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- Acid phosphatases are an important group of enzymes that can be detected in human blood serum. Under slightly acidic conditions (pH 5.0), this group of enzymes can hydrolyze biological phosphate esters as follows: R-O-P-O;² + H 20 → R-OH + HO-P-O;² Acid phosphatases are produced and can be detected in erythrocytes, kidney, spleen, the liver, and prostrate gland. The enzyme from the prostrate gland is clinically important because an increased activity in the blood is frequently an indication of cancer of the prostrate gland. Tartrate ion can strongly inhibit the phosphatase from the prostrate gland, but not acid phosphatases from other tissues. How can you use the information above to develop a specificThe fact that acid-anhydride bonds are less stable than ester bonds helps explain the fact that the bond between the: Beta- and gamma-phosphoryl groups in atp is a high energy bond, but not the bond between the alpha-phosphorly groups and the hydroxyl of ribose. Phosphorly groups and the hydroxyl at the C-3 position in 3-phosphoglycerate is a high-energy bond. Beta- gamma- phosphoryl groups in ATP is a high-energy bond, but not bond between the alpha and beta-phosphoryl groups. Alpha-phosphorly group (i.e, the one nearest the ribose) and the hydroxyl at the 5’ position in ATP is a high-energy bond.In addition to O, binding, changes in other chemical conditions can result in hemoglobin changes. pH is one of those factors. It can be understood by reaction #1. Red blood cells have the enzyme Carbonic Anhydrase which catalyzes reaction #2. Using the two reactions explain how pH contributes to the transfer of O2 from the lungs to the tissues. H-Hb* + O2 Hb-O2 + H* Reaction #1 CO2(aq) + H2O= H* + HCO3 Reaction #2
- Use arrow-pushing to show how the glycerol phosphate reacts with the base :B and NAD* to form DHAP. Show the products of the reaction, including the structure of DHAP. The image can be selected for copying and pasting. :B O-H 2. HO-CH-C-CH-O-Pi H H H NAD*Which of the following is incorrect about the chymotrypsin mechanism? a. The (-) charge of oxygen in the transition state is stabilized by the oxyanion hole Ob. Asp does not act as a nucleophile Oc. After H₂O had a proton removed, the OH acts as a nucleophile Od. When His removes a proton from H₂O, it is acting as an acidEthylene glycol (HO−CH2−CH2−OH) is a major component of antifreeze. In the body, it is first converted to HOOC−CHO (oxoethanoic acid) and then to HOOC−COOH (oxalic acid), which is toxic. What class of enzyme catalyzes both of the reactions of ethylene glycol? The treatment for the ingestion of ethylene glycol is an intravenous solution of ethanol. How might this help prevent toxic levels of oxalic acid in the body?
- How many ATP molecules can be generated from one mol of 14CH3-COOH? (The conversion of acetate to acetyl-CoA requires the consumption of 2 ATP.)Acid phosphatases are an important group of enzymes that can be detected in human bloodserum. Under slightly acidic conditions (pH 5.0), this group of enzymes can hydrolyzebiological phosphate esters as follows:R-O-P-O3-2 + H2O -----> R-OH + HO-P-O3-2Acid phosphatases are produced and can be detected in erythrocytes, kidney, spleen, the liver,and prostrate gland. The enzyme from the prostrate gland is clinically important because anincreased activity in the blood is frequently an indication of cancer of the prostrate gland.Tartrate ion can strongly inhibit the phosphatase from the prostrate gland, but not acidphosphatases from other tissues. How can you use the information above to develop a specific procedure for measuring the activity of the acid phosphatase of the prostrate gland in humanblood serum?Fructose is a labeled on its anomeric carbon with 14C. This labeled fructose is added to muscle cells under anaerobic glycolytic conditions, and the secreted lactate is collected. Which carbon in the secreted lactate (shown below) contains the 14C label? دیده OH Carbon 2 Carbon 1 Carbon 3 No carbon contains the label.
- Consider the mechanism of enolase, as indicated below. Which of the following correctly describes the roles of the Mg2+ as illustrated in the figure? (This is a multi- select question). Mg2+ Mg2 Enolase PO3- OH -C-C-H H OH HO H-N-H Lys 345 Glu211 2-Phosphoglycerate bound to enzyme Mg2+ Mg2 PO3- OH C-C-H OH HO H H-N*-H Lys 345 O Glu211 Enolic intermediate HOH PO3- H Phosphoenolpyruvate The metal ion (Mg2+) is helping to stabilize the extra negative charge that developed on the carboxyl group in the enolic intermediate. The metal ion (Mg2+) is serving as a general base, removing a proton in order to improve the quality of the nucleophile. The metal ion (Mg2+) is assisting in the oxidation of the carboxyl carbon through metal ion catalysis. The metal ion (Mg2+) is helping to orient the substrate properly in the active site. The metal ion (Mg2+) is accepting a proton in order to improve the quality of the leaving group.We want to measure the activity of alanine aminotransferase (ALAT) present in a serum. The reaction catalyzed by the enzyme is: Reaction 1: +H3N- glutamate H C CH₂ CH₂ COO -COO + pyruvate CH3 C=0 0.1 M phosphate buffer pH 7.4 : 550 µL 1.2 M alanine : 100 μL CH3 time (min) A340 COO COO™ pyruvate lactate dehydrogenase* (LDH, 300 µg.mL-¹): 50 μL 1.5 mM NADH: 200 μL 0.04 M a-ketoglutarate: 500 μL serum containing ALAT: 600 μL The enzyme reaction is realized in the following conditions: In a 1 cm-cuvette are added: 0 0.915 ALAT NADH + H+ LDH a-cétoglutarate COO * Lactate dehydrogenase (LDH) reduces pyruvate into lactate, with the concomitant oxydation of NADH. This allows to indirectly measure the amount of product formed. Reaction 2: NAD+ 1 0.741 C=O H CH₂ CH₂ COO™ CH3 C-OH COO lactate The reaction is performed at 25 °C and the absorbance at 340 nm is monitored every minute, for 5 min. The absorbance values are given in the table below: Data: alanine ENADH at 340 nm = 6220 M¹.cm1. One…With one mole each of sucrose, and arginine: 1) rank these molecules in order of increasing energy production, 2) describe the metabolic pathways involved in producing ATP for each molecule, 3) approximate (and explain) and the number of Acetyl-Co A molecules that would be generated from each molecule.