Goat Milk - Mt. Capra
... Protein is the substance that makes up virtually every aspect of the human body. Many organs, such as the brain, heart, lungs, muscle, liver, and skin, are made almost entirely of protein. In fact, there are around 200,000 different protein sequences throughout the body. Need64 ...
... Protein is the substance that makes up virtually every aspect of the human body. Many organs, such as the brain, heart, lungs, muscle, liver, and skin, are made almost entirely of protein. In fact, there are around 200,000 different protein sequences throughout the body. Need64 ...
Cellular Respiration - Spokane Public Schools
... couples electron transport to ATP synthesis •NADH and FADH2 –Donate electrons to the electron transport chain, which powers ATP synthesis via oxidative phosphorylation ...
... couples electron transport to ATP synthesis •NADH and FADH2 –Donate electrons to the electron transport chain, which powers ATP synthesis via oxidative phosphorylation ...
OC 27 Amino Acids
... • polypeptide: a macromolecule containing many amino acids joined by peptide bonds • protein: a biological macromolecule of molecular weight 5000 g/mol of greater, consisting of one or more polypeptide chains ...
... • polypeptide: a macromolecule containing many amino acids joined by peptide bonds • protein: a biological macromolecule of molecular weight 5000 g/mol of greater, consisting of one or more polypeptide chains ...
enzymology
... activated then enzyme synthesis takes place and the process is called enzyme induction. On the contrary, if enzyme synthesis is inhibited it is called repression. This type of control mechanism is operative at the level of either transcription or translation, but mostly it is seen at transcription l ...
... activated then enzyme synthesis takes place and the process is called enzyme induction. On the contrary, if enzyme synthesis is inhibited it is called repression. This type of control mechanism is operative at the level of either transcription or translation, but mostly it is seen at transcription l ...
Energy for Cells
... CO2 and H2O. Per glucose molecule, there is a net gain of 2 ATP from glycolysis, which takes place in the cytoplasm. The citric acid cycle, which occurs in the matrix of mitochondria, accounts for 2 ATP per glucose molecule. This means that a total of 4 ATP form due to substrate-level ATP synthesis ...
... CO2 and H2O. Per glucose molecule, there is a net gain of 2 ATP from glycolysis, which takes place in the cytoplasm. The citric acid cycle, which occurs in the matrix of mitochondria, accounts for 2 ATP per glucose molecule. This means that a total of 4 ATP form due to substrate-level ATP synthesis ...
ATP - HEDCen Science
... • Catabolic pathways funnel electrons from many kinds of organic molecules into cellular respiration. • Glycolysis accepts a wide range of carbohydrates. • Proteins must be digested to amino acids which can feed glycolysis or the citric acid cycle. ...
... • Catabolic pathways funnel electrons from many kinds of organic molecules into cellular respiration. • Glycolysis accepts a wide range of carbohydrates. • Proteins must be digested to amino acids which can feed glycolysis or the citric acid cycle. ...
Problem Set #3 Key
... glucose MW=180.16 g/mol (360.32g glucose)(mol/180.16g glucose) = 2.00 mol glucose AEROBIC: (2.00mol glucose)(32ATP/mol glucose) = 64 moles ATP ANAEROBIC: (2.00mol glucose)(2ATP/mol glucose) = 4 moles ATP Under anaerobic conditions, 2 ATP are produced (net) per mole of glucose. 7 ATP are made per mol ...
... glucose MW=180.16 g/mol (360.32g glucose)(mol/180.16g glucose) = 2.00 mol glucose AEROBIC: (2.00mol glucose)(32ATP/mol glucose) = 64 moles ATP ANAEROBIC: (2.00mol glucose)(2ATP/mol glucose) = 4 moles ATP Under anaerobic conditions, 2 ATP are produced (net) per mole of glucose. 7 ATP are made per mol ...
ANS 320 2010
... Preferably high quality grass hay or alfalfa/grass mix Exercising horses do not need high levels of protein More important – quality of protein Horses should be fed to meet their immediate needs Cut grain on rest days ...
... Preferably high quality grass hay or alfalfa/grass mix Exercising horses do not need high levels of protein More important – quality of protein Horses should be fed to meet their immediate needs Cut grain on rest days ...
VI. Reaction Coupling and ATP
... 4. Competitive inhibition • molecule binds to active site • prevents substrate binding ...
... 4. Competitive inhibition • molecule binds to active site • prevents substrate binding ...
Key area 2 * Cellular respiration
... Each acetyl CoA (2C) combines with oxaloacetate (4C) to form a molecule called citrate (6C). Citrate then goes through a series of enzymecatalysed reactions back to oxaloacetate. As each carbon is lost from the citrate molecule a carbon dioxide molecule and hydrogen ions are released CFE Higher Biol ...
... Each acetyl CoA (2C) combines with oxaloacetate (4C) to form a molecule called citrate (6C). Citrate then goes through a series of enzymecatalysed reactions back to oxaloacetate. As each carbon is lost from the citrate molecule a carbon dioxide molecule and hydrogen ions are released CFE Higher Biol ...
Cellular respiration
... by substrate-level by oxidative phosphorylation, depending on which shuttle transports electrons phosphorylation from NADH in cytosol ...
... by substrate-level by oxidative phosphorylation, depending on which shuttle transports electrons phosphorylation from NADH in cytosol ...
Specific Activities of Enzymes of the Serine Pathway of Carbon
... lyase (Hersh & Bellion, 1972). The ratio of specific activities (methylamine-grown cells/ succinate-grown cells) was above 40 in each case. These enzymes can account for the net conversion of a reduced C1 unit and COz into acetyl-CoA via serine. The results also suggest that serine dehydratase is no ...
... lyase (Hersh & Bellion, 1972). The ratio of specific activities (methylamine-grown cells/ succinate-grown cells) was above 40 in each case. These enzymes can account for the net conversion of a reduced C1 unit and COz into acetyl-CoA via serine. The results also suggest that serine dehydratase is no ...
2. Citric acid cycle
... Fatty acids at coenzyme junction - becomes Acetyl CoA 2 carbons at a time via β-oxidation ...
... Fatty acids at coenzyme junction - becomes Acetyl CoA 2 carbons at a time via β-oxidation ...
14C2H4 : Distribution of 14G-labeled tissue metabolites
... patterns were noted when 14CjH< exposure was followed by a 6 hr air chase or when 5% COi, an antagonist of cthylene action, was present during die exposure. Marked differences in the 14C-metabolite distribution patterns were obtained when ...
... patterns were noted when 14CjH< exposure was followed by a 6 hr air chase or when 5% COi, an antagonist of cthylene action, was present during die exposure. Marked differences in the 14C-metabolite distribution patterns were obtained when ...
1 Cholesterol synthesis, uptake, and regulation I. Structure and
... 6-C branched compound). This reduction is catalyzed by HMG-CoA reductase, the most tightly controlled enzyme in biology and the primary regulatory point in cholesterol biosynthesis; its concentration varies by as much as 200-fold. In the next two steps, which are catalyzed by a phosphotransferase an ...
... 6-C branched compound). This reduction is catalyzed by HMG-CoA reductase, the most tightly controlled enzyme in biology and the primary regulatory point in cholesterol biosynthesis; its concentration varies by as much as 200-fold. In the next two steps, which are catalyzed by a phosphotransferase an ...
Document
... Bile salts and lipase are still present, fat was still hydrolyzed into its component fatty acids. Minimal change in pH is caused by organic acids produced in the reaction ...
... Bile salts and lipase are still present, fat was still hydrolyzed into its component fatty acids. Minimal change in pH is caused by organic acids produced in the reaction ...
Lab5
... TSI agar detects bacteria that can ferment glucose, lactose and/or sucrose, and reduce sulfur. TSI contains a small amount of glucose (0.1%). If an organism only ferments glucose, it will do so very quickly. This will lower the pH and cause a color change by the pH indicator phenol red from red to y ...
... TSI agar detects bacteria that can ferment glucose, lactose and/or sucrose, and reduce sulfur. TSI contains a small amount of glucose (0.1%). If an organism only ferments glucose, it will do so very quickly. This will lower the pH and cause a color change by the pH indicator phenol red from red to y ...
CHEM 2212 - Organic Chemistry II – Session B
... concentrated into such a small amount of time will keep you from forgetting material from one week to the next. However, constant studying and working problems is the key to your success here. ...
... concentrated into such a small amount of time will keep you from forgetting material from one week to the next. However, constant studying and working problems is the key to your success here. ...
7-Keto DHEA - Scientific Bio
... amount and intensity of the stressors that one encounters. Once a stressful situation has been resolved the body must return to homeostasis and the levels of the stress related adrenal hormones should once again be in proper balance. All of the adrenal hormones play a critical role in the body and m ...
... amount and intensity of the stressors that one encounters. Once a stressful situation has been resolved the body must return to homeostasis and the levels of the stress related adrenal hormones should once again be in proper balance. All of the adrenal hormones play a critical role in the body and m ...
Cellular Respiration and Fermentation
... In eukaryotic cells, the inner membrane of the mitochondrion is the site of electron transport and chemiosmosis, the processes that together constitute oxidative phosphorylation. o In prokaryotes, these processes take place in the plasma membrane. ...
... In eukaryotic cells, the inner membrane of the mitochondrion is the site of electron transport and chemiosmosis, the processes that together constitute oxidative phosphorylation. o In prokaryotes, these processes take place in the plasma membrane. ...