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Liver enzyme

Thyroid function tests BUN/creatinine EKG Liver enzymes Liver enzymes Reticulocyte count... [Pg.79]

Type Ilia (Cori s or Forbes s) Debranching enzyme Liver, skeletal and cardiac muscle Enlarged liver in infants myopathy... [Pg.567]

Type IV (Andersen s) Branching enzyme Liver, skeletal muscle Enlarged liver and spleen, myoglobin in urine... [Pg.567]

Ovalbumin Conalbumin Ovomucoid Lysozyme Vitellogenin apo-VLDL Glucose-6-P-dehydrogenase Oviduct Oviduct (liver) Oviduct Oviduct Liver Liver Uterus Thyroid Hormones Carbamyl phosphate synthase Growth hormone Prolactin ( ) a-Glycerophosphate dehydrogenase Malic enzyme Liver Pituitary Pituitary Liver (mitochondria) Liver... [Pg.587]

Figure 3-24. A zinc(ii) complex which acts as a functional model for the hydride transfer reaction which occurs at the active site of the enzyme liver alcohol dehydrogenase. Figure 3-24. A zinc(ii) complex which acts as a functional model for the hydride transfer reaction which occurs at the active site of the enzyme liver alcohol dehydrogenase.
Troglitazone, the first clinically available thiazolidinedione, was approved for use in patients who have failed diet therapy and, in combination with insulin and/or sulfonylureas, in patients inadequately controlled with these agents alone (117). Although studies have documented the hypoglycemic efficacy of troglitazone in patients with type 2 diabetes, its use was associated with elevated liver enzymes, liver damage, and death... [Pg.197]

Murphy SD, Porter S. 1966. Effects of toxic chemicals on some adaptive liver enzymes, liver glycogen, and blood glucose in fasted rats. Biochem Pharmacol 15 1665-1676. [Pg.132]

The reduction of NAD+ (and NADP) is reversible, and NADH is itself a reducing agent. We will first look at one of its reactions a typical reduction of a ketone. The ketone is pyruvic acid and the reduction product lactic acid, two important metabolites. The reaction is catalysed by the enzyme liver alcohol dehydrogenase. [Pg.1382]

Livers from mice were manually sectioned into 1 to 1.5 mm cubes. In contrast to liver homogenates or purified enzyme, liver slices did not require exogenous methemoglobin or ascorbic acid for activation of tryptophan dioxygenase. [Pg.267]

IV Andersen Branching enzyme Liver and Normal amount Progressive cirrhosis of the... [Pg.888]

Hard electrophiles like Mg(C104)2 are used to activate abiotic systems. In the enzyme liver alcohol dehydrogenase (LAD) a considerably different catalytic apparatus is present a zinc ion coordinated to two cysteines and a histidine serves as a coordinating site for the carbonyl compound/alcoholate, as illustrated in equation (10). This zinc ion has amphoteric properties consistent with the capacity to activate the reaction in both directions without being consumed, in other words to act as a catalyst. Synthetic models of this catalytically active zinc have been shown to possess some catalytic activity in analogy to the enzyme (see Section L3.3.5.1iii). [Pg.82]

III Cori Amylo-1,6 glucosidase debranching enzyme Liver, muscle, WBCs... [Pg.1820]

IV Branching enzyme Liver and spleen Normal amount very long Progressive cirrhosis of the liver,... [Pg.612]

PAF acetylhydrolases (PAF-AHs) (Fig. 13) are a group of Ca -independent PLAjS that remove the acetyl moiety from the sn-2 position of PAF [13]. These enzymes, in contrast to other PLA2S, are highly selective and do not attack phospholipids with unmodified long-chain sn-2 residues. Mammalian PAF-AHs have been classified into type VIII (PAF-AH-Ib) that consists of two family members that homo- or heterodimerize, and two type VII enzymes (liver and plasma isoforms). [Pg.270]

Al Martini was not able to clear his blood ethanol rapidly enough to stay within the legal limit for driving. Ethanol is cleared from the blood at about Vz ounce/hr (15 mg/dL per hour). Liver metabolism accounts for more than 90% of ethanol clearance from the blood. The major route of ethanol metabolism in the liver is the enzyme liver alcohol dehydrogenase (ADH), which oxidizes ethanol to acetaldehyde with generation of NADH. [Pg.139]

IV Amylo-4,6-glucosidase (branching enzyme) Liver Hepatosplenomegaly symptoms may arise from a hepatic reaction to the presence of a foreign body (glycogen with long outer branches). Usually fatal. [Pg.516]

It has been demonstrated that clinical-size dextrans are completely metabolized in vivo by liver enzymes. Liver extracts would, therefore, appear to be potential sources of dextran-debranching enzymes. Rozenfel d and her associates examined preparations from homogenized liver, kidney, and spleen, but failed to isolate an enzyme... [Pg.396]

Ascorbic acid oxidase Old yellow enzyme Liver catalase Cytochrome C... [Pg.545]

Replacing the missing enzyme has many drawbacks the enzyme is hard to prepare and purify the enzyme s half-life inside the body is sometimes short, and there is no way to assure that the enzyme reaches the site where it is needed. In Fabry s disease, renal transplantation has been performed for the dual purpose of (1) correcting the renal failure that may result from the disease and (2) providing a source of new enzymes. Liver transplantation has been proposed in cases of Wilson s disease. [Pg.233]

The mechanism of this oxidation for the enzyme liver alcohol dehydrogenase is shown for the reaction of 83, where ethanol is bound to the active site of the enzyme to give 84 via proton abstraction and then hydride transfer to generate acetaldehyde (see 85). NAD+ binds to the active site of the enzyme to induce a conformational change (see Chapter 8 for conformation) to close the active site. The oxidation of ethanol to acetaldehyde (ethanal) is accompanied by reduction of NAD+ to NADH, as shown in the illustration. [Pg.831]

Carbohydrate Liver size by examination, serum liver enzyme levels Serum glucose levels, serum liver enzymes, liver size by examination and ultrasound... [Pg.115]

There are instances where reactions are zero-order. An example includes the decomposition of ethyl alcohol in the liver in the presence of the enzyme liver alcohol dehydrogenase. Once again, consider the reaction with the general form... [Pg.573]

Fig. 15.3. Pathways of glycogen metabolism. 15.16, Glycogen synthetase (liver) 15.11, brancher enzyme 15.13, phosphorylase (liver) 15.15, phosphorylase kinase (liver) 15.12, phosphorylase (muscle) 15.10, debrancher enzyme (liver + muscle) 15.8, glu-cose-6-phosphatase (liver) 15.8a, glucose-6-phosphate translocase 15.5, fructose-1,6-di-phosphatase 15.9, a-glucosidase UDPGlc, uridine diphosphate glucose Glc-l-P, glucose-1-phosphate Glc-6-P, glucose-6-phosphate F-6-P, fructose-6-phosphate F-l,6-DiP, fructose- 1,6-diphosphate... Fig. 15.3. Pathways of glycogen metabolism. 15.16, Glycogen synthetase (liver) 15.11, brancher enzyme 15.13, phosphorylase (liver) 15.15, phosphorylase kinase (liver) 15.12, phosphorylase (muscle) 15.10, debrancher enzyme (liver + muscle) 15.8, glu-cose-6-phosphatase (liver) 15.8a, glucose-6-phosphate translocase 15.5, fructose-1,6-di-phosphatase 15.9, a-glucosidase UDPGlc, uridine diphosphate glucose Glc-l-P, glucose-1-phosphate Glc-6-P, glucose-6-phosphate F-6-P, fructose-6-phosphate F-l,6-DiP, fructose- 1,6-diphosphate...
In a similar manner, a reaction may appear to be zeroth order. For instance, the oxidation of ethanol to acetaldehyde (ethanal) by NAD+ in the liver in the presence of the enzyme liver cdcohol dehydrogenase,... [Pg.226]

Type VI (liver phosphorylase deficiency Hers diseasel Insufficient levels of ihe enzyme liver phosphorylese. Liver glycogen accumulation enlarged liver cirrhosis. Avoidance of prolonged fasting high protein diet frequent feedings. [Pg.572]

Type IX Insufficent levels rzf the enzyme liver phosphorylase kinase. Enlarged Uver. ... [Pg.572]


See other pages where Liver enzyme is mentioned: [Pg.106]    [Pg.269]    [Pg.138]    [Pg.141]    [Pg.687]    [Pg.873]    [Pg.600]    [Pg.138]    [Pg.155]    [Pg.182]    [Pg.222]    [Pg.99]    [Pg.167]    [Pg.106]    [Pg.453]    [Pg.456]    [Pg.327]    [Pg.80]   
See also in sourсe #XX -- [ Pg.104 ]

See also in sourсe #XX -- [ Pg.604 , Pg.605 , Pg.606 , Pg.607 , Pg.608 , Pg.609 , Pg.610 , Pg.611 , Pg.612 , Pg.613 , Pg.614 , Pg.615 ]




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Adenosine diphosphate liver enzyme

Adenosine monophosphate liver enzyme

Amino acid-activating enzymes liver

Cytochrome P450 liver enzymes induction

Cytochrome P450 liver enzymes metabolism

Cytochrome P450 liver enzymes transporter

Elevated liver enzymes

Enzyme activity in liver

Enzyme horse liver

Enzyme liver alcohol dehydrogenase

Enzymes Released from Diseased Liver Tissue

Enzymes horse liver alcohol dehydrogenase

Glycolytic enzymes liver

Hemolysis elevated liver enzymes low platelets

Hormonal Regulation of Liver Cytochrome P450 Enzymes

Human liver microsomes enzyme kinetics

Liver Metabolism Enzymes

Liver P450 enzymes

Liver cell, heme biosynthetic enzymes

Liver cytochrome P450 enzymes

Liver diseases, enzyme activity

Liver drug-metabolizing enzyme activities

Liver enzyme abnormalities

Liver enzyme clusters

Liver enzyme induction and

Liver enzyme, activation process

Liver enzymes 5 -nucleotidase

Liver enzymes alkaline phosphatase

Liver enzymes aminotransferases

Liver enzymes cholinesterase

Liver enzymes gamma-glutamyl transferase

Liver enzymes glutamate dehydrogenase

Liver enzymes plasma

Liver enzymes, chromatography

Liver human, enzyme concentration

Liver metabolic enzyme systems

Liver microsomal enzyme inducers

Liver modified enzymes

Liver plasma enzyme activity

Liver plasma enzyme activity carboxylesterases

Liver-cell microsomal enzymes

Pyruvate kinase, enzymic activity liver metabolism

Raised liver enzymes

Rat liver enzyme-altered foci

Serum liver enzymes

Some Inducible Enzymes of the Liver

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