition of ketone formation from free fatty acid metabolism by liver – Glucose sparing effects (use of fatty acids as energy source) ...
... • Inhibition of ketone formation from free fatty acid metabolism by liver – Glucose sparing effects (use of fatty acids as energy source) ...
Biochemistry Review
... 6. What is the difference between structural formulas and molecular formulas? Structural formulas show the compound’s arrangement while a molecular formula is just the number and types of elements used to make the compound 7. What is an isomer? An isomer are when 2 or more compounds have the same mo ...
... 6. What is the difference between structural formulas and molecular formulas? Structural formulas show the compound’s arrangement while a molecular formula is just the number and types of elements used to make the compound 7. What is an isomer? An isomer are when 2 or more compounds have the same mo ...
Micro Lab Unit 1 Flashcards
... What is another name for a carbohydrate that contains a single monomer? What is another name for a carbohydrate that contains two monomers? What is another name for a carbohydrate that contains many monomers? What is glucose? What is the body's main preferred source of fuel for cellular respiration? ...
... What is another name for a carbohydrate that contains a single monomer? What is another name for a carbohydrate that contains two monomers? What is another name for a carbohydrate that contains many monomers? What is glucose? What is the body's main preferred source of fuel for cellular respiration? ...
lecture2
... During starvation, from amino acids of tissue protein (4) In diabetic states. Importance: ...
... During starvation, from amino acids of tissue protein (4) In diabetic states. Importance: ...
AP Biology: Chapter 9
... AP Biology: Chapter 9 Review Guide RESPIRATION — GLYCOLYSIS 1. Identify some specific processes the cell does with ATP. 2. Explain why ATP is such a “high energy” molecule. 3. Sketch the ATP/ADP cycle: 4. How does ATP “couple reactions”? 5. What is the name of enzymes which phosphorylate molecules? ...
... AP Biology: Chapter 9 Review Guide RESPIRATION — GLYCOLYSIS 1. Identify some specific processes the cell does with ATP. 2. Explain why ATP is such a “high energy” molecule. 3. Sketch the ATP/ADP cycle: 4. How does ATP “couple reactions”? 5. What is the name of enzymes which phosphorylate molecules? ...
Slide 1
... Bloodstream = where the glucose may be taken up by muscle cells and used for respiration or stored as muscle glycogen ...
... Bloodstream = where the glucose may be taken up by muscle cells and used for respiration or stored as muscle glycogen ...
Macro-molecule study guide / worksheet
... c. Polysaccharide - complex carbohydrate made up of chains of monosaccharides ex. Starch - food storage compound found in plants Cellulose - makes up the cell wall of plants Glycogen - a food storage compound in animals ...
... c. Polysaccharide - complex carbohydrate made up of chains of monosaccharides ex. Starch - food storage compound found in plants Cellulose - makes up the cell wall of plants Glycogen - a food storage compound in animals ...
PP - Chemistry Courses: About
... • Looks allosteric, but this is monomeric enzyme • May be due to conformational change upon product release— stays in active state at high concentration of glucose ...
... • Looks allosteric, but this is monomeric enzyme • May be due to conformational change upon product release— stays in active state at high concentration of glucose ...
Organ Integration and Control
... In this mode glucose can be made from a number of sources including: 1. Glycerol from fat breakdown 2. Alanine from protein breakdown – alanine cycle 3. Lactate (Red blood cells, Muscle) – Cori Cycle ...
... In this mode glucose can be made from a number of sources including: 1. Glycerol from fat breakdown 2. Alanine from protein breakdown – alanine cycle 3. Lactate (Red blood cells, Muscle) – Cori Cycle ...
lecture2
... decarboxylase can be classified into (1) Kinases which catalyse the transfer of a ‘PO’4 group from ATP to some acceptor molecule. ...
... decarboxylase can be classified into (1) Kinases which catalyse the transfer of a ‘PO’4 group from ATP to some acceptor molecule. ...
Electron Carriers
... efficient way for cells to make ATP It is the primary source of energy in cells and normally the ONLY source in neurons There is multiple metabolic pathways for producing glucose to ensure that there is a continuous supply for the brain ...
... efficient way for cells to make ATP It is the primary source of energy in cells and normally the ONLY source in neurons There is multiple metabolic pathways for producing glucose to ensure that there is a continuous supply for the brain ...
Carbohydrate Metabolism Updated
... oxidation of acetyl-CoA to CO2 and water. • Gluconeogenesis:Synthesis of glucose from noncarbohydrate substances such as lactate, glycerol, glucogenic amino acids, etc. • Glycogenesis:Synthesis of glycogen from glucose. ...
... oxidation of acetyl-CoA to CO2 and water. • Gluconeogenesis:Synthesis of glucose from noncarbohydrate substances such as lactate, glycerol, glucogenic amino acids, etc. • Glycogenesis:Synthesis of glycogen from glucose. ...
Glucose
![](https://commons.wikimedia.org/wiki/Special:FilePath/Alpha-D-glucopyranose-2D-skeletal.png?width=300)
Glucose is a sugar with the molecular formula C6H12O6. The name ""glucose"" (/ˈɡluːkoʊs/) comes from the Greek word γλευκος, meaning ""sweet wine, must"". The suffix ""-ose"" is a chemical classifier, denoting a carbohydrate. It is also known as dextrose or grape sugar. With 6 carbon atoms, it is classed as a hexose, a sub-category of monosaccharides. α-D-glucose is one of the 16 aldose stereoisomers. The D-isomer (D-glucose) occurs widely in nature, but the L-isomer (L-glucose) does not. Glucose is made during photosynthesis from water and carbon dioxide, using energy from sunlight. The reverse of the photosynthesis reaction, which releases this energy, is a very important source of power for cellular respiration. Glucose is stored as a polymer, in plants as starch and in animals as glycogen.