Hardy-Weinberg Assignment
... b. How many moles of glucose are in a HERSHEY’S candy bar? 1 mol sucrose = 2 mol glucose SO 0.07 mol sucrose = 0.14 mol glucose c. How many kcal are available from the glucose in a HERSHEY’S candy bar? Thinking back to Question 5, how many of these kcal will your body be able to convert to ATP? kca ...
... b. How many moles of glucose are in a HERSHEY’S candy bar? 1 mol sucrose = 2 mol glucose SO 0.07 mol sucrose = 0.14 mol glucose c. How many kcal are available from the glucose in a HERSHEY’S candy bar? Thinking back to Question 5, how many of these kcal will your body be able to convert to ATP? kca ...
Lipids Metabolism
... only animal food contain cholesterol Why? Cholesterol is made in the liver and plants do no have a liver Cholesterol is needed to make bile, sex hormones, steroids and vitamin D. It is the constituent of cell membrane structure Dietary recommendation - <300 mg/d Sources – egg yolks, liver, shellfish ...
... only animal food contain cholesterol Why? Cholesterol is made in the liver and plants do no have a liver Cholesterol is needed to make bile, sex hormones, steroids and vitamin D. It is the constituent of cell membrane structure Dietary recommendation - <300 mg/d Sources – egg yolks, liver, shellfish ...
Energetics at the Molecular Level Energetics: Scientific Foundations of Obesity and Other Health Aspects Douglas R Moellering, Ph.D.
... TCA (citric acid cycle). FAD is a prosthetic group in the enzyme succinate dehydrogenase → succinate to fumarate; whereas in ...
... TCA (citric acid cycle). FAD is a prosthetic group in the enzyme succinate dehydrogenase → succinate to fumarate; whereas in ...
Benfotiamine 150 + Alpha-Lipoic Acid 300
... Alpha-lipoic acid is a sulfur-containing fatty acid that performs vitamin-like roles in the body. Also known as thioctic acid or simply lipoic acid (LA), this compound functions as a coenzyme in the metabolism of carbohydrates, and was originally thought to belong to the B vitamin family.1 LA is req ...
... Alpha-lipoic acid is a sulfur-containing fatty acid that performs vitamin-like roles in the body. Also known as thioctic acid or simply lipoic acid (LA), this compound functions as a coenzyme in the metabolism of carbohydrates, and was originally thought to belong to the B vitamin family.1 LA is req ...
Lipids Metabolism
... only animal food contain cholesterol Why? Cholesterol is made in the liver and plants do no have a liver Cholesterol is needed to make bile, sex hormones, steroids and vitamin D. It is the constituent of cell membrane structure Dietary recommendation - <300 mg/d Sources – egg yolks, liver, shellfish ...
... only animal food contain cholesterol Why? Cholesterol is made in the liver and plants do no have a liver Cholesterol is needed to make bile, sex hormones, steroids and vitamin D. It is the constituent of cell membrane structure Dietary recommendation - <300 mg/d Sources – egg yolks, liver, shellfish ...
Hepatic Steatosis - Arteriosclerosis, Thrombosis, and Vascular Biology
... low plasma FFA levels and low hepatic TG content.16 Finally, muscle-specific modulation of lipoprotein lipase may result in altered distribution of tissue TGs. In mice with musclespecific LPL overexpression, muscle TG content is increased, whereas liver TG content is decreased compared with wildtype ...
... low plasma FFA levels and low hepatic TG content.16 Finally, muscle-specific modulation of lipoprotein lipase may result in altered distribution of tissue TGs. In mice with musclespecific LPL overexpression, muscle TG content is increased, whereas liver TG content is decreased compared with wildtype ...
Fermentation and Cellular Respiration
... molecules, but the pathway does not stop there. Instead, the pyruvic acids serve as final electron acceptors, the two molecules of NADH+H+ are oxidized to NAD and the two pyruvic acid molecules are converted into lactic acid molecules. Homofermentative – Organisms that yield lactic acid as the only ...
... molecules, but the pathway does not stop there. Instead, the pyruvic acids serve as final electron acceptors, the two molecules of NADH+H+ are oxidized to NAD and the two pyruvic acid molecules are converted into lactic acid molecules. Homofermentative – Organisms that yield lactic acid as the only ...
Micro 071023
... 3 or 4 protons flowing through turns c proteins enough to change conformation of b protein 1 ATP ...
... 3 or 4 protons flowing through turns c proteins enough to change conformation of b protein 1 ATP ...
Inked Outline
... In many cases the sugar monomers are ultimately metabolized either by glycolysis or another pathway to generate pyruvate. ...
... In many cases the sugar monomers are ultimately metabolized either by glycolysis or another pathway to generate pyruvate. ...
Chapter 11
... – Certain muscles can use some lactate for energy. – Most lactate enters the bloodstream. • Liver removes lactate and converts it to glucose. ...
... – Certain muscles can use some lactate for energy. – Most lactate enters the bloodstream. • Liver removes lactate and converts it to glucose. ...
Anaerobic Respiration
... Fermentation: Anaerobic Respiration Without O2 all that is left is NADH, Pyruvate, and Glucose with nowhere to go. ...
... Fermentation: Anaerobic Respiration Without O2 all that is left is NADH, Pyruvate, and Glucose with nowhere to go. ...
File - Mr. Shanks` Class
... 10. In which of the following situations would you least expect to find anaerobic respiration occurring? a) a vat in which beer is being manufactured b) a human brain engaged in writing this test c) the inside of a bacterium living inside a human intestine d) a runner's leg muscle during a 400-m das ...
... 10. In which of the following situations would you least expect to find anaerobic respiration occurring? a) a vat in which beer is being manufactured b) a human brain engaged in writing this test c) the inside of a bacterium living inside a human intestine d) a runner's leg muscle during a 400-m das ...
AMINO ACIDS I. Function of amino acids A. Building blocks of
... a. Hydroxyproline and hydroxylysine i. hydroxylated enzymatically after translation ii. important in collagen structure b. phosphoamino acids i. Tyr, Ser and Thr hydroxyl groups can be phosphorylated ii. important in activation and inhibition of enzymatic activity c. Cysteine can form disulfide bond ...
... a. Hydroxyproline and hydroxylysine i. hydroxylated enzymatically after translation ii. important in collagen structure b. phosphoamino acids i. Tyr, Ser and Thr hydroxyl groups can be phosphorylated ii. important in activation and inhibition of enzymatic activity c. Cysteine can form disulfide bond ...
video slide - Independent School District 196
... 100 mL blood 4 Glucagon promotes the breakdown of glycogen in the liver and there lease of Glucose into the blood,increasing blood glucose level. ...
... 100 mL blood 4 Glucagon promotes the breakdown of glycogen in the liver and there lease of Glucose into the blood,increasing blood glucose level. ...
Energy Systems
... re-synthesise three molecules of ATP but the process of glycolysis itself requires energy (one molecule) The lactic acid system provides energy for high-intensity activities lasting up to 3 minutes but peaking at 1 minute, for example the 400m ...
... re-synthesise three molecules of ATP but the process of glycolysis itself requires energy (one molecule) The lactic acid system provides energy for high-intensity activities lasting up to 3 minutes but peaking at 1 minute, for example the 400m ...
Ch. 7 Cellular Respiration
... heterotroph 3. ____________ an organism that gets its food from another source cellular respiration 4. ____________ the process by which cells make ATP by breaking down organic compounds. ...
... heterotroph 3. ____________ an organism that gets its food from another source cellular respiration 4. ____________ the process by which cells make ATP by breaking down organic compounds. ...
Pyruvate Glucose - School of Medicine
... from non-carbohydrate precursors. • Glucose stores are depleted during periods of starvation or fasting beyond a day. • Since the brain relies on glucose (120g/d) as a source of energy, glucose must be synthesized from molecules other than carbohydrates. PYRUVATE → GLUCOSE ...
... from non-carbohydrate precursors. • Glucose stores are depleted during periods of starvation or fasting beyond a day. • Since the brain relies on glucose (120g/d) as a source of energy, glucose must be synthesized from molecules other than carbohydrates. PYRUVATE → GLUCOSE ...
Citric Acid Cycle
... Electrons from these oxidation processes are then used to reduce oxygen to water with the concomitant formation of ATP. The unique structural aspects of mitochondria facilitate its energy-harvesting role. ...
... Electrons from these oxidation processes are then used to reduce oxygen to water with the concomitant formation of ATP. The unique structural aspects of mitochondria facilitate its energy-harvesting role. ...
File - Biology withMrs. Ellsworth
... Draw the pH scale. Label the numbers of the scale. Indicate which number is neutral. Indicate the acid range. Indicate the base range. Indicate which side is more concentrated with OH- and Indicate which side is more concentrated with H+. ...
... Draw the pH scale. Label the numbers of the scale. Indicate which number is neutral. Indicate the acid range. Indicate the base range. Indicate which side is more concentrated with OH- and Indicate which side is more concentrated with H+. ...
The Name Game - UCSD Course Websites
... You might wonder why the glycerol compound with a single –PO43- group is not called glycerol-1-phosphate, to keep the numbers low. This metabolite has the phosphate numbered as 3 because only one of two possible stereoisomers of glycerol phosphate are made in the cell. Still, I hope you can draw the ...
... You might wonder why the glycerol compound with a single –PO43- group is not called glycerol-1-phosphate, to keep the numbers low. This metabolite has the phosphate numbered as 3 because only one of two possible stereoisomers of glycerol phosphate are made in the cell. Still, I hope you can draw the ...
Carbohydrates Structure
... Energy Glucose is the circulating sugar in blood and the energy source for most organs. Glycogen is one of the most important energy stores. Oxidation of glucose to CO2 and H2O is the central energy yielding process. Structural Polysaccharides are used as shock absorbers and lubricants in joints and ...
... Energy Glucose is the circulating sugar in blood and the energy source for most organs. Glycogen is one of the most important energy stores. Oxidation of glucose to CO2 and H2O is the central energy yielding process. Structural Polysaccharides are used as shock absorbers and lubricants in joints and ...
electron transport chain
... to produce water 2. Electrons produced from the split of NADH and FADH provide the energy for the phosphorylation of ADP to ATP 3. One molecule of glycogen can generate up to 37-39 molecules of ATP ...
... to produce water 2. Electrons produced from the split of NADH and FADH provide the energy for the phosphorylation of ADP to ATP 3. One molecule of glycogen can generate up to 37-39 molecules of ATP ...
The Chemistry of Life
... • Hydrogen bond: Because they’re polarized, two adjacent H2O (water) molecules can form a linkage known as a hydrogen bond, where a (electronegative) hydrogen atom of one H2O molecule is electrostatically attracted to the (electropositive) oxygen atom of an adjacent water molecule. Consequently, mol ...
... • Hydrogen bond: Because they’re polarized, two adjacent H2O (water) molecules can form a linkage known as a hydrogen bond, where a (electronegative) hydrogen atom of one H2O molecule is electrostatically attracted to the (electropositive) oxygen atom of an adjacent water molecule. Consequently, mol ...
Table of Contents - Arizona Science Center
... The food you eat, your organs, the muscles in your body, as well as your hair and nails are all made up of macromolecules (macro = large; these molecules are large in comparison to other organic molecules). Four major groups of macromolecules are essential to the life of a cell: carbohydrates (simpl ...
... The food you eat, your organs, the muscles in your body, as well as your hair and nails are all made up of macromolecules (macro = large; these molecules are large in comparison to other organic molecules). Four major groups of macromolecules are essential to the life of a cell: carbohydrates (simpl ...