Datasheet - BosterBio
... recommended to anyone who may be using Boster’s antibodies to, 1) treat or stain live cells, or 2) perform any primary amine coupling reaction. All conjugated antibodies should be stored in light-protected vials or covered with a light protecting materials (i.e. aluminum foil). Conjugated antibodies ...
... recommended to anyone who may be using Boster’s antibodies to, 1) treat or stain live cells, or 2) perform any primary amine coupling reaction. All conjugated antibodies should be stored in light-protected vials or covered with a light protecting materials (i.e. aluminum foil). Conjugated antibodies ...
File
... Each FADH2 yield 1.5 ATP and NADH 2.5 ATP during electron transport and oxidative phosphorylation, acetyl CoA yields 10ATP thus a total of 108ATP of which 2 ATP is utilized in conversion of palmitic acid to Palmityl-CoA, thus 106 molecules ATP per molecule of palmitic acid is synthesized ...
... Each FADH2 yield 1.5 ATP and NADH 2.5 ATP during electron transport and oxidative phosphorylation, acetyl CoA yields 10ATP thus a total of 108ATP of which 2 ATP is utilized in conversion of palmitic acid to Palmityl-CoA, thus 106 molecules ATP per molecule of palmitic acid is synthesized ...
No Slide Title
... Each FADH2 yield 1.5 ATP and NADH 2.5 ATP during electron transport and oxidative phosphorylation, acetyl CoA yields 10ATP thus a total of 108ATP of which 2 ATP is utilized in conversion of palmitic acid to Palmityl-CoA, thus 106 molecules ATP per molecule of palmitic acid is synthesized ...
... Each FADH2 yield 1.5 ATP and NADH 2.5 ATP during electron transport and oxidative phosphorylation, acetyl CoA yields 10ATP thus a total of 108ATP of which 2 ATP is utilized in conversion of palmitic acid to Palmityl-CoA, thus 106 molecules ATP per molecule of palmitic acid is synthesized ...
Discussion - AHCC Published Research
... induced liver injury mice prepared for this experiment. Regarding organ weight, AHCC significantly inhibit liver weight gain. Liver of mouse administered CCI4 is known to become fatty liver because of disorder of lipid metabolism, and olive oil used as a solubilizer is also a cause of adiposity in l ...
... induced liver injury mice prepared for this experiment. Regarding organ weight, AHCC significantly inhibit liver weight gain. Liver of mouse administered CCI4 is known to become fatty liver because of disorder of lipid metabolism, and olive oil used as a solubilizer is also a cause of adiposity in l ...
1 CHRONIC LIVER DISEASES DERANGEMENTS OF HEPATIC
... The liver also produces a wide variety of secretory glycoproteins. Some of them are very important for the clinicians for example ceruloplasmin, alpha antitrypsin and most other alpha and beta globulins. While the site of albumin catabolism is uncertain, the removal of terminal sialic acid residues ...
... The liver also produces a wide variety of secretory glycoproteins. Some of them are very important for the clinicians for example ceruloplasmin, alpha antitrypsin and most other alpha and beta globulins. While the site of albumin catabolism is uncertain, the removal of terminal sialic acid residues ...
Amino Acid Oxidation and the Urea Cycle
... Phenylketonuria results from absence of phenylalanine hydroxylase. Phe is converted to phenylpyruvate and excreted. Severe mental retardation occurs unless infants are immediately placed on a diet low in Phe. ...
... Phenylketonuria results from absence of phenylalanine hydroxylase. Phe is converted to phenylpyruvate and excreted. Severe mental retardation occurs unless infants are immediately placed on a diet low in Phe. ...
슬라이드 1
... • Liver glycogen provides an immediately available reserve of glucose to maintain the blood glucose concentration (such as during short periods of hypoglycemia, starvation, or exercise). • The rates of synthesis and breakdown of liver glycogen are regulated by glycogen synthase and phosphorylase, re ...
... • Liver glycogen provides an immediately available reserve of glucose to maintain the blood glucose concentration (such as during short periods of hypoglycemia, starvation, or exercise). • The rates of synthesis and breakdown of liver glycogen are regulated by glycogen synthase and phosphorylase, re ...
2_Digestion of CHO_Students
... The sodium is transported from high to low concentration (with concentration gradient) and at the same time causes the carrier to transport glucose against its concentration gradient (from lower to higher concentrations) allowing for greater accumulation of glucose on one side of the membrane than o ...
... The sodium is transported from high to low concentration (with concentration gradient) and at the same time causes the carrier to transport glucose against its concentration gradient (from lower to higher concentrations) allowing for greater accumulation of glucose on one side of the membrane than o ...
anaerobic respiration
... The NADH + H+ from glycolysis can be oxidized without O2 to create! This is achieved by the reduction of pyruvate to lactate, which allows the oxidation of the NADH + H+ to NAD. However, although this allows respiration to continue without O2, it is very inefficient, creating just 2 molecules of ATP ...
... The NADH + H+ from glycolysis can be oxidized without O2 to create! This is achieved by the reduction of pyruvate to lactate, which allows the oxidation of the NADH + H+ to NAD. However, although this allows respiration to continue without O2, it is very inefficient, creating just 2 molecules of ATP ...
Metabolic changes in Diabetes mellitus (DM)
... of autoimmune destruction of beta cells in genetically susceptive individuals ...
... of autoimmune destruction of beta cells in genetically susceptive individuals ...
Lecture 27
... to pyruvate, -ketoglutarate, succinyl-CoA, fumarate, or oxaloacetate (glucose precursors). Ketogenic amino acids, are broken down to acetyl-CoA or acetoacetate and therefore can be converted to fatty acids or ketone bodies. ...
... to pyruvate, -ketoglutarate, succinyl-CoA, fumarate, or oxaloacetate (glucose precursors). Ketogenic amino acids, are broken down to acetyl-CoA or acetoacetate and therefore can be converted to fatty acids or ketone bodies. ...
Biochemistry
... 1) Allosteric activation or inhibition of GK, HK, PFK & Pk. e.g. phosphorylation and dephosphorylation. This is short term influence (minutes-hours). 2) Hormonal influence on the amount of enzyme synthesized. This is long term influence by increasing 10-20 fold the enzyme activity and takes hours-da ...
... 1) Allosteric activation or inhibition of GK, HK, PFK & Pk. e.g. phosphorylation and dephosphorylation. This is short term influence (minutes-hours). 2) Hormonal influence on the amount of enzyme synthesized. This is long term influence by increasing 10-20 fold the enzyme activity and takes hours-da ...
檔案下載
... • Convert one glucose to two pyruvate, producing two ATP and two NADH • Derived from the Greek stem glyk, “sweet”; and the word lysis, “dissolution” ...
... • Convert one glucose to two pyruvate, producing two ATP and two NADH • Derived from the Greek stem glyk, “sweet”; and the word lysis, “dissolution” ...
Principles of BIOCHEMISTRY - Illinois State University
... • Catalyzes a metabolically irreversible hydrolysis reaction ...
... • Catalyzes a metabolically irreversible hydrolysis reaction ...
Basic Strategies of Cell Metabolism
... The relationships between catabolism and anabolism occur not only at the common intermediates. Certain pathways play dual roles, as they function in both anabolism and catabolism. For instance, the tricarboxylic acid cycle, as will be demonstrated later, is involved not only in the oxidation of pyru ...
... The relationships between catabolism and anabolism occur not only at the common intermediates. Certain pathways play dual roles, as they function in both anabolism and catabolism. For instance, the tricarboxylic acid cycle, as will be demonstrated later, is involved not only in the oxidation of pyru ...
Eicosanoid Synthesis
... A subscript refers to the number of double bonds in the two side-chains. ...
... A subscript refers to the number of double bonds in the two side-chains. ...
Liver function test
... Tests to access liver function • LFTs are the biochemical investigations to know the functions and damage of liver • Liver is a large size factory of safety so it can perform many of its functions almost normally despite of damage • Slelection of the right test is important in LFT ...
... Tests to access liver function • LFTs are the biochemical investigations to know the functions and damage of liver • Liver is a large size factory of safety so it can perform many of its functions almost normally despite of damage • Slelection of the right test is important in LFT ...
Slayt 1 - Cumhuriyet University
... Basal levels of glucose transport are maintained by GLUT1 and GLUT3 forms of the glucose transporter (in most tissues). ...
... Basal levels of glucose transport are maintained by GLUT1 and GLUT3 forms of the glucose transporter (in most tissues). ...
Glucose Metabolism: Generating Energy in Life and Disease
... PFK1 (phosphofructokinase): activated by AMP (low energy state) ...
... PFK1 (phosphofructokinase): activated by AMP (low energy state) ...
Document
... 0.75____D____ 73. Ketonemia arising from the utilization of fat as the major alternative source of energy occurs in: A. diabetes mellitus B. starvation C. prolonged consumption of high fat diet D. all of the above 0.50____D____ 74. Glycerol phosphate, the backbone of TAG, is synthesized in the liver ...
... 0.75____D____ 73. Ketonemia arising from the utilization of fat as the major alternative source of energy occurs in: A. diabetes mellitus B. starvation C. prolonged consumption of high fat diet D. all of the above 0.50____D____ 74. Glycerol phosphate, the backbone of TAG, is synthesized in the liver ...
Short Answer Questions: a workshop
... Lactic acid is a product of anaerobic respiration. This occurs when oxygen is starved. Glycolysis of glucose to pyruvate produces a net gain of 2 ATP. Also, in glycolysis, NAD is reduced to form NADH. The conversion of pyruvate produces NAD+ from NADH so NAD+ can be recycled. ATP is an energy interm ...
... Lactic acid is a product of anaerobic respiration. This occurs when oxygen is starved. Glycolysis of glucose to pyruvate produces a net gain of 2 ATP. Also, in glycolysis, NAD is reduced to form NADH. The conversion of pyruvate produces NAD+ from NADH so NAD+ can be recycled. ATP is an energy interm ...
metabolism of amino acids
... • Negative nitrogen balance – output exceeds intakeduring surgery, advanced cancer or malnutrition ...
... • Negative nitrogen balance – output exceeds intakeduring surgery, advanced cancer or malnutrition ...
Supplemental Data and Figure
... CoA), and the reaction was initiated by the addition of pyruvate. The reaction was terminated by perchloric acid. Samples were neutralized and centrifuged, and the resulting supernatant was used for determination of acetyl-CoA content. Acetyl CoA was converted to [14C]citrate and separated from unre ...
... CoA), and the reaction was initiated by the addition of pyruvate. The reaction was terminated by perchloric acid. Samples were neutralized and centrifuged, and the resulting supernatant was used for determination of acetyl-CoA content. Acetyl CoA was converted to [14C]citrate and separated from unre ...
Baumgard Post absorptive CHO metabolism
... – Occurs in the liver and muscle – The synthesis of a branched polysaccharide form glucose….resembles amylopectin – Liver stores are especially important as an emergency source of blood glucose ...
... – Occurs in the liver and muscle – The synthesis of a branched polysaccharide form glucose….resembles amylopectin – Liver stores are especially important as an emergency source of blood glucose ...
Glyceroneogenesis
Glyceroneogenesis is a metabolic pathway which synthesizes glycerol 3-phosphate or triglyceride from precursors other than glucose. Usually glycerol 3-phosphate is generated from glucose by glycolysis, but when glucose concentration drops in the cytosol, it is generated by another pathway called glyceroneogenesis. Glyceroneogenesis uses pyruvate, alanine, glutamine or any substances from the TCA cycle as precursors for glycerol 3-phophate. Phosphoenolpyruvate carboxykinase (PEPC-K), which is an enzyme that catalyses the decarboxylation of oxaloacetate to phosphoenolpyruvate is the main regulator for this pathway. Glyceroneogenesis can be observed in adipose tissue and also liver. It is a significant biochemical pathway which regulates cytosolic lipid levels. Intense suppression of glyceroneogenesis may lead to metabolic disorder such as type 2 diabetes.