Respiration and Metabolism
... Why? _____________________ -Skeletal muscle lasts (longer/shorter) than heart tissue under anaerobic conditions. Designed by Pyeongsug Kim, ©2010 www.science-i.com ...
... Why? _____________________ -Skeletal muscle lasts (longer/shorter) than heart tissue under anaerobic conditions. Designed by Pyeongsug Kim, ©2010 www.science-i.com ...
word - My eCoach
... The digestion of carbohydrates typically involves hydrolysis reactions in which complex carbohydrates (polysaccharides) are broken down to maltose (a disaccharide). Maltose is then further broken down to produce two glucose molecules. ...
... The digestion of carbohydrates typically involves hydrolysis reactions in which complex carbohydrates (polysaccharides) are broken down to maltose (a disaccharide). Maltose is then further broken down to produce two glucose molecules. ...
Key - Photosynthesis and Respiration Overview
... cytoplasm that converts [[glucose] C6H12O6, into pyruvate, Pyruvic Acid A 3 carbon organic acid produced during glycolysis. to fermentation and aerobic respiration Pyruvate For the purposes of this class, an alternate name for pyruvic acid. Krebs Cycle ...
... cytoplasm that converts [[glucose] C6H12O6, into pyruvate, Pyruvic Acid A 3 carbon organic acid produced during glycolysis. to fermentation and aerobic respiration Pyruvate For the purposes of this class, an alternate name for pyruvic acid. Krebs Cycle ...
Muscle Tissue C1
... Force of muscle contraction affected by: • Number of muscle fibers stimulated (recruitment) • Muscle cross-sectional area: hypertrophy of cells increases strength • Frequency of stimulation: stimulation rate allows time for more effective transfer of tension to noncontractile components • Length ...
... Force of muscle contraction affected by: • Number of muscle fibers stimulated (recruitment) • Muscle cross-sectional area: hypertrophy of cells increases strength • Frequency of stimulation: stimulation rate allows time for more effective transfer of tension to noncontractile components • Length ...
Respiration Respiration Respiration - Anoka
... Organisms can be classified based on how they obtain energy: autotrophs: are able to produce their own organic molecules through photosynthesis ...
... Organisms can be classified based on how they obtain energy: autotrophs: are able to produce their own organic molecules through photosynthesis ...
E. coli - Department of Chemistry
... Glycerol by yeast fermentation of sugars, (and by hydrolysis of fats and oils) Glutamic acid by fermentation of glucose or xylose with B. subtilis or genetically ...
... Glycerol by yeast fermentation of sugars, (and by hydrolysis of fats and oils) Glutamic acid by fermentation of glucose or xylose with B. subtilis or genetically ...
File - Groby Bio Page
... 2. Suggest how diving mammals, such as seals, whales and dolphins can swim below water without suffering from muscle fatigue. ...
... 2. Suggest how diving mammals, such as seals, whales and dolphins can swim below water without suffering from muscle fatigue. ...
anaerobic respiration
... When food is broken down, energetic electrons are released. NADH catches the electrons. NADH releases the electrons so that ATP can be made. Metabolism is all of the reactions in the body that involve energy transformation ...
... When food is broken down, energetic electrons are released. NADH catches the electrons. NADH releases the electrons so that ATP can be made. Metabolism is all of the reactions in the body that involve energy transformation ...
No Slide Title
... Examples: Sucrose –table sugar (glucose + fructose) Lactose –milk sugar (glucose + galactose) Maltose – glucose + glucose c. Polysaccharides – 3 or more monosaccharides joined from condensation reactions. 3 types: glycogen- animal storage of glucose. (animal starch) Starch- plants store glucose in l ...
... Examples: Sucrose –table sugar (glucose + fructose) Lactose –milk sugar (glucose + galactose) Maltose – glucose + glucose c. Polysaccharides – 3 or more monosaccharides joined from condensation reactions. 3 types: glycogen- animal storage of glucose. (animal starch) Starch- plants store glucose in l ...
Testing for Biologically Important Molecules
... removed, and hydrogen is removed from the other creating a molecule of water. The two subunits are bonded covalently. It is also referred to as Condensation. Hydrolysis is an energy releasing process which breaks the bond between the subunits and requires the addition of a water molecule. Large poly ...
... removed, and hydrogen is removed from the other creating a molecule of water. The two subunits are bonded covalently. It is also referred to as Condensation. Hydrolysis is an energy releasing process which breaks the bond between the subunits and requires the addition of a water molecule. Large poly ...
Energy and Respiration
... exercise, building up lactic acid in muscle tissue. This results in muscle pain and cramping. The bacteria in milk also produce lactic acid but is an optical isomer of that produced in muscle cramping. Yeasts produce alcohol which is also toxic. Eventually there will be so much alcohol that the yeas ...
... exercise, building up lactic acid in muscle tissue. This results in muscle pain and cramping. The bacteria in milk also produce lactic acid but is an optical isomer of that produced in muscle cramping. Yeasts produce alcohol which is also toxic. Eventually there will be so much alcohol that the yeas ...
Chapter 26
... – Most serve as fuel: easily oxidized source of chemical energy • Most cells meet energy needs by a combination of carbohydrates and fats • Neurons and erythrocytes depend solely on carbohydrates • Hypoglycemia—deficiency of blood glucose – Causes nervous system disturbances such as weakness and diz ...
... – Most serve as fuel: easily oxidized source of chemical energy • Most cells meet energy needs by a combination of carbohydrates and fats • Neurons and erythrocytes depend solely on carbohydrates • Hypoglycemia—deficiency of blood glucose – Causes nervous system disturbances such as weakness and diz ...
Chapter 8
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
... DG = -686kcal/mol of glucose DG can be even higher than this in a cell This large amount of energy must be released in small steps rather than all at once. ...
Oxidative Phosphorylation
... • Pasteur Effect: Increase in the rate of carbohydrate breakdown that occurs when switched from aerobic to anaerobic conditions Fig. 16-3 ...
... • Pasteur Effect: Increase in the rate of carbohydrate breakdown that occurs when switched from aerobic to anaerobic conditions Fig. 16-3 ...
Cell Respiration State that oxidation involves the loss of electrons
... TerminaI Oxidation and Oxidative PhosphoryIation In the Krebs cycle and glycolysis, pairs of hydrogen atoms are removed from the respiratory substrates. Oxidised NAD is converted into reduced NAD, except in the Krebs cycle, where FAD is reduced instead. Hydrogen atoms or their electrons are transpor ...
... TerminaI Oxidation and Oxidative PhosphoryIation In the Krebs cycle and glycolysis, pairs of hydrogen atoms are removed from the respiratory substrates. Oxidised NAD is converted into reduced NAD, except in the Krebs cycle, where FAD is reduced instead. Hydrogen atoms or their electrons are transpor ...
energy & cellular respiration
... transport and chemiosmosis – The citric acid cycle and oxidative phosphorylation are often referred to as Aerobic respiration and both occur in the mitochondria ...
... transport and chemiosmosis – The citric acid cycle and oxidative phosphorylation are often referred to as Aerobic respiration and both occur in the mitochondria ...
LB Fat metabolism A
... Thus, unlike carbohydrates and protein, most lipids do not use the enterohepatic circulatory system. This allows lipids to be cleared by the whole body and avoids overwhelming the liver with lipid. ...
... Thus, unlike carbohydrates and protein, most lipids do not use the enterohepatic circulatory system. This allows lipids to be cleared by the whole body and avoids overwhelming the liver with lipid. ...
Overview of Aerobic Respiration
... 1)NADH and FADH2 give electrons to the chain.*NADH does it in the beginning, FADH2 later on…. * they also give up protons; H+ (hydrogen ions) 2)electrons are mooooving down the chain..and meanwhile losing energy. 3) that lost energy is used to pump protons from matrix, making a high concentration of ...
... 1)NADH and FADH2 give electrons to the chain.*NADH does it in the beginning, FADH2 later on…. * they also give up protons; H+ (hydrogen ions) 2)electrons are mooooving down the chain..and meanwhile losing energy. 3) that lost energy is used to pump protons from matrix, making a high concentration of ...
View PDF
... • NADH and FADH2 (from glycolysis and the citric acid cycle) donate electrons to the electron transport chain, which powers ATP synthesis via oxidative phosphorylation. ...
... • NADH and FADH2 (from glycolysis and the citric acid cycle) donate electrons to the electron transport chain, which powers ATP synthesis via oxidative phosphorylation. ...
Hexose MonoPhosphate (HMP) shunt pathway
... drug reduction, and as a cofactor for some non-synthetic enzymatic reactions. In addition, HMP is used for the production of ribose for nucleotide and nucleic acid synthesis. The hexose monophosphate pathway also allows the entry of some carbohydrates into the glycolytic ...
... drug reduction, and as a cofactor for some non-synthetic enzymatic reactions. In addition, HMP is used for the production of ribose for nucleotide and nucleic acid synthesis. The hexose monophosphate pathway also allows the entry of some carbohydrates into the glycolytic ...
Hexose MonoPhosphate (HMP) shunt pathway
... drug reduction, and as a cofactor for some non-synthetic enzymatic reactions. In addition, HMP is used for the production of ribose for nucleotide and nucleic acid synthesis. The hexose monophosphate pathway also allows the entry of some carbohydrates into the glycolytic ...
... drug reduction, and as a cofactor for some non-synthetic enzymatic reactions. In addition, HMP is used for the production of ribose for nucleotide and nucleic acid synthesis. The hexose monophosphate pathway also allows the entry of some carbohydrates into the glycolytic ...
3-Glycolysis BCH340
... Lactate released to the blood may be taken up by other tissues, or by skeletal muscle after exercise, and converted via Lactate Dehydrogenase back to pyruvate, which may be oxidized in Krebs Cycle or (in liver) converted to back to glucose via ...
... Lactate released to the blood may be taken up by other tissues, or by skeletal muscle after exercise, and converted via Lactate Dehydrogenase back to pyruvate, which may be oxidized in Krebs Cycle or (in liver) converted to back to glucose via ...
with oxygen - Don`t Trust Atoms
... supply of oxygen getting to the muscles. • Happens when you need more energy than can be supplied by aerobic respiration. Glucose Lactic Acid ...
... supply of oxygen getting to the muscles. • Happens when you need more energy than can be supplied by aerobic respiration. Glucose Lactic Acid ...
Bozeman Science Video: Cellular Respiration Name: Directions
... Directions: Follow along with Mr. Anderson as he explains the process of cellular respiration. Clip can be found at http://www.bozemanscience.com/cellular-respiration 1. Cellular respiration takes organic compounds and converts them to _________, _____________, and ______________ 2. Do plants do cel ...
... Directions: Follow along with Mr. Anderson as he explains the process of cellular respiration. Clip can be found at http://www.bozemanscience.com/cellular-respiration 1. Cellular respiration takes organic compounds and converts them to _________, _____________, and ______________ 2. Do plants do cel ...
Cell Size and Shape
... Citric Acid (Krebs ) Cycle In aerobic organisms, the citric acid cycle is a metabolic pathway that forms part of the breakdown of carbohydrates, fats and proteins into carbon dioxide and water in order to generate energy. It is one of three metabolic pathways that are involved in fuel molecule cata ...
... Citric Acid (Krebs ) Cycle In aerobic organisms, the citric acid cycle is a metabolic pathway that forms part of the breakdown of carbohydrates, fats and proteins into carbon dioxide and water in order to generate energy. It is one of three metabolic pathways that are involved in fuel molecule cata ...
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.