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排序方式: 共有129条查询结果,搜索用时 15 毫秒
1.
Five classes of MalE-LacZ hybrid proteins have previously been characterized. These proteins differ in the amount of the maltose-binding protein (MBP) that is attached to beta-galactosidase. Although none of these proteins is secreted into the periplasm, the four larger classes of hybrid proteins, those that include an intact MBP signal peptide, are inserted into the cytoplasmic membrane, suggesting that the secretion process has at least been initiated. In this study, we demonstrated that some portion of the four larger hybrid proteins can be translocated across the cytoplasmic membrane, thus permitting processing of the signal peptide. We have found that hybrid proteins that include only a small portion of the mature MBP are inefficiently recognized as exported proteins, and translocation and processing of these appear to be relatively slow, posttranslational events. In marked contrast, hybrid proteins that include a substantial portion of the mature MBP are efficiently recognized, and translocation and processing of these occur very rapidly, possibly cotranslationally. Our results complement other studies and very strongly suggest a role for the mature MBP in the export process. 相似文献
2.
The Yeast Bsd2-1 Mutation Influences Both the Requirement for Phosphatidylinositol Transfer Protein Function and Derepression of Phospholipid Biosynthetic Gene Expression in Yeast 总被引:1,自引:0,他引:1
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S. Kagiwada B. G. Kearns T. P. McGee M. Fang K. Hosaka V. A. Bankaitis 《Genetics》1996,143(2):685-697
3.
Vytas K. Švedas Alexei L. Margolin Ilya V. Berezin 《Enzyme and microbial technology》1980,2(2):138-144
The equilibrium constants and the respective standard Gibbs energy changes for hydrolysis of some β-lactam antibiotics have been determined. Native and immobilized penicillin amidase (EC 3.5.1.11) from Escherichia coli has been used as a catalyst. The values of standard Gibbs energy changes corresponding to the pH-independent product of equilibrium concentrations (ΔG0c = ? RT ln Kc) have been calculated. The differences in the structure of the antibiotics nucleus hardly ever affect the value of the pH-independent component of the standard Gibbs energy change (ΔG0c) and value of apparent standard Gibbs energy change at a fixed pH (ΔG0′c). At the same time, the value of ΔG0c is more sensitive to the structure of the acyl moiety of the antibiotic; when ampicillin is used instead of benzylpenicillin, ΔG0c increases by ~6.3 kJ mol?1 (1.5 kcal mol?1). pH-dependences of the apparent standard Gibbs energy changes for hydrolysis of β-lactam antibiotics have been calculated. The pH-dependences of ΔG0′c for hydrolysis of all β-lactam antibiotics have a similar pattern. The thermodynamic pH optimum of the synthesis of these compounds is in the acid pH range (pH < 5.0). The breakage of the β-lactam ring leads to a sharp decrease in the ΔG0′c value and a change in the pattern of the pH-dependence. For example, at pH 5.0 ΔG0′c decreases from 14.4 kJ mol?1 for benzylpenicillin to ?1.45 kJ mol?1 for benzylpenicilloic acid. The reason for these changes is mainly a considerable increase in the pK of the amino group of the nucleus of the antibiotic and, as a consequence, a decrease in the component of standard Gibbs energy change, corresponding to the ionization of the system. The thermodynamic potentials of the enzymatic synthesis of semisynthetic penicillins and cephalosporins on the basis of both free acids and their derivatives (N-acylated amino acids, esters) are discussed. It is shown that with esters of the acids, a high yield of the antibiotic can, in principle, be achieved at higher pH values. 相似文献
4.
E L Kline V Bankaitis C S Brown D Montefiori 《Biochemical and biophysical research communications》1979,87(2):566-574
The ability of imidazole acetic acid (IA) to substitute for cAMP was demonstrated by use of a series of strains carrying a lesion in the structural gene. The substitution of IA for cAMP was specific for the L-arabinose operon in that this compound was ineffective in substituting for cAMP in the lactose or maltose catabolic systems. The cAMP receptor protein (CRP) and the gene product were necessary for the IA mediated induction of the L-arabinose system. 相似文献
5.
Local polarity and hydrogen bonding inside the Sec14p phospholipid-binding cavity: high-field multi-frequency electron paramagnetic resonance studies
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Smirnova TI Chadwick TG Voinov MA Poluektov O van Tol J Ozarowski A Schaaf G Ryan MM Bankaitis VA 《Biophysical journal》2007,92(10):3686-3695
Sec14p promotes the energy-independent transfer of either phosphatidylinositol (PtdIns) or phosphatidylcholine (PtdCho) between lipid bilayers in vitro and represents the major PtdIns/PtdCho transfer protein in the budding yeast Saccharomyces cerevisiae. Herein, we employ multi-frequency high-field electron paramagnetic resonance (EPR) to analyze the electrostatic and hydrogen-bonding microenvironments for series of doxyl-labeled PtdCho molecules bound by Sec14p in a soluble protein-PtdCho complex. A structurally similar compound, 5-doxyl stearic acid dissolved in a series of solvents, was used for experimental calibration. The experiments yielded two-component rigid limit 130- and 220-GHz EPR spectra with excellent resolution in the gx region. Those components were assigned to hydrogen-bonded and nonhydrogen-bonded nitroxide species. Partially resolved 130-GHz EPR spectra from n-doxyl-PtdCho bound to Sec14p were analyzed using this two-component model and allowed quantification of two parameters. First, the fraction of hydrogen-bonded nitroxide species for each n-doxyl-PtdCho was calculated. Second, the proticity profile along the phospholipid-binding cavity of Sec14p was characterized. The data suggest the polarity gradient inside the Sec14p cavity is a significant contributor to the driving molecular forces for extracting a phospholipid from the bilayer. Finally, the enhanced g-factor resolution of EPR at 130 and 220 GHz provides researchers with a spectroscopic tool to deconvolute two major contributions to the x-component of the nitroxide g-matrix: hydrogen-bond formation and local electrostatic effects. 相似文献
6.
Mice lacking phosphatidylinositol transfer protein-alpha exhibit spinocerebellar degeneration,intestinal and hepatic steatosis,and hypoglycemia 总被引:4,自引:0,他引:4
Alb JG Cortese JD Phillips SE Albin RL Nagy TR Hamilton BA Bankaitis VA 《The Journal of biological chemistry》2003,278(35):33501-33518
Phosphatidylinositol transfer proteins (PITPs) regulate the interface between lipid metabolism and cellular functions. We now report that ablation of PITP alpha function leads to aponecrotic spinocerebellar disease, hypoglycemia, and intestinal and hepatic steatosis in mice. The data indicate that hypoglycemia is in part associated with reduced proglucagon gene expression and glycogenolysis that result from pancreatic islet cell defects. The intestinal and hepatic steatosis results from the intracellular accumulation of neutral lipid and free fatty acid mass in these organs and suggests defective trafficking of triglycerides and diacylglycerols from the endoplasmic reticulum. We propose that deranged intestinal and hepatic lipid metabolism and defective proglucagon gene expression contribute to hypoglycemia in PITP alpha-/- mice, and that hypoglycemia is a significant contributing factor in the onset of spinocerebellar disease. Taken together, the data suggest an unanticipated role for PITP alpha in with glucose homeostasis and in mammalian endoplasmic reticulum functions that interface with transport of specific luminal lipid cargoes. 相似文献
7.
Conductance and permeability of the residual state of connexin43 gap junction channels 总被引:4,自引:0,他引:4
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We used cell lines expressing wild-type connexin43 and connexin43 fused with the enhanced green fluorescent protein (Cx43-EGFP) to examine conductance and perm-selectivity of the residual state of Cx43 homotypic and Cx43/Cx43-EGFP heterotypic gap junction channels. Each hemichannel in Cx43 cell-cell channel possesses two gates: a fast gate that closes channels to the residual state and a slow gate that fully closes channels; the transjunctional voltage (V(j)) closes the fast gate in the hemichannel that is on the relatively negative side. Here, we demonstrate macroscopically and at the single-channel level that the I-V relationship of the residual state rectifies, exhibiting higher conductance at higher V(j)s that are negative on the side of gated hemichannel. The degree of rectification increases when Cl(-) is replaced by Asp(-) and decreases when K(+) is replaced by TEA(+). These data are consistent with an increased anionic selectivity of the residual state. The V(j)-gated channel is not permeable to monovalent positively and negatively charged dyes, which are readily permeable through the fully open channel. These data indicate that a narrowing of the channel pore accompanies gating to the residual state. We suggest that the fast gate operates through a conformational change that introduces positive charge at the cytoplasmic vestibule of the gated hemichannel, thereby producing current rectification, increased anionic selectivity, and a narrowing of channel pore that is largely responsible for reducing channel conductance and restricting dye transfer. Consequently, the fast V(j)-sensitive gating mechanism can serve as a selectivity filter, which allows electrical coupling but limits metabolic communication. 相似文献
8.
Nemoto Y Kearns BG Wenk MR Chen H Mori K Alb JG De Camilli P Bankaitis VA 《The Journal of biological chemistry》2000,275(44):34293-34305
The Saccharomyces cerevisiae SAC1 gene was identified via independent analyses of mutations that modulate yeast actin function and alleviate the essential requirement for phosphatidylinositol transfer protein (Sec14p) activity in Golgi secretory function. The SAC1 gene product (Sac1p) is an integral membrane protein of the endoplasmic reticulum and the Golgi complex. Sac1p shares primary sequence homology with a subfamily of cytosolic/peripheral membrane phosphoinositide phosphatases, the synaptojanins, and these Sac1 domains define novel phosphoinositide phosphatase modules. We now report the characterization of a rat counterpart of Sac1p. Rat Sac1 is a ubiquitously expressed 65-kDa integral membrane protein of the endoplasmic reticulum that is found at particularly high levels in cerebellar Purkinje cells. Like Sac1p, rat Sac1 exhibits intrinsic phosphoinositide phosphatase activity directed toward phosphatidylinositol 3-phosphate, phosphatidylinositol 4-phosphate, and phosphatidylinositol 3,5-bisphosphate substrates, and we identify mutant rat sac1 alleles that evoke substrate-specific defects in this enzymatic activity. Finally, rat Sac1 expression in Deltasac1 yeast strains complements a wide phenotypes associated with Sac1p insufficiency. Biochemical and in vivo data indicate that rat Sac1 phosphatidylinositol-4-phosphate phosphatase activity, but not its phosphatidylinositol-3-phosphate or phosphatidylinositol-3, 5-bisphosphate phosphatase activities, is essential for the heterologous complementation of Sac1p defects in vivo. Thus, yeast Sac1p and rat Sac1 are integral membrane lipid phosphatases that play evolutionary conserved roles in eukaryotic cell physiology. 相似文献
9.
Novel developmentally regulated phosphoinositide binding proteins from soybean whose expression bypasses the requirement for an essential phosphatidylinositol transfer protein in yeast. 总被引:3,自引:0,他引:3
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M A Kearns D E Monks M Fang M P Rivas P D Courtney J Chen G D Prestwich A B Theibert R E Dewey V A Bankaitis 《The EMBO journal》1998,17(14):4004-4017
Phosphatidylinositol transfer proteins (PITPs) have been shown to play important roles in regulating a number of signal transduction pathways that couple to vesicle trafficking reactions, phosphoinositide-driven receptor-mediated signaling cascades, and development. While yeast and metazoan PITPs have been analyzed in some detail, plant PITPs remain entirely uncharacterized. We report the identification and characterization of two soybean proteins, Ssh1p and Ssh2p, whose structural genes were recovered on the basis of their abilities to rescue the viability of PITP-deficient Saccharomyces cerevisiae strains. We demonstrate that, while both Ssh1p and Ssh2p share approximately 25% primary sequence identity with yeast PITP, these proteins exhibit biochemical properties that diverge from those of the known PITPs. Ssh1p and Ssh2p represent high-affinity phosphoinositide binding proteins that are distinguished from each other both on the basis of their phospholipid binding specificities and by their substantially non-overlapping patterns of expression in the soybean plant. Finally, we show that Ssh1p is phosphorylated in response to various environmental stress conditions, including hyperosmotic stress. We suggest that Ssh1p may function as one component of a stress response pathway that serves to protect the adult plant from osmotic insult. 相似文献
10.
Alb JG Phillips SE Wilfley LR Philpot BD Bankaitis VA 《Journal of lipid research》2007,48(8):1857-1872
Phosphatidylinositol transfer proteins (PITPs) bind phosphatidylinositol (PtdIns) and phosphatidylcholine and play diverse roles in coordinating lipid metabolism/signaling with intracellular functions. The underlying mechanisms remain unclear. Genetic ablation of PITPalpha in mice results in neonatal lethality characterized by intestinal and hepatic steatosis, spinocerebellar neurodegeneration, and glucose homeostatic defects. We report that mice expressing a PITPalpha selectively ablated for PtdIns binding activity (Pitpalpha(T59D)), as the sole source of PITPalpha, exhibit phenotypes that recapitulate those of authentic PITPalpha nullizygotes. Analyses of mice with graded reductions in PITPalpha activity reveal proportionately graded reductions in lifespan, demonstrate that intestinal steatosis and hypoglycemia are apparent only when PITPalpha protein levels are strongly reduced (>or=90%), and correlate steatotic and glucose homeostatic defects with cerebellar inflammatory disease. Finally, reconstitution of PITPalpha expression in the small intestine substantially corrects the chylomicron retention disease and cerebellar inflammation of Pitpalpha(0/0) neonates, but does not rescue neonatal lethality in these animals. These data demonstrate that PtdIns binding is an essential functional property of PITPalpha in vivo, and suggest a causal linkage between defects in lipid transport and glucose homeostasis and cerebellar inflammatory disease. Finally, the data also demonstrate intrinsic neuronal deficits in PITPalpha-deficient mice that are independent of intestinal lipid transport defects and hypoglycemia. 相似文献