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1.
Levano-Garcia J Mortara RA Verjovski-Almeida S DeMarco R 《Biochemical and biophysical research communications》2007,352(2):384-389
Schistosoma mansoni is a major causative agent of schistosomiasis, which constitutes a severe health problem in developing countries. We have previously described the SmATPDase1 gene, encoding a protein from the external surface of the parasites. In this work, we describe the cloning and characterization of SmATPDase2, a novel CD39-like ATP diphosphohydrolase gene in S. mansoni. In silico analysis of the protein encoded by SmATPDase2 predicts a single N-terminal transmembrane domain similar to that described for secreted human apyrase isoforms. Immuno-colocalization experiments detected both SmATPDase proteins at the S. mansoni adult worm tegument basal and apical membranes, but only SmATPDase2 in the tegument syncytium. SmATPDase2 but not SmATPDase1 protein was detected by Western blot in culture medium supernatants following incubation of adult worms in vitro, indicating that SmATPDase2 was secreted by the parasite to the medium. Taken together these data suggest a non-redundant role for SmATPDase2 in the parasite-host interplay. 相似文献
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Changes in cytosolic free Mg(2+) and adenosine nucleotide phosphates affect cardiac excitability and contractility. To investigate how modulation by Mg(2+), ATP, and ADP of K(ATP) and L-type Ca(2+) channels influences excitation-contraction coupling, we incorporated equations for intracellular ATP and MgADP regulation of the K(ATP) current and MgATP regulation of the L-type Ca(2+) current in an ionic-metabolic model of the canine ventricular myocyte. The new model: 1), quantitatively reproduces a dose-response relationship for the effects of changes in ATP on K(ATP) current, 2), simulates effects of ADP in modulating ATP sensitivity of K(ATP) channel, 3), predicts activation of Ca(2+) current during rapid increase in MgATP, and 4), demonstrates that decreased ATP/ADP ratio with normal total Mg(2+) or increased free Mg(2+) with normal ATP and ADP activate K(ATP) current, shorten action potential, and alter ionic currents and intracellular Ca(2+) signals. The model predictions are in agreement with experimental data measured under normal and a variety of pathological conditions. 相似文献
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Superoxide dismutase 1 (SOD1) is an important antioxidant previously shown to impact life span in Drosophila. We examined the consequences of manipulating Sod1 expression throughout the body or in the nervous system or musculature on life span and age-related locomotor impairment (ARLI) in Drosophila. Ubiquitous overexpression of SOD1 extended life span but did not substantially forestall ARLI, whereas ubiquitous knock-down of Sod1 shortened life span and accelerated ARLI. Interestingly, neither overexpression of Sod1 nor expression of Sod1 RNAi in the nervous system or muscle altered life span or ARLI. Our studies suggest that the control of reactive oxygen species by SOD1 in tissues other than the nervous system and musculature support life span and ARLI in Drosophila. 相似文献
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Chlorophyllase (EC 3.1.1.14) is involved in the first step of chlorophyll degradation. Isolation of chlorophyllase genes greatly facilitates characterization of chlorophyllase properties and elucidation of molecular regulation of their in vivo activities. There are two chlorophyllase genes, AtCLH1 and AtCLH2, in Arabidopsis thallana. The in vivo roles of AtCLH1 have been reported previously. However, few studies have been carried out on AtCLH2. Here,we show that purified recombinant Chlase2, encoded by AtCLH2, exhibits in vitro chlorophyllase activity. Interestingly,"activation" of in vitro activity of the recombinant Chlase2 required higher concentrations of a detergent or a polar solvent. To determine its activity in vivo, the expression of AtCLH2 was inhibited by RNA interference. RNAi plants showed decreased contents of chlorophyllide without a substantial change in the total amount of the extractable chlorophyll and consequently presented lower chlorophyllide to chlorophyll ratios in their leaves. In addition, the two AtCLHs exhibited differential expression patterns. Our results suggest that AtCLH2 might play a distinctive role in chlorophyll catabolism in vivo. 相似文献
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Yang Liao Kun An Xiao Zhou Wen-Jun Chen Ben-Ke Kuai 《植物学报(英文版)》2007,49(4):531-539
Chlorophyllase (EC 3.1.1.14) is involved in the first step of chlorophyll degradation. Isolation of chlorophyllase genes greatly facilitates characterization of chlorophyllase properties and elucidation of molecular regulation of their in vivo activities. There are two chlorophyllase genes, AtCLH1 and AtCLH2, in Arabidopsis thaliana. The in vivo roles of AtCLH1 have been reported previously. However, few studies have been carried out on AtCLH2. Here, we show that purified recombinant Chlase2, encoded by AtCLH2, exhibits in vitro chlorophyllase activity. Interestingly, "activation" of in vitro activity of the recombinant Chlase2 required higher concentrations of a detergent or a polar solvent. To determine its activity in vivo, the expression of AtCLH2 was inhibited by RNA interference. RNAi plants showed decreased contents of chlorophyllide without a substantial change in the total amount of the extractable chlorophyll and consequently presented lower chlorophyllide to chlorophyll ratios in their leaves. In addition, the two AtCLHs exhibited differential expression patterns. Our results suggest that AtCLH2 might play a distinctive role in chlorophyll catabolism in vivo. 相似文献
7.
Trypanosome mitochondrial mRNAs achieve their coding sequences through RNA editing. This process, catalyzed by approximately 20S protein complexes, involves large numbers of uridylate (U) insertions and deletions within mRNA precursors. Here we analyze the role of the essential TbMP42 protein (band VI/KREPA2) by individually examining each step of the U-deletional and U-insertional editing cycles, using reactions in the approximately linear range. We examined control extracts and RNA interference (RNAi) extracts prepared soon after TbMP42 was depleted (when primary effects should be most evident) and three days later (when precedent shows secondary effects can become prominent). This analysis shows TbMP42 is critical for cleavage of editing substrates by both the U-deletional and U-insertional endonucleases. However, on simple substrates that assess cleavage independent of editing features, TbMP42 is similarly required only for the U-deletional endonuclease, indicating TbMP42 affects the two editing endonucleases differently. Supplementing RNAi extract with recombinant TbMP42 partly restores these cleavage activities. Notably, we find that all the other editing steps (the 3'-U-exonuclease [3'-U-exo] and ligation steps of U-deletion and the terminal-U-transferase [TUTase] and ligation steps of U-insertion) remain at control levels upon RNAi induction, and hence are not dependent on TbMP42. This contrasts with an earlier report that TbMP42 is a 3'-U-exo that may act in U-deletion and additionally is critical for the TUTase and/or ligation steps of U-insertion, observations our data suggest reflect indirect effects of TbMP42 depletion. Thus, trypanosomes require TbMP42 for both endonucleolytic cleavage steps of RNA editing, but not for any of the subsequent steps of the editing cycles. 相似文献
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W D McCubbin G E Willick C M Kay 《Biochemical and biophysical research communications》1973,50(3):926-933
The fluorescent analog of adenosine triphosphate (ATP)1 1,N6-ethenoadenosine triphosphate, (εATP), has been utilized as a substitute for ATP in the myosin and heavy meromyosin ATPase systems. For myosin, the analog εATP replaced ATP with a somewhat larger Km (2.6 × 10?4 mole ??1 for εATP as opposed to 8.8 × 10?5 mole ??1 for ATP), indicating that the apparent affinity of the enzyme for εATP is less than for ATP. Perhaps of more interest, further comparison yielded a Vmax for εATP about two and one half times the value for ATP (20 μmole PO4 sec?1 g protein?1 as opposed to 8.1 μmole sec?1 g protein?1). Results for the HMM-εATPase system were similar, yielding a Km value of 1.47 × 10?4 mole ??1 and a Vmax of 54.2 μmole PO4 sec?1 g protein?1, as opposed to corresponding Km and Vmax values of 1.23 × 10?4 mole ??1 and 20.4 μmole PO4 sec?1 g protein?1, respectively for the HMM-ATP interaction. The pH dependence of εATPase for both systems was comparable to ATP, suggesting a similarity in the mechanism of hydrolysis of the two nucleotides. Activation of εATPase by Ca2+ in the presence of 0.5 M KCl was comparable to ATPase for both systems, but inhibition by Mg2+ seemed to be more effective for εATPase. These results indicate that εATP is an excellent substitute for ATP in the myosin and heavy meromyosin systems and because of its insertion into the active site of these muscle proteins, it promises to be a very useful probe for conformation studies at this level. 相似文献
10.
Requirement of cyclin B2, but not cyclin B1, for bipolar spindle formation in frog (Rana japonica) oocytes 总被引:1,自引:0,他引:1
Cyclin B, the regulatory subunit of maturation-promoting factor (MPF), comprises several subtypes that are presumed to confer different functions on MPF although no direct evidence has been provided to date. To clarify the difference in the roles of cyclins B1 and B2, we used frog (Rana japonica) oocytes in which MPF is formed only after progesterone stimulation because it is possible to produce oocytes containing either cyclin B1-MPF or cyclin B2-MPF by antisense RNA-mediated translational inhibition of each mRNA. Using this advantage, we investigated the functions of cyclins B1 and B2 and obtained the following results: (a) oocytes synthesizing cyclin B2-MPF underwent meiosis I and II with formation of a bipolar spindle at each metaphase; (b) oocytes synthesizing cyclin B1-MPF formed a monopolar spindle at metaphase I and extruded an abnormal polar body; and (c) both oocytes underwent germinal vesicle breakdown (GVBD) and chromosome condensation. Immunocytochemical observations also revealed continuous localization of cyclin B2 on the spindle during meiosis. These results provide evidence of the requirement of cyclin B2, but not cyclin B1, for organizing the bipolar spindle, though either cyclin B1 or B2 is redundant for inducing GVBD and chromosome condensation. 相似文献
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Different binding properties and affinities for ATP and ADP among sulfonylurea receptor subtypes, SUR1, SUR2A, and SUR2B 总被引:12,自引:0,他引:12
Matsuo M Tanabe K Kioka N Amachi T Ueda K 《The Journal of biological chemistry》2000,275(37):28757-28763
ATP-sensitive potassium (K(ATP)) channels, composed of sulfonylurea receptor (SURx) and Kir6.x, play important roles by linking cellular metabolic state to membrane potential in various tissues. Pancreatic, cardiac, and vascular smooth muscle K(ATP) channels, which consist of different subtypes of SURx, differ in their responses to cellular metabolic state. To explore the possibility that different interactions of SURx with nucleotides cause differential regulation of K(ATP) channels, we analyzed the properties of nucleotide-binding folds (NBFs) of SUR1, SUR2A, and SUR2B. SURx in crude membrane fractions was incubated with 8-azido-[alpha-(32)P]ATP or 8-azido-[gamma-(32)P]ATP under various conditions and was photoaffinity-labeled. Then, SURx was digested mildly with trypsin, and partial tryptic fragments were immunoprecipitated with antibodies against NBF1 and NBF2. Some nucleotide-binding properties were different among SUR subtypes as follows. 1) Mg(2+) dependence of nucleotide binding of NBF2 of SUR1 was high, whereas those of SUR2A and SUR2B were low. 2) The affinities of NBF1 of SUR1 for ATP and ADP, especially for ATP, were significantly higher than those of SUR2A and SUR2B. 3) The affinities of NBF2 of SUR2B for ATP and ADP were significantly higher than those of SUR2A. This is the first biochemical study to analyze and compare the nucleotide-binding properties of NBFs of three SUR subtypes, and our results suggest that their different properties may explain, in part, the differential regulation of K(ATP) channel subtypes. The high nucleotide-binding affinities of SUR1 may explain the high ability of SUR1 to stimulate pancreatic K(ATP) channels. It is also suggested that the C-terminal 42 amino acids affect the physiological roles of SUR2A and SUR2B by changing the nucleotide-binding properties of their NBFs. 相似文献
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Ullrich N Caplanusi A Brône B Hermans D Larivière E Nilius B Van Driessche W Eggermont J 《American journal of physiology. Cell physiology》2006,290(5):C1287-C1296
Regulatory volume decrease (RVD) is a protective mechanism that allows mammalian cells to restore their volume when exposed to a hypotonic environment. A key component of RVD is the release of K+, Cl, and organic osmolytes, such as taurine, which then drives osmotic water efflux. Previous experiments have indicated that caveolin-1, a coat protein of caveolae microdomains in the plasma membrane, promotes the swelling-induced Cl current (ICl,swell) through volume-regulated anion channels. However, it is not known whether the stimulation by caveolin-1 is restricted to the release of Cl or whether it also affects the swelling-induced release of other components, such as organic osmolytes. To address this problem, we have studied ICl,swell and the hypotonicity-induced release of taurine and ATP in wild-type Caco-2 cells that are caveolin-1 deficient and in stably transfected Caco-2 cells that express caveolin-1. Electrophysiological characterization of wild-type and stably transfected Caco-2 showed that caveolin-1 promoted ICl,swell, but not cystic fibrosis transmembrane conductance regulator currents. Furthermore, caveolin-1 expression stimulated the hypotonicity-induced release of taurine and ATP in stably transfected Caco-2 cells grown as a monolayer. Interestingly, the effect of caveolin-1 was polarized because only the release at the basolateral membrane, but not at the apical membrane, was increased. It is therefore concluded that caveolin-1 facilitates the hypotonicity-induced release of Cl, taurine, and ATP, and that in polarized epithelial cells, the effect of caveolin-1 is compartmentalized to the basolateral membrane. caveolae; osmolyte; epithelial cell; chloride channel 相似文献
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R P Kandpal T Melese S D Stroop P D Boyer 《The Journal of biological chemistry》1985,260(9):5542-5547
The ATPase from the inner mitochondrial membrane is known to be inhibited by modification of one of the three catalytic subunits with N,N'-dicyclohexylcarbodiimide (DCCD) or 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole. An experimental approach described in this paper shows that most of the residual ATPase activity observed after the usual DCCD or 7-chloro-4-nitrobenzo-2-oxa-1,3-diazole modification is due to the presence of unmodified enzyme, although the large fraction of modified enzyme retains a weak catalytic activity. This weak catalytic activity can be stimulated by methanol or dimethyl sulfoxide. When the modified enzymes are exposed to Mg2+ and [3H]ATP, about equal amounts of [3H]ATP and [3H]ADP appear at catalytic sites. The turnover rate for these enzymes is less than 1/1000 that of the native enzyme when it is calculated from the rate at which the enzyme becomes labeled at the catalytic sites with [3H]ATP and [3H]ADP during steady state hydrolysis. In addition, a higher ATP concentration is required for steady state turnover and, after ATP binding, the principal rate-limiting step is the capacity of the derivatized enzyme to undergo the binding changes necessary for the release of ADP and Pi. When the modified enzymes are not hydrolyzing ATP, they convert to form(s) that show a distinct lag in the replacement of bound nucleotides at catalytic sites. The replacement of bound nucleotides is still promoted by MgATP, even though the enzymes have been converted to sluggish forms. Contrary to a recent suggestion based on the study of the DCCD-modified enzyme (Soong, K.S., and Wang, J.H. (1984) Biochemistry 23, 136-141), our data provide evidence for the existence of catalytic cooperatively between at least two alternating sites in the modified enzyme and are consistent with continued sequential participation of all three sites. 相似文献
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Kim T Ha H Kim N Park ES Rho J Kim EC Lorenzo J Choi Y Lee SH 《Biochemical and biophysical research communications》2010,393(1):73-78
SIR2 protein, an NAD-dependent deacetylase, is localized to nucleus and is involved in life span extension by calorie restriction in yeast. In mammals, among the seven SIR2 homologues (SIRT1-7), SIRT3, 4, and 5 are localized to mitochondria. As SIRT5 mRNA levels in liver are increased by fasting, the physiological role of SIRT5 was investigated in liver of SIRT5-overexpressing transgenic (SIRT5 Tg) mice. We identified carbamoyl phosphate synthetase 1 (CPS1), a key enzyme of the urea cycle that catalyzes condensation of ammonia with bicarbonate to form carbamoyl phosphate, as a target of SIRT5 by two-dimensional electrophoresis comparing mitochondrial proteins in livers of SIRT5 Tg and wild-type mice. CPS1 protein was more deacetylated and activated in liver of SIRT5 Tg mice than in wild-type. In addition, urea production was upregulated in hepatocytes of SIRT5 Tg mice. These results agree with those of a previous study using SIRT5 knockout (KO) mice. Because ammonia generated during fasting is toxic, SIRT5 protein might play a protective role by converting ammonia to non-toxic urea through deacetylation and activation of CPS1. 相似文献
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Two rice phosphate transporters, OsPht1;2 and OsPht1;6, have different functions and kinetic properties in uptake and translocation 总被引:13,自引:0,他引:13
Ai P Sun S Zhao J Fan X Xin W Guo Q Yu L Shen Q Wu P Miller AJ Xu G 《The Plant journal : for cell and molecular biology》2009,57(5):798-809
Plant phosphate (Pi) transporters mediate the uptake and translocation of this nutrient within plants. A total of 13 sequences in the rice ( Oryza sativa ) genome can be identified as belonging to the Pi transporter (Pht1) family. Here, we report on the expression patterns, biological properties and the physiological roles of two members of the family: OsPht1;2 ( OsPT2 ) and OsPht1;6 ( OsPT6 ). Expression of both genes increased significantly under Pi deprivation in roots and shoots. By using transgenic rice plants expressing the GUS reporter gene, driven by their promoters, we detected that OsPT2 was localized exclusively in the stele of primary and lateral roots, whereas OsPT6 was expressed in both epidermal and cortical cells of the younger primary and lateral roots. OsPT6, but not OsPT2, was able to complement a yeast Pi uptake mutant in the high-affinity concentration range. Xenopus oocytes injected with OsPT2 mRNA showed increased Pi accumulation and a Pi-elicited depolarization of the cell membrane electrical potential, when supplied with mM external concentrations. Both results show that OsPT2 mediated the uptake of Pi in oocytes. In transgenic rice, the knock-down of either OsPT2 or OsPT6 expression by RNA interference significantly decreased both the uptake and the long-distance transport of Pi from roots to shoots. Taken together, these data suggest OsPT6 plays a broad role in Pi uptake and translocation throughout the plant, whereas OsPT2 is a low-affinity Pi transporter, and functions in translocation of the stored Pi in the plant. 相似文献
19.
John T. Sullivan Charles S. Richards Kian Joe Lie Donald Heyneman 《International journal for parasitology》1981,11(6):481-484
Sullivan J. T., Richards C. S., Lie K. J. and Heyneman D. 1981. Schistosoma mansoni, NIH-Sm-PR-2 strain, in non-susceptible Biomphalaria glabrata: Protection by Echinostoma paraensei. International journal for Parasitology11:481–484. Among seven inbred genetic stocks of Biomphalaria glabrata that are non-susceptible for the NIH-Sm-PR-2 strain of Schistosoma mansoni (PR-2), five stocks revert to nearly complete susceptibility when first infected with Echinostoma paraensei. These include both stocks in which PR-2 sporocysts are normally destroyed within 3–7 days, and stocks in which sporocysts often survive undeveloped for at least 3 weeks. Hence, these five stocks are resistant to but physiologically suitable for the development of PR-2. Of the two remaining stocks, one remains partly non-susceptible to PR-2, since less than 50 % of echinostome-infected snails revert to susceptibility, while the other stock remains completely non-susceptible to PR-2 following echinostome infection, due perhaps to a high level of residual resistance and/or unsuitability. 相似文献
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目的研究共转染CDK1、CDK2siRNA同时抑制CDKI、CDK2蛋白表达对肿瘤细胞周期和细胞凋亡的影响,探讨细胞周期主要调控分子在肿瘤细胞凋亡中的作用。方法以人宫颈癌细胞株HeLa细胞为研究对象,用脂质体lipofectamine2000同时转染CDKl和CDK2siRNA。在转染后48、60h收集细胞,用Western印迹检测CDKl、CDK2蛋白的表达,AnnexinV/PI检测转染细胞的凋亡,流式细胞术DNA含量检测分析细胞周期。转染细胞进行瑞氏一姬姆萨染色(Wright—Giemsa)后在显微镜下观察其形态变化i结果共转染CDKl、CDK2siRNA后48和60h,Western印迹结果显示CDKl和CDK2蛋白的表达都同时降低。共转染CDKl、CDK2siRNA后,细胞周期S期和G1/M期比例与对照相比有明显增加;共转染细胞经瑞氏一姬姆萨染色后在显微镜下可见双核或多核细胞增多;AnnexinV/PI检测结果显示共转染CDK1、CDK2siRNA的细胞在48和60h细胞凋亡率与对照相比有显著的升高。结论siRNA干扰导致的CDKI、CDK2表达同时降低不仅导致细胞周期s期和G1/M期的阻滞,也诱导了肿瘤细胞的凋亡。 相似文献