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Metabolism - Websupport1
... NADH = 3ATP FADH2 = 2ATP Acetyl CoA = 12ATP So if each round of beta oxidation produces 17ATP, then one molecule of fat will produce a lot more ATP (energy) than one molecule of glucose. Remember that glucose produced 2ATP in glycolysis and 34/36ATP via TCA and ETS ...
... NADH = 3ATP FADH2 = 2ATP Acetyl CoA = 12ATP So if each round of beta oxidation produces 17ATP, then one molecule of fat will produce a lot more ATP (energy) than one molecule of glucose. Remember that glucose produced 2ATP in glycolysis and 34/36ATP via TCA and ETS ...
Cellular Respiration
... and ETC, producing ~19x’s more ATP Faculative Anaerobes: can survive using either process ...
... and ETC, producing ~19x’s more ATP Faculative Anaerobes: can survive using either process ...
Biology Unit - The Connected Hub
... _______ (a carbohydrate) down into glucose: Protease (produced in the stomach, pancreas and small intestine) breaks _______ down into amino acids: Lipase (produced in the pancreas and small intestine) breaks fats (_____) down into fatty acids and glycerol: ...
... _______ (a carbohydrate) down into glucose: Protease (produced in the stomach, pancreas and small intestine) breaks _______ down into amino acids: Lipase (produced in the pancreas and small intestine) breaks fats (_____) down into fatty acids and glycerol: ...
Chapter 9. Cellular Respiration STAGE 1: Glycolysis
... Break down Easily. 8. For a Molecule of Glucose to undergo Glycolysis, a Cell must First "SPEND" ATP to energize the Glucose Molecule. The ATP provides the Activation Energy needed to begin Glycolysis. 9. Although ATP (ENERGY) is used to begin Glycolysis, the reactions that make up the ...
... Break down Easily. 8. For a Molecule of Glucose to undergo Glycolysis, a Cell must First "SPEND" ATP to energize the Glucose Molecule. The ATP provides the Activation Energy needed to begin Glycolysis. 9. Although ATP (ENERGY) is used to begin Glycolysis, the reactions that make up the ...
Cellular Respiration
... • The result of glycolysis and aerobic respiration is shown by the reaction: C6H12O6 + 6 O2 6 H2O + 6 CO2 + 38 ATP • Aerobic respiration occurs in the mitochondria outer and inner membrane matrix: dense solution enclosed by inner membrane cristae: the folds of the inner membrane that house ...
... • The result of glycolysis and aerobic respiration is shown by the reaction: C6H12O6 + 6 O2 6 H2O + 6 CO2 + 38 ATP • Aerobic respiration occurs in the mitochondria outer and inner membrane matrix: dense solution enclosed by inner membrane cristae: the folds of the inner membrane that house ...
Gluconeogenesis
... Pyruvate, lactate, glycerol, amino acids and all TCA intermediates can be utilized ...
... Pyruvate, lactate, glycerol, amino acids and all TCA intermediates can be utilized ...
Respiration
... krebs cycle) are stored in the matrix 1. NADH releases protons and electrons on the matrix side A. Protons are pumped into the intermembrance space B. Electrons are transported across the membrane using ubiquinone (coenzyme Q) and cytochrome C ...
... krebs cycle) are stored in the matrix 1. NADH releases protons and electrons on the matrix side A. Protons are pumped into the intermembrance space B. Electrons are transported across the membrane using ubiquinone (coenzyme Q) and cytochrome C ...
Chapter 9 Cellular Respiration.notebook
... Each of the three stages of cellular respiration captures some of the chemical energy available in food and uses it to produce ATP (the cell's basic energy source) ...
... Each of the three stages of cellular respiration captures some of the chemical energy available in food and uses it to produce ATP (the cell's basic energy source) ...
21_Pentose phosphate pathway of carbohydrates metabolism
... Pathway (phosphogluconate pathway) (1) Synthesis of NADPH (for reductive reactions in biosynthesis of fatty acids and steroids) (2) Synthesis of Ribose 5-phosphate (for the biosynthesis of ribonucleotides (RNA, DNA) and several ...
... Pathway (phosphogluconate pathway) (1) Synthesis of NADPH (for reductive reactions in biosynthesis of fatty acids and steroids) (2) Synthesis of Ribose 5-phosphate (for the biosynthesis of ribonucleotides (RNA, DNA) and several ...
Ans 518_class 4
... – Accumulation of glucose in blood triggers insulin release from pancreatic ß-cells; Insulin-receptor signaling induces the redistribution of GLUT4 from intracellular storage sites to the plasma membrane; once incorporated into the cell membrane, GLUT4 facilitates the passive diffusion of circulatin ...
... – Accumulation of glucose in blood triggers insulin release from pancreatic ß-cells; Insulin-receptor signaling induces the redistribution of GLUT4 from intracellular storage sites to the plasma membrane; once incorporated into the cell membrane, GLUT4 facilitates the passive diffusion of circulatin ...
CELLULAR RESPIRATION 04 JUNE 2014 Lesson Description
... Oxidative phosphorylation: takes the energy from the energy-rich hydrogens to make ATP. The energy depleted hydrogens combine with oxygen to make water. This is either breathed out as water vapour or excreted via the kidneys. ...
... Oxidative phosphorylation: takes the energy from the energy-rich hydrogens to make ATP. The energy depleted hydrogens combine with oxygen to make water. This is either breathed out as water vapour or excreted via the kidneys. ...
Carbohydrate Catabolism in the Presence of Oxygen Releases a
... ATP synthase is a molecular motor with two subunits: F0 is a transmembrane domain that functions as the H+ channel. F1 has six subunits. As protons pass through F0, it rotates, causing part ...
... ATP synthase is a molecular motor with two subunits: F0 is a transmembrane domain that functions as the H+ channel. F1 has six subunits. As protons pass through F0, it rotates, causing part ...
Cellular Respiration 1. To perform cell work, cells require energy. a
... The electron transport chain generates no ATP directly. Its function is to break the large amount of energy in food in manageable amounts. Each component of the chain becomes reduced when it accepts electrons from its Auphill@ neighbor, which is less electronegative. It then returns to its oxidized ...
... The electron transport chain generates no ATP directly. Its function is to break the large amount of energy in food in manageable amounts. Each component of the chain becomes reduced when it accepts electrons from its Auphill@ neighbor, which is less electronegative. It then returns to its oxidized ...
Biochemistry
... The Location or Timing of the Calvin cycle relative to Carbon Fixation reduces Rubiso’s Oxagenase activity ...
... The Location or Timing of the Calvin cycle relative to Carbon Fixation reduces Rubiso’s Oxagenase activity ...
Pyruvic acid is chemically groomed for the Krebs cycle
... • For each glucose molecule that enters cellular respiration, chemiosmosis produces up to 38 ATP molecules Cytoplasmic fluid ...
... • For each glucose molecule that enters cellular respiration, chemiosmosis produces up to 38 ATP molecules Cytoplasmic fluid ...
factors in photosynthesis
... The glucose produced in photosynthesis may be converted to insoluble starch. Start does not attract water by osmosis. Plant cells use some of the photosynthetic glucose for respiration. In addition, nitrates, absorbed by the roots, are needed for healthy growth. Any 1 of light, temperature and carbo ...
... The glucose produced in photosynthesis may be converted to insoluble starch. Start does not attract water by osmosis. Plant cells use some of the photosynthetic glucose for respiration. In addition, nitrates, absorbed by the roots, are needed for healthy growth. Any 1 of light, temperature and carbo ...
photosynthesis
... The glucose produced in photosynthesis may be converted to insoluble starch. Start does not attract water by osmosis. Plant cells use some of the photosynthetic glucose for respiration. In addition, nitrates, absorbed by the roots, are needed for healthy growth. Any 1 of light, temperature and carbo ...
... The glucose produced in photosynthesis may be converted to insoluble starch. Start does not attract water by osmosis. Plant cells use some of the photosynthetic glucose for respiration. In addition, nitrates, absorbed by the roots, are needed for healthy growth. Any 1 of light, temperature and carbo ...
Chapter 1
... molecules which provides energy for cellular energy-requiring functions • Cells use an energy conversion strategy that oxidizes glucose – Small amounts of energy are released at several points in this pathway – This energy is harvested and stored in bonds of ATP • ATP = universal energy currency OR ...
... molecules which provides energy for cellular energy-requiring functions • Cells use an energy conversion strategy that oxidizes glucose – Small amounts of energy are released at several points in this pathway – This energy is harvested and stored in bonds of ATP • ATP = universal energy currency OR ...
Glycerol is a major substrate for glucose, glycogen, and
... portant contributors to gluconeogenesis by the embryo. However, glutamate and glutamine, which form ~14% of egg protein, were found to be insignificant contributors to glucose synthesis in e19 embryos (Sunny et al., 2007). Extensive metabolism of yolk triglyceride in the liver of late-term embryos r ...
... portant contributors to gluconeogenesis by the embryo. However, glutamate and glutamine, which form ~14% of egg protein, were found to be insignificant contributors to glucose synthesis in e19 embryos (Sunny et al., 2007). Extensive metabolism of yolk triglyceride in the liver of late-term embryos r ...
NutraMetrix Products for Diabetes Management
... in fiber and low in nutrients, such as sweets, chips, crackers and other processed foods. What is the difference between simple and complex carbohydrates? There are two types of carbohydrates: simple and complex. Simple carbohydrates are absorbed very easily from the intestine into the bloodstream a ...
... in fiber and low in nutrients, such as sweets, chips, crackers and other processed foods. What is the difference between simple and complex carbohydrates? There are two types of carbohydrates: simple and complex. Simple carbohydrates are absorbed very easily from the intestine into the bloodstream a ...
aerobic respiration
... Glucose → 2 pyruvates “Universal energy-harvesting process of life” Initial energy-releasing mechanism for all cells Occurs in cytosol ...
... Glucose → 2 pyruvates “Universal energy-harvesting process of life” Initial energy-releasing mechanism for all cells Occurs in cytosol ...
The effect of Lisinopril on blood glucose level given
... in fat and muscle (Lenhard et al, 1997). It does not usually lower blood glucose concentrations in nondiabetic subjects. The Gliclazide induce insulin secretion in the pancreatic beta cells and inhibit glycogenolysis and gluconeogenesis in the liver. Through improving insulin binding to surface rece ...
... in fat and muscle (Lenhard et al, 1997). It does not usually lower blood glucose concentrations in nondiabetic subjects. The Gliclazide induce insulin secretion in the pancreatic beta cells and inhibit glycogenolysis and gluconeogenesis in the liver. Through improving insulin binding to surface rece ...
Ch9CellularRespiration
... coenzyme A to form acetyl coenzyme A in the link reaction. Applications and skills: • In the Krebs cycle, the oxidation of acetyl groups is coupled to • Application: Use of anaerobic cell respiration in yeasts to produce ethanol the reduction of hydrogen carriers, liberating carbon dioxide. and carb ...
... coenzyme A to form acetyl coenzyme A in the link reaction. Applications and skills: • In the Krebs cycle, the oxidation of acetyl groups is coupled to • Application: Use of anaerobic cell respiration in yeasts to produce ethanol the reduction of hydrogen carriers, liberating carbon dioxide. and carb ...
Respiration and Fermentation
... d. ATP. 30. During anabolism, sugars are broken down for the production of energy. (T/F) 31. Autotrophic organisms use sunlight as an energy source while heterotrophic organisms must directly or indirectly get their energy from carbon compounds made by autotrophs. (T/F) 32. Although Krebs cycle does ...
... d. ATP. 30. During anabolism, sugars are broken down for the production of energy. (T/F) 31. Autotrophic organisms use sunlight as an energy source while heterotrophic organisms must directly or indirectly get their energy from carbon compounds made by autotrophs. (T/F) 32. Although Krebs cycle does ...
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.