aerobic vs anerobic ws - Hicksville Public Schools
... c. a large amount of ATP is formed d. the Krebs Cycle occurs ...
... c. a large amount of ATP is formed d. the Krebs Cycle occurs ...
BIo Exam Trashketball Review Questions
... when the microorganisms in the milk produce acid. Which of these processes would you expect to be key in the production of yogurt? a) b) c) d) ...
... when the microorganisms in the milk produce acid. Which of these processes would you expect to be key in the production of yogurt? a) b) c) d) ...
Cellular Respiration
... glucose metabolism in the absence of oxygen that produces 2ATP molecules and either ethanol or lactic acid. Involves 2 stages: Glycolysis Fermentation Aerobic Cellular Respiration – glucose metabolism with oxygen that produces 36 ATP molecules, CO2 and H2O. Involves 4 stages: Glycolysis ...
... glucose metabolism in the absence of oxygen that produces 2ATP molecules and either ethanol or lactic acid. Involves 2 stages: Glycolysis Fermentation Aerobic Cellular Respiration – glucose metabolism with oxygen that produces 36 ATP molecules, CO2 and H2O. Involves 4 stages: Glycolysis ...
Organic Compounds
... and cellulose. (formula for glucose) ↑ Fructose is a simple sugar found in corn that is used to sweeten soda pop and other food products. • Vitamin C is derived from a simple sugar (glucose). ↑ Ribose and deoxyribose are part of RNA and DNA: they are 5 carbon sugars. ...
... and cellulose. (formula for glucose) ↑ Fructose is a simple sugar found in corn that is used to sweeten soda pop and other food products. • Vitamin C is derived from a simple sugar (glucose). ↑ Ribose and deoxyribose are part of RNA and DNA: they are 5 carbon sugars. ...
Some stereochemical terms
... furanose ring form, and ribose, an aldopentose, is found in the furanose ring form. The free sugars can exist as a mixture of ring forms, but the structures we encounter as metabolic intermediates are usually bound to phosphate and thus are locked into these ring forms. However, note in “A Deeper Lo ...
... furanose ring form, and ribose, an aldopentose, is found in the furanose ring form. The free sugars can exist as a mixture of ring forms, but the structures we encounter as metabolic intermediates are usually bound to phosphate and thus are locked into these ring forms. However, note in “A Deeper Lo ...
File
... provided. After each molecule is made, the group will come together and follow the instructions and answer the questions regarding carbohydrates. Monosaccharide’s (single molecules of sugar) A single molecule of sugar is called a monosaccharide. The prefix “Mono” means one. However, the one molecule ...
... provided. After each molecule is made, the group will come together and follow the instructions and answer the questions regarding carbohydrates. Monosaccharide’s (single molecules of sugar) A single molecule of sugar is called a monosaccharide. The prefix “Mono” means one. However, the one molecule ...
AP Respiration Test Review
... 3. What is the term for the metabolic pathways that release stored energy by breaking down complex molecules? 4. What is the term for the metabolic pathways that use store energy to build macromoleulces? 5. What is the primary role of the ADP-ATP cycle? 6. What is the difference between reduction an ...
... 3. What is the term for the metabolic pathways that release stored energy by breaking down complex molecules? 4. What is the term for the metabolic pathways that use store energy to build macromoleulces? 5. What is the primary role of the ADP-ATP cycle? 6. What is the difference between reduction an ...
Regulation of Glycolysis - Valdosta State University
... the liver (for glycogen synthesis) when glucose is abundant (activity is modulated by fructose phosphates and a regulatory protein) ...
... the liver (for glycogen synthesis) when glucose is abundant (activity is modulated by fructose phosphates and a regulatory protein) ...
AS Biology - TavistockCollegeScience
... understand this is responsible for its unusual properties. Be able to describe some of the properties of water and link some to its structure and importance to living organisms Some may: be able to take this a stage further and give detailed explanations of how the H bonds in water control the prope ...
... understand this is responsible for its unusual properties. Be able to describe some of the properties of water and link some to its structure and importance to living organisms Some may: be able to take this a stage further and give detailed explanations of how the H bonds in water control the prope ...
Mitochondrial Inputs - School of Applied Physiology
... driven transport to mitochondria and NADH/H+ driven conversion to lactate ...
... driven transport to mitochondria and NADH/H+ driven conversion to lactate ...
Exam 4
... a. Fructose 1,6-bisphosphatase is one of the enzymes of the pathway. b. It is an exothermic process. c. It results in net synthesis of ATP. d. It results in synthesis of NADH. e. all of the above. 25. During strenuous exercise, the NADH formed in the glyceraldehyde 3-phosphate dehydrogenase reaction ...
... a. Fructose 1,6-bisphosphatase is one of the enzymes of the pathway. b. It is an exothermic process. c. It results in net synthesis of ATP. d. It results in synthesis of NADH. e. all of the above. 25. During strenuous exercise, the NADH formed in the glyceraldehyde 3-phosphate dehydrogenase reaction ...
Document
... • Yoghurt is formed when bacteria act on lactose (sugar in the milk), producing lactic acid and changing the texture and taste of the milk • Different type of bacteria is added for cheese, making much more lactic acid is made and it is thicker (curds) • This is cooled and left in moulds to set and t ...
... • Yoghurt is formed when bacteria act on lactose (sugar in the milk), producing lactic acid and changing the texture and taste of the milk • Different type of bacteria is added for cheese, making much more lactic acid is made and it is thicker (curds) • This is cooled and left in moulds to set and t ...
The Chemistry of Life
... Condensation reactions • Simply reverse the reaction arrow of the hydrolysis reactions • Requires a different type of enzyme – Covalent bonds are created (catalyzed) rather than broken (catabolized) ...
... Condensation reactions • Simply reverse the reaction arrow of the hydrolysis reactions • Requires a different type of enzyme – Covalent bonds are created (catalyzed) rather than broken (catabolized) ...
Carbohydrate metabolism File
... the citric acid cycle or Krebs cycle in aerobic organism or to lactate or alcohol in anaerobic condition and in anaerobic organisms. 3. Gluconeogenesis which is involved in the synthesis of glucose molecules from simple other compounds such as fatty acid or amino acid. ...
... the citric acid cycle or Krebs cycle in aerobic organism or to lactate or alcohol in anaerobic condition and in anaerobic organisms. 3. Gluconeogenesis which is involved in the synthesis of glucose molecules from simple other compounds such as fatty acid or amino acid. ...
Solutions to Questions in the Cellular Respiration booklet
... occur in the cytoplasm. While Krebs’s Cycle or Citric Acid and Electron ...
... occur in the cytoplasm. While Krebs’s Cycle or Citric Acid and Electron ...
energy2
... The process of glycolysis requires 2 ATP molecules and produces 4, for a net gain of 2 ATPs from each molecule of glucose. Glycolysis does not require oxygen. ...
... The process of glycolysis requires 2 ATP molecules and produces 4, for a net gain of 2 ATPs from each molecule of glucose. Glycolysis does not require oxygen. ...
Remember: Condensation makes bonds: Hydrolysis breaks bonds.
... Condensation of monosaccharides is a polymerization reaction. It can continue to create a longer chain of saccharides (a carbohydrate). These building reactions are anabolic metabolism. c. Annotate and complete diagram below to outline how two monosaccharides are converted into a disaccharide throug ...
... Condensation of monosaccharides is a polymerization reaction. It can continue to create a longer chain of saccharides (a carbohydrate). These building reactions are anabolic metabolism. c. Annotate and complete diagram below to outline how two monosaccharides are converted into a disaccharide throug ...
Cellular Respiration
... Open the TI-Nspire document Cellular_Respiration.tns. All living things require energy to stay alive. Most of this energy comes from food, often in the form of glucose. Cells share common pathways to metabolize food molecules like glucose into usable forms of energy, and these pathways are called Ce ...
... Open the TI-Nspire document Cellular_Respiration.tns. All living things require energy to stay alive. Most of this energy comes from food, often in the form of glucose. Cells share common pathways to metabolize food molecules like glucose into usable forms of energy, and these pathways are called Ce ...
Building Blocks of Organic
... great deal of energy which is stored in the bonds • called sugar or saccharide With energy from light, plants can build sugars from carbon dioxide and water. ...
... great deal of energy which is stored in the bonds • called sugar or saccharide With energy from light, plants can build sugars from carbon dioxide and water. ...
Homeostatic Control of Metabolism
... 2 Adipose lipids become free fatty acids and glycerol that enter blood. ...
... 2 Adipose lipids become free fatty acids and glycerol that enter blood. ...
`Metabolic flux` describes the rate of flow of intermediates through a
... Negative effector (non-biological); stabilizes T-state ...
... Negative effector (non-biological); stabilizes T-state ...
Water - University of California, Los Angeles
... Negative effector (non-biological); stabilizes T-state ...
... Negative effector (non-biological); stabilizes T-state ...
Biomolecules Review Worksheets 14 KEY
... ATP breaks down into a molecule of ADP (adenosine diphosphate) and a free phosphate group. This reacon releases energy. With 7 valence e‐ carbon would then only be able to make one bond. This would result in far fewer molecular arrangement opons. ...
... ATP breaks down into a molecule of ADP (adenosine diphosphate) and a free phosphate group. This reacon releases energy. With 7 valence e‐ carbon would then only be able to make one bond. This would result in far fewer molecular arrangement opons. ...
Glucose
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.