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141.
The alternate pathway of signal transduction via hydrolysis of phosphatidylcholine, the major cellular phospholipid, has been investigated in murine peritoneal macrophages. A sustained formation of diacylglycerol, is preceded by an enhanced production of phosphatidic acid, when the macrophages were given a stimulus with 12-O-tetradecanoyl phorbol-13-acetate for sixty minutes. Production of choline and choline metabolites are significantly increased too. Propranolol, which inhibits phosphatidate phosphohydrolase, the enzyme responsible for conversion of phosphatidic acid to diacylglycerol, can effectively block the formation of diacylglycerol. Inhibition of protein kinase C either by its inhibitors, staurosporine and H-7 or by depletion, apparently affect the generation of the lipid products. Moreover, based on the results of transphosphatidylation reaction, involvement of a phospholipase D in the phosphatidylcholine-hydrolytic pathway in macrophages is predicted. These observations support the view that probably the phorbol ester acting directly on protein kinase C of the macrophages activate their phosphatidylcholine-specific phospholipase D to allow a steady generation of second messengers, to enable them to participate in the cell signalling process in a more efficient manner than those generated in the phosphoinositide pathway of signal transduction. (Mol Cell Biochem 000: 000-000,1999) 相似文献
142.
Human RhoA/RhoGDI complex expressed in yeast: GTP exchange is sufficient for translocation of RhoA to liposomes
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Read PW Liu X Longenecker K Dipierro CG Walker LA Somlyo AV Somlyo AP Nakamoto RK 《Protein science : a publication of the Protein Society》2000,9(2):376-386
The human small GTPase, RhoA, expressed in Saccharomyces cerevisiae is post-translationally processed and, when co-expressed with its cytosolic inhibitory protein, RhoGDI, spontaneously forms a heterodimer in vivo. The RhoA/RhoGDI complex, purified to greater than 98% at high yield from the yeast cytosolic fraction, could be stoichiometrically ADP-ribosylated by Clostridium botulinum C3 exoenzyme, contained stoichiometric GDP, and could be nucleotide exchanged fully with [3H]GDP or partially with GTP in the presence of submicromolar Mg2+. The GTP-RhoA/RhoGDI complex hydrolyzed GTP with a rate constant of 4.5 X 10(-5) s(-1), considerably slower than free RhoA. Hydrolysis followed pseudo-first-order kinetics indicating that the RhoA hydrolyzing GTP was RhoGDI associated. The constitutively active G14V-RhoA mutant expressed as a complex with RhoGDI and purified without added nucleotide also bound stoichiometric guanine nucleotide: 95% contained GDP and 5% GTP. Microinjection of the GTP-bound G14V-RhoA/RhoGDI complex (but not the GDP form) into serum-starved Swiss 3T3 cells elicited formation of stress fibers and focal adhesions. In vitro, GTP-bound-RhoA spontaneously translocated from its complex with RhoGDI to liposomes, whereas GDP-RhoA did not. These results show that GTP-triggered translocation of RhoA from RhoGDI to a membrane, where it carries out its signaling function, is an intrinsic property of the RhoA/RhoGDI complex that does not require other protein factors or membrane receptors. 相似文献
143.
Tetanus Toxin Enhances Protein Kinase C Activity Translocation and Increases Polyphosphoinositide Hydrolysis in Rat Cerebral Cortex Preparations 总被引:2,自引:2,他引:0
Carles Gil Marisol Ruiz-Meana María Álava †Ephraim Yavin José Aguilera 《Journal of neurochemistry》1998,70(4):1636-1643
Abstract: Tetanus toxin (TeTx) has been recently demonstrated to be a Zn2+-dependent endopeptidase that cleaves synaptobrevin, a protein in part responsible for neurotransmitter release. Nevertheless, certain aspects of TeTx action, for example, the causal relationship between TeTx and protein kinase C (PKC; EC 2.7.1.37) activity cannot be explained by this cleavage alone. In the present study, primary neurons from fetal rat brain, synaptosomes, and whole slices have been used to examine this issue. Low doses of TeTx (≤ 10?8M) caused PKC activity translocation in a manner similar to that produced by 12-O-tetradecanoylphorbol 13-acetate (TPA). TPA (≤ 10?7M) caused sustained PKC activity translocation, whereas TeTx produced translocation followed by relocation, depending on the dose and time of exposure. Immunoidentification with a monoclonal antibody recognizing both α and β isoforms revealed that TeTx induced moderate losses of PKC in the cytosolic fraction, without a comparable increase in the particulate fraction. Although moderate losses of activity were also noticed in the cytosolic fraction, the inconsistency with respect to activity translocation may be explained by translocation of additional PKC isoforms that are not identified by the antibody. Comparable levels of water-soluble inositol phosphate-labeled intermediates were obtained after treatment of cerebral cells and/or cortical brain slices with TeTx. Significant increases of 19 and 114% in the water-soluble myo-[2-3H]inositol-labeled inositol phosphate metabolites were found in cerebral cell culture and brain slices, respectively, after treatment with 10?8M TeTx. TeTx (10?8M) increased to the same degree the water-soluble inositol phosphate levels as did serotonin (10?5M) or carbachol (10?6M). It is suggested that part of the signaling cascade of TeTx consists of a component involving inositol phospholipid hydrolysis, which is associated with PKC activity translocation. 相似文献
144.
Air-dried cells of Hansenula nonfermentans AKU 4332 catalyzed the production of (S)-3-pentyn-2-ol from (RS)-3- pentyn-2-ol acetate ester at 10% (v/v). The product was formed at 96.6% e.e. with a molar yield of 45% in 24 h. © Rapid Science Ltd. 1998 相似文献
145.
A biomimetic strategy in the synthesis and fragmentation of cyclic protein. 总被引:1,自引:0,他引:1
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This paper describes a simple biomimetic strategy to prepare small cyclic proteins containing multiple disulfide bonds. Our strategy involves intramolecular acyl transfer reactions to assist both the synthesis and fragmentation of these highly constrained cyclic structures in aqueous solution. To illustrate our strategy, we synthesized the naturally occurring circulin B and cyclopsychotride (CPT), both consisting of 31 amino acid residues tightly packed in a cystine-knot motif with three disulfide bonds and an end-to-end cyclic form. The synthesis of these small cyclic proteins can be achieved by orthogonal ligation of free peptide thioester via the thia zip reaction, which involves a series of reversible thiol-thiolactone exchanges to arrive at an alpha-amino thiolactone, which then undergoes an irreversible, spontaneous ring contraction through an S,N-acyl migration to form the cyclic protein. A two-step disulfide formation strategy is employed for obtaining the desired disulfide-paired products. Partial acid hydrolysis through intramolecular acyl transfer of X-Ser, X-Thr, Asp-X, and Glu-X sequences is used to obtain the assignment of the circulins disulfide bond connectives. Both synthetic circulin B and CPT are identical to the natural products and, thus, the total synthesis confirms the disulfide connectivity of circulin B and CPT contain a cystine-knot motif of 1-4, 2-5, and 3-6. In general, our strategy, based on the convergence of chemical proteolysis and aminolysis of peptide bonds through acyl transfer, is biomimetic and provides a useful approach for the synthesis and characterization of large end-to-end cyclic peptides and small proteins. 相似文献
146.
Kwang Kim A. Louise Creagh Charles A. Haynes 《Biotechnology and Bioprocess Engineering》1998,3(2):71-77
The strain ofSerratia marcescens QM B1466 produces selectively large amount of chitinolytic enzymes (about 1mg/L medium). Enzymatic hydrolysis of chitin to
N-acetyl-β-D-glucosamine (NAG) was performed with a system consisting of two hydrolases (chitinase and chitobiase) produced
by optimization of a microbial host consuming chitin particles. For the development of Large-scale biological process for
the production of NAG from chitinaceous waste, the selection and optimization of a microbial host, particle size of chitin
and pretreatment of chitin source were investigated. Also, the effect of crab/shrimp chitin sources and initial induction
time using chitin as a sole carbon source on chitinase/chitobiase production and NAG production were examined. Crab-shell
chitin(1.5%) treated by dilute acid and, ball-milled with a nominal diameter less than 250m gave the highest chitinase activity
over a 7 days culture. Crude chitinase/chitobiase solution obtained in a 10 L fed-batch fermentation showed a maximum activities
of 23.6 U/mL and 5.1 U/mL, respectively with a feeding time of 3 hrs, near pH 8.5 at 30°C. 相似文献
147.
C Sharon M Nakazato H I Ogawa Y Kato 《Journal of industrial microbiology & biotechnology》1998,21(6):292-295
The ability of an extracellular lipase from Pseudomonas aeruginosa KKA-5 to commence hydrolysis of castor oil in the presence of various metal chlorides, was investigated. Apart from CaCl2 (commonly used for castor oil hydrolysis), AlCl3 (group IIIB), CrCl3 (group VIA) and MgCl2 (group IIA) displayed enhanced hydrolysis capability. Specifically, our statistics show that with respect to time, when Cr3+ was used, hydrolysis of castor oil was four times faster than that of calcium, and 1.6 times faster with regards to Al3+. The chlorides of group VIII and alkali metals had no effect on hydrolysis. Group IV metal chlorides did not enhance lipase
activity and inhibited castor oil hydrolysis. The effect of metal ions from other groups on lipase activity is also reported.
Received 14 August 1998/ Accepted in revised form 22 October 1998 相似文献
148.
Fast reaction kinetics of ATP hydrolysis by Na,K‐ATPase has been investigated by following absorption pattern of pH sensitive dye in stopped flow spectrophotometer. Distinct pre‐steady state phase signal could be recorded with an initial decrease in acidity followed by increase in acidity. Average half time for H+ absorption and peak alkalinity was, respectively, 30 ms and 60 ms. Under optimal Na+ (120 mM) and K+ (30 mM) concentrations, magnitude of both H+ absorption and H+ release are found to be about 1.0 H+/ATPase molecule. H+ absorption and release decreased with decrease in Na+ concentration, H+ release was more affected. Both H+ absorption and H+ release are found to be independent of K+ concentration in the pre‐steady state phase. No H+ absorption or release was observed following mixing of either ADP, Na+ or K+ alone with ATPase. Effect of delayed mixing of Na+ or K+ on two phases of pre‐steady state cycle indicates that ATP hydrolytic cycle starts without K+ ions if optimal Na+ is present. ATP hydrolytic cycle does not start in the absence of Na+ ions. Results obtained have been interpreted in terms of an extended kinetic scheme for Na,K‐ATPase. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
149.
Response surface methodology (RSM) and centre composite design (CCD) were used to optimize immobilization of β-galactosidase (BGAL) from Pisum sativum onto two matrices: Sephadex G-75 and chitosan beads. The immobilization efficiency of 75.66% and 75.19% were achieved with Sephadex G-75 and chitosan, respectively. There was broad divergence in physico-chemical properties of Sephadex-PsBGAL and chitosan-PsBGAL. Chitosan-PsBGAL was better suited for industrial application based on its broad pH and temperature optima, higher temperature stability, reusability etc. Sephadex-PsBGAL and chitosan-PsBGAL showed much variation in their catalytic properties with respect to soluble enzyme. About 50% loss in activity of Sephadex-PsBGAL and chitosan-PsBGAL were observed after 12 and 46 days at 4 °C, respectively. Chitosan-PsBGAL showed higher rate of lactose hydrolysis present in milk and whey at room temperature and 4 °C than Sephadex-PsBGAL. In both cases, lactose of milk whey was hydrolyzed at higher rate than that of milk. 相似文献
150.
《Animal : an international journal of animal bioscience》2015,9(1):158-165
The mobilization of fatty acids during food deprivation is a selective process studied in different species (humans, rodents, birds, viverrids). The aim of this work was to study the effect of fasting on selective mobilization in commercial pigs. A total of 16 barrows (Large White×Landrace (167 kg±12.5 kg live weight) were subdivided into two homogeneous groups, one subjected to 12 h and the other to 60 h of fasting (fasting time) before slaughtering. For each pig inner and outer backfat layer were sampled at slaughter and at ham trimming 24 h later (sampling time). Increasing the fasting time and the sampling time after slaughter caused an increase in the amount of free fatty acids in both layers. Therefore it can be argued that during fasting lipolysis is stimulated and remains active also after slaughtering. The factors that stimulate lipolysis determine a greater mobilization of unsaturated fatty acids than saturated ones. Thus fasting time may influence the suitability of pork for processing and conservation, since free fatty acids are more suitable for oxidation than the esterified ones. 相似文献