Search results for "Rat liver"
showing 10 items of 35 documents
[The activation of methionine for transmethylation in regenerating rat liver and hepatoma].
1958
The activity of methionine-activating enzyme has been measured in normal and regenerating rat liver and in hepatoma cells.
PARTICIPATION OF RAT LIVER NUCLEI IN MOVEMENTS OF SODIUM.
1964
In vitro investigations of movements of sodium with muscular tissue seem to have shown that the non-extracellular sodium belongs to more than one phase1. The existence of either a membranous and a cellular phase2 or of two cellular phases with different degrees of order3 has been discussed. We wish to present some experimental findings which may well contribute to the interpretation of sodium transfer processes in animal tissue.
Zur Vitalitätsprüfung isolierter Rattenleberzellen
1974
Rattenleberzellen wurden mittels extrakorporaler Leberperfusion unter Verwendung eines Hyaluronidase-Kollagenase-haltigen bzw. enzymfreien Perfusionsmediums isoliert. Die isolierten Leberzellen wurden auf ihr Verhalten gegenuber Trypanblau, FDA, in der Phasenkontrastbetrachtung und im Luciferin-Luciferase-Test untersucht. Daruber hinaus wurde der ATP-Gehalt der Zellen sowie die spontane Abgabe von51Cr aus markierten Zellen bestimmt.
Sorting signals in the cytosolic tail of plant p24 proteins involved in the interaction with the COPII coat.
2004
The ability of the cytosolic tail of a plant p24 protein to bind COPI and COPII subunits from plant and animal sources in vitro has been examined. We have found that a dihydrophobic motif in the -7,-8 position (relative to the cytosolic carboxy-terminus), which strongly cooperates with a dilysine motif in the -3,-4 position for COPI binding, is required for COPII binding. In addition, we show that COPI and COPII coat proteins from plant cytosol compete for binding to the sorting motifs in these tails. Only in the absence of the dilysine motif in the -3,-4 position or after COPI depletion could we observe COPII binding to the p24 tail. This competition is not observed when using rat liver cy…
Peroxisomes: biochemistry, molecular biology and genetic diseases— a video programme for teaching students
2000
Abstract Peroxisome proliferation in rodent liver is a good biochemical marker of toxicology for several classes of xenobiotics, including fibrates; phthalates and adipates; or chlorophenoxy-acetate, a herbicide. Research in peroxisomes provides a good example of the integration of fields related to basic sciences and biomedical and industrial health. A 25 min video programme illustrates techniques involved in the characterization of purified peroxisomes ( Fig. 1 Download high-res image (70KB) Download full-size image Fig. 1 . Electron microscope view of isolated peroxisomes (from rat liver ×50 000). ) and membranes, immunoblotting, measurement of proliferation markers, mRNA analysis at the…
Separation and Biochemical Characterization of Rat Liver Parenchymal Cell Subpopulations
1988
Parenchymal cells within the hepatic lobules of the rat are morphologically and biochemically heterogeneous (Shank et al., 1959; Novikoff, 1959; Loud, 1968; Jungermann and Katz, 1982). It has been previously shown that the concentration of cytochrome P-450 and the activities of most cytochrome P-450-dependent monooxygenases are relatively higher in the centrilobular regions than in the periportal regions of the rat liver (Baron et al., 1978; Gooding et al., 1978; Baron and Kawabata, 1983); further, these studies revealed that pretreatment of the animals with phenobarbital intensified this gradation across the liver lobule, whereas after administration of 3-methylcholanthrene the concentrati…
Analysis of the Effects of Modifying Agents on Six Different Phenotypes in Preneoplastic Foci in the Liver in Medium-Term Bioassay Model in Rats
1988
Recently a great deal of interest has been expressed in characterizing the altered enzyme phenotype of putative preneoplastic rat liver lesions. In particular, attention has been given to the changes in drug metabolizing potential, conferring physiological advantage to initiated cells, and their usefulness as marker lesions for the analysis of the development of neoplasia1–2.
Immunological and electrophoretic analysis of rat liver mitochondria and other cellular fractions*1
1963
Abstract The combination of electrophoretic and immunological analysis has demonstrated a powerful method for the study of subcellular components. Rat liver mitochondria seem to be composed of at least 12 components, either anodic or cathodic. Detergents have been used to dissolve mitochondria. The electrophoretic behaviour of complexes among such agents and mitochondria proteins is described. The treatment of mitochondria with deoxycholate between 0.1-0.5 per cent final concentration showed that some antigens are progressively brought into solution by such treatment, while others are firmly bound to the mitochondrial membranes. Among the other subcellular fractions, the microsomes exhibit …
‘Threshold effect’ of increasing tocopherol ingestion upon the microsomal epoxide hydrolase activity of rat liver
1990
Effect of sodium loading (3% NaCl) on arachidonic acid biosynthesis in rat liver microsomes
1992
Sodium loading increases arachidonic acid (AA) metabolism by way of the prostaglandins(PGs) from series 2. Its effect on AA biosynthesis remains unknown. The purpose of the present study was to investigate the influence of sodium loading on the fatty acid composition of liver and liver microsomes, and the liver microsomal delta-6 and delta-5 desaturations of linoleic acid (LA) into AA. We found a decrease of LA and dihomo-gamma-linolenic acid (DGLA) levels in liver total lipids of Wistar rats receiving hypernatriuretic drinking water (NaCl 3%) for 60 days. At the same time AA increased. DGLA decreased and AA increased in liver microsomal total lipids. 1(14) C-LA delta-6 desaturase and 2(14)…