Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.3.3.1 (
citrate synthase
)
4,488
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The isolation of cell organelles from Dictyostelium discoideum was attempted using a variety of techniques. Cell homogenization (e.g. Potter-Elvehjem, glass beads) gave poor yields of organelles which were, in addition, exceptionally fragile and unstable in density gradients. An isolation method was developed using Triton X-100 in buffered sorbitol/Ficoll solutions at concentrations optimal for plasma membrane rupture. Immediately following cell lysis the solutions were diluted to sub-optimal Triton X-100 concentrations. Sedimentabilities of malate dehydrogenase,
citrate synthetase
,
urate oxidase
and catalase of around 55%, 40%, 35% and 55% respectively could be demonstrated using this method. The organelles were more resistant to breakage during resuspension following differential centrifugation and remained largely intact during density gradient centrifugation. The distribution of adenylate kinase activity in gradients showed that at least half the mitochondria retained an intact outer membrane. The mitochondria and peroxisomes could not be clearly separated using conventional sucrose-Ficoll density gradients. Separation was achieved by incubating the cell homogenate with succinate and a tetrazolium dye (2-p-iodophenyl-3-p-nitrophenyl-5-phenyl monotetrazolium chloride). Succinate dehydrogenase activity of mitochondria reduced the tetrazolium dye and the product (formazan) was deposited on the mitochondrial membranes ("heavy-labelling"). The mitochondria then sedimented to denser regions of the gradient while catalase distribution remained unchanged. The treatment left both organelles intact. The mitochondria (1.21 g/ml) were slightly denser than the peroxisomes (1.19 g/ml). The peroxisomes contained catalase and
urate oxidase
; no other hydrogen-peroxide-producing oxidases were detected. The slime mould
urate oxidase
resembled the mammalian enzyme. It had an apparent Km value of 12.5 muM, an optimum of activity at pH 8.5 in borate buffer and was competitively inhibited by trichloropurine.
...
PMID:Mitochondria and peroxisomes from the cellular slime mould Dictyostelium discoideum. Isolation techniques and urate oxidase association with peroxisomes. 24 46
Peroxisomes were isolated form derepressed (lactose grown) Saccharomyces cerevisiae cells following homogenization with a "Merkenschlager" cell mill (at 0 degrees C using glass beads). Catalase and
urate oxidase
, along with low activities of D-amino acid oxidase and L-alpha-hydroxyacid oxidase (glycollate oxidase), were associated with the peroxisomes. No catalase activity was present in glucose repressed cells. When protoplasts prepared from derepressed cells were used for peroxisome isolation, catalase activity was not sedimentable through gradients. Apparently peroxisomes were destroyed as the cells became fermentative during protoplast preparation. The distribution of glyoxylate cycle enzymes was examined. Isocitrate lyase was not sedimentable, suggesting that, if the enzyme is peroxisome-associated, it is either readily released of present in a labile second class of peroxisomes. Low activities of malate dehydrogenase and
citrate synthetase
were found in peroxisome fractions from gradients, but may represent mitochondrial contamination. Citrate synthetase was not found associated with a low-density particle as had been previously reported.
...
PMID:The isolation and characterization of peroxisomes (microbodies) from baker's yeast, Saccharomyces cerevisiae. 24 96
Microbodies from rat liver and a variety of plant tissues were osmotically shocked and subsequently centrifuged at 40,000 g for 30 min to yield supernatant and pellet fractions. From rat liver microbodies, all of the
uricase
activity but little glycolate oxidase or catalase activity were recovered in the pellet, which probably contained the crystalline cores as many other reports had shown. All the measured enzymes in spinach leaf microbodies were solubilized. With microbodies from potato tuber, further sucrose gradient centrifugation of the pellet yielded a fraction at density 1.28 g/cm(3) which, presumably representing the crystalline cores, contained 7% of the total catalase activity but no
uricase
or glycolate oxidase activity. Using microbodies from castor bean endosperm (glyoxysomes), 50-60% of the malate dehydrogenase, fatty acyl CoA dehydrogenase, and crotonase and 90% of the malate synthetase and
citrate synthetase
were recovered in the pellet, which also contained 96% of the radioactivity when lecithin in the glyoxysomal membrane had been labeled by previous treatment of the tissue with [(14)C]choline. When the labeled pellet was centrifuged to equilibrium on a sucrose gradient, all the radioactivity, protein, and enzyme activities were recovered together at peak density 1.21-1.22 g/cm(3), whereas the original glyoxysomes appeared at density 1.24 g/cm(3). Electron microscopy showed that the fraction at 1.21-1.22 g/cm(3) was comprised of intact glyoxysomal membranes. All of the membrane-bound enzymes were stripped off with 0.15 M KCl, leaving the "ghosts" still intact as revealed by electron microscopy and sucrose gradient centrifugation. It is concluded that the crystalline cores of plant microbodies contain no
uricase
and are not particularly enriched with catalase. Some of the enzymes in glyoxysomes are associated with the membranes and this probably has functional significance.
...
PMID:Localization of enzymes within microbodies. 472 5
During exercise, the plasma urate levels and urinary excretion increase due to the enhanced purine degradation in skeletal muscle. Although urate transporter-1 (URAT1) is the main transporter responsible for the reabsorption of filtered urate, potential changes in its activity and expression during exercise have not been studied yet. Therefore, the effect of heavy muscle activity on renal URAT1 activity and expression was investigated in this study. Wistar rats were used in the study and the experimental design consisted of three groups: a control group, an exercise group where animals were exhausted once a day for 5 days, and a hyperuricemia group, which was induced by an
uricase
inhibitor, oxonic acid. URAT1 activity measurements were performed in isolated proximal tubule segments and expression of URAT1 mRNA and protein levels were determined by the reverse transcription polymerase chain reaction and western blot analyses, respectively. Increased
citrate synthase
activity in soleus muscle of exercised animals proved the efficiency of our exercise protocol. Proteinuria, glucosuria, and hypoglycemia were observed only in exercised animals; however, plasma and urinary urate levels were found to be elevated in both exercising and hyperuricemia groups. Moreover, in both of the groups URAT1 transporter activity was found to be increased despite the significant decrease in URAT1 protein levels. Considering the similar changes of urate metabolism observed in both exercising and hyperuricemic rats, our results suggest that exercise-induced changes in URAT1 expression and activity depend on the increased urate concentration in plasma.
...
PMID:Exercise-induced changes in renal URAT1 activity and expression in rats. 2066
