Liver, rat

D-Mevalonic acid is the fundamental intermediate in the biosynthesis of the terpenoids and steroids, together classed as poly-isoprenoids. The biogenetic isoprene unit is isopentenyl pyrophosphate which arises by enzymic decarboxylation-dehydration of mevalonic acid pyrophosphate. D-Mevalonic acid is almost quantitatively incorporated into cholesterol synthesized by rat liver homogenates. 

Perfused rat liver rapidly converts 4-m thyI-5-/3-chloroethy]thiazole to 2-hydroxy -4-methylthiazol-5-y) acetic acid (40. 41). Finally, tw o new human metabolites of chlormethiazole have been isolated and identified by mass spectra as 2-hydroxy-4-methyl-5-/S-chloroethylthiazole and 2-hydroxy-4-methyl-5-ethylthiazole (42). 

Yamasaki, H., Knitovskikh, V, Mesnil, M., Cohirabano, A., Tsuda, H., and Ito, N. (1993). Gap jurictional intercellular communication and cell proliferation during rat liver carcinogenesis. Academic diss.. University of Helsinki. 

Pseudomonas Rat liver mitochondria, pig heart Pseudomonas Pig heart Heart muscle... 

COMPARTMENTALIZED PYRUVATE CARBOXYLASE DEPENDS ON METABOLITE CONVERSION AND TRANSPORT The second interesting feature of pyruvate carboxylase is that it is found only in the matrix of the mitochondria. By contrast, the next enzyme in the gluconeogenic pathway, PEP carboxykinase, may be localized in the cytosol or in the mitochondria or both. For example, rabbit liver PEP carboxykinase is predominantly mitochondrial, whereas the rat liver enzyme is strictly cytosolic. In human liver, PEP carboxykinase is found both in the cytosol and in the mitochondria. Pyruvate is transported into the mitochondrial matrix, where it can be converted to acetyl-CoA (for use in the TCA cycle) and then to citrate (for fatty acid synthesis see Figure 25.1). /Uternatively, it may be converted directly to 0/ A by pyruvate carboxylase and used in glu-... 

Williamson, D. H., Lund, P, and Krebs, H. A., 1967. The redox state of free nicodnamide-adenine dinucleotide in the cytoplasm and mitochondria of rat liver. Biochemical Journal 103 514-527. 

Hiltnnen, J. K., Palosaari, R, and Knnan, W.-H., 1989. Epimerization of 3-hydroxyacyl-CoA esters in rat liver. Journal of Biological Chemistry 264 13535-13540. 

Squalene epoxidase, like most enzymes responsible for the later steps of sterol biosynthesis [43, 51], is membrane-bound which makes its purification in native form challenging. The purification is additionally complicated by the presence of a large number of cytochrome P450 and other enzymes that have similar hydro-phobicity and size as squalene epoxidase and are hence difficult to remove [52]. Most studies have been carried out with rat liver microsome squalene epoxidase either partially purified or as a homogenate of the cell membrane fraction. In vitro reconstitution of squalene epoxidase activity is absolutely dependent on molecular oxygen, NADPH, FAD, and NADPH-cytochrome c reductase [52, 53]. In this respect, squalene epoxidase resembles the cytochrome P450 enzymes described... 

Bicker and Fischer incubated ephedrine isomer 127 with a rat liver homogenate to which ATP and sulfate were added [191]. Formation of aziridine 128, requiring... 

Figure 11.22 Biochemical formation of aziridines in rat liver homogenate.

Monoamine Oxidases and their Inhibitors. Table 1 Substrate specificity of the two forms of rat liver and brain monoamine oxidase... 

Dexamethasone, the macrolide antibiotic triacetylo-leandromycin, and phenobarbital are all well established inducers of the CYP3A subfamily, and can increase microsomal 4-hydroxylation of RA in rat liver. To what extent this is also the case for humans is not completely clear. 

Asymmetric oxidation of this sulphide was also catalyzed by two isocytochromes P 450 purified from phenobarbital induced rat liver309. Both P 450 isocytochromes, termed PB-1 and PB-4, when reconstituted with purified rat liver NADPH-cytochrome P 450 reductase and cytochrome b5 afforded ethyl p-tolyl sulphoxide with S-configuration at the sulphur atom. In the case of PB-1 optical purity of this sulphoxide was 58% whereas with PB-4 it was 78%. 

Figure 7. Video-enhanced DIC microscopy of rat liver Golgi apparatus membrane networks moving along microtubules using Xenopus egg microtubule motors (Allan and Vale, 1994). Top panel membrane extension with a bulbous terminus (arrow) attached to a microtubule (arrow heads). Middle panel same field two seconds later. The membrane has advanced about 3 pm along the microtubule (arrow). Bottom panel membrane has now advanced further along the microtubule (arrow). Bar = 2 pm.

In rat liver mitochondria, in state 4, the AP was estimated to be about 220 mV, with the membrane potential representing about 90% of this (Nicholls, 1974 Appendix 3). Similar values have been reported for human and rat skeletal muscle mitochondria in state 4 (Stumpf et al., 1982). The control of the rate of electron transport is not only determined by the availability of ADP, but also of Pj oxidizable substrates, and oxygen. There is evidence for futile cycling of protons in intact normal rat hepatocytes (Brand et al., 1993). Recently, Porter and Brand (1993) found a correlation between the proton permeability of the inner membrane of liver mitochondria and body size in animals from the mouse (20 g) to horses (150 kg) with a decrease in permeability with increasing weight of several-fold at a constant... 

Esser, V., Britton, C.H., Weiss, B.C., Foster, D.W. McGarry, J.D. (1993). Cloning, sequencing and expression of a cDNA encoding rat liver carnitine palmitoyltransferase 1. Direct evidence that a single polypeptide is involved in inhibitor interaction and catalytic function. J. Biol. Chem. 268, 5817-5822. 

Mitchell, P. Moyle. J. (1967). Respiration-driven proton translocation in rat liver mitochondria. Biochem. J. 105, 1147-1162. 

Nicholls, D.G. (1974). The influence of respiration and ATP hydrolysis on the proton electrochemical gradient across the inner membrane of rat liver mitochondria as determined by ion distribution. Eur. J. Biochem. 50,305-315. 

Uchicda, Y., Izai, K., Orii, T., Hashimoto, T. (1992). Novel fatty acid p-oxidation enzymes in rat liver mitochondria. II. Purification and properties of enoyl-coenzyme A (CoA) hydratase/3-hy-droxyacyl-CoA dehydrogenase/3-ketoacyl-CoA thiolase trifunctional protein. J. Biol. Chem. 267, 1034-1041. 

Watmough, N.J.. Turnbull, D.M., Sherratt. H.S.A. Bartlett. K. (1989). Measurement of the acyl-CoA intermediates of p-oxidation by hplc with on-line radiochemical and photodiode-array detection. Application to the study of [U- C]hexadecanoate by intact rat liver mitochondria. Biochem. J. 262,261-269. 

Aminolaevulinate dehydratase (ALA-D) (EC 4.2.1.24) in mice and rats livers was determined after 7-fold administration of the studied compounds according to Berlin (ref. 17), as modified by Schlick et al. (ref. 18). 5-Aminolaevulinate synthase (ALA-S) (EC 2.3.1.37) was also assayed in the liver according to Sassa and Granick (ref. 19). 

Histopathological examination of rats liver carried out after 7-fold administration of the studied compounds points out that the most visible pathological lesion is steatosis of all zones. 

Figure 5.41 The total-ion-current (TIC) trace and reconstructed ion chromatograms from the predicted pseudomolecular ions of Indinavir m/z 614) and its mono- (m/z 630) and dihydroxy metabolites (m/z 646), generated from full-scan LC-MS analysis of an incubation of Indinavir with rat liver S9. Reprinted by permission of Elsevier Science from Identification of in vitro metabolites of Indinavir by Intelligent Automated LC-MS/MS (INTAMS) utilizing triple-quadrupole tandem mass spectrometry , by Yu, X., Cui, D. and Davis, M. R., Journal of the American Society for Mass Spectrometry, Vol. 10, pp. 175-183, Copyright 1999 by the American Society for Mass Spectrometry.

Figure 5.54 Structures of Praziquantel and its metabolites, cis- and fraw5-4-hydroxy-praziquantel. Reprinted from 7. Chromatogr., B, 708, Lerch, C. and Blaschke, G., Investigation of the stereoselective metabolism of Praziquantel after incubation with rat liver microsomes by capillary electrophoresis and liquid chromatography-mass spectrometry , 267-275, Copyright (1998), with permission from Elsevier Science.

Double-stranded DNA (calf thymus) Single-stranded DNA Heat-denatured DNA Closed circular DNA Ribosomal RNA (rat liver)... 

Penninks Seinen (1980) looked at subcellular distribution of dibutyltin in rat liver and thymus cells in vitro. Radioactivity was concentrated in mitochondria and low in cytoplasm in thymus cells, in marked contrast to liver cells, where mitochondrial radioactivity was very low. Differences in cellular distribution have been suggested as a reason for the selective effect on the thymus. 

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