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1.
Novel synthetic mimics of antimicrobial peptides have been developed to exhibit structural properties and antimicrobial activity similar to those of natural antimicrobial peptides (AMPs) of the innate immune system. These molecules have a number of potential advantages over conventional antibiotics, including reduced bacterial resistance, cost-effective preparation, and customizable designs. In this study, we investigate a family of nylon-3 polymer-based antimicrobials. By combining vesicle dye leakage, bacterial permeation, and bactericidal assays with small-angle X-ray scattering (SAXS), we find that these polymers are capable of two interdependent mechanisms of action: permeation of bacterial membranes and binding to intracellular targets such as DNA, with the latter necessarily dependent on the former. We systemically examine polymer-induced membrane deformation modes across a range of lipid compositions that mimic both bacteria and mammalian cell membranes. The results show that the polymers' ability to generate negative Gaussian curvature (NGC), a topological requirement for membrane permeation and cellular entry, in model Escherichia coli membranes correlates with their ability to permeate membranes without complete membrane disruption and kill E. coli cells. Our findings suggest that these polymers operate with a concentration-dependent mechanism of action: at low concentrations permeation and DNA binding occur without membrane disruption, while at high concentrations complete disruption of the membrane occurs. This article is part of a Special Issue entitled: Interfacially Active Peptides and Proteins. Guest Editors: William C. Wimley and Kalina Hristova.  相似文献   
2.
The Escherichia coli secA gene, whose translation is responsive to the proficiency of protein export within the cell, is the second gene in a three-gene operon and is flanked by gene X and mutT. By using gene fusion and oligonucleotide-directed mutagenesis techniques, we have localized this translationally regulated site to a region at the end of gene X and the beginning of secA. This region has been shown to bind SecA protein in vitro. These studies open the way for a direct investigation of the mechanism of secA regulation and its coupling to the protein secretion capability of the cell.  相似文献   
3.
Closing of stomatal pores in the leaf epidermis of higher plants is mediated by long-term release of potassium and the anions chloride and malate from guard cells and by parallel metabolism of malate. Previous studies have shown that slowly activating anion channels in the plasma membrane of guard cells can provide a major pathway for anion efflux while also controlling K+ efflux during stomatal closing: Anion efflux produces depolarization of the guard cell plasma membrane that drives K+ efflux required for stomatal closing. The patch-clamp technique was applied to Vicia faba guard cells to determine the permeability of physiologically significant anions and halides through slow anion channels to assess the contribution of these anion channels to anion efflux during stomatal closing. Permeability ratio measurements showed that all tested anions were permeable with the selectivity sequence relative to Cl- of NO3- > Br- > F- ~ Cl- ~ I- > malate. Large malate concentrations in the cytosol (150 mM) produced a slow down-regulation of slow anion channel currents. Single anion channel currents were recorded that correlated with whole-cell anion currents. Single slow anion channels confirmed the large permeability ratio for nitrate over chloride ions. Furthermore, single-channel studies support previous indications of multiple conductance states of slow anion channels, suggesting cooperativity among anion channels. Anion conductances showed that slow anion channels can mediate physiological rates of Cl- and initial malate efflux required for mediation of stomatal closure. The large NO3- permeability as well as the significant permeabilities of all anions tested indicates that slow anion channels do not discriminate strongly among anions. Furthermore, these data suggest that slow anion channels can provide an efficient pathway for efflux of physiologically important anions from guard cells and possibly also from other higher plant cells that express slow anion channels.  相似文献   
4.
Lysogenic Acetobacter methanolicus strains carrying the prophage Acm1 were found to be unable to synthesize both the capsutar polysaccharide (CPS) and the O-specific side-chain of lipopolysaccharide (LPS) and to represent rough variants of the host bacterium. A 262 bp DNA fragment of phage Acm1, obviously required for interference with LPS biosynthesis, was cloned and expressed in Escherichia coli Independently of the O-type, transformation of various E. coli strains with the recombinant DNA resulted in a suppression of biosynthesis of the O-specific chains. The DNA fragment of phage Acm1 contained three very short open reading frames of 21, 24, and 36 bp. However, attempts to express phage-encoded peptides were not successful. Instead, the Acm1-derived DNA fragment was shown to code for the synthesis of a trans-acting RNA molecule of 97 nucleotides, designated lbi (L PS b iosynthesis-i nterfering) RNA. This RNA contains sequence complementarity to E. coli target RNA sequences and appears to have the ability to form intracellularly RNA hybrid duplexes with mRNA. The data presented in this study support the hypothesis that the phenotypic effect of conversion to rough-type LPS is accompanied by the expression of an antisense RNA of phage Acm1.  相似文献   
5.
Abstract: The turnover of a CNS-specific cell adhesion glycoprotein, ependymin, has earlier been found to increase during periods of neuronal plasticity. Here, ependymin mRNA expression was analyzed by semiquantitative in situ hybridization in goldfish. Learning of an active avoidance response resulted in a significant increase in ependymin mRNA expression 20 min to 4 h after acquisition of the task. In contrast, yoked control animals that were exposed to the same numbers of conditioned and unconditioned stimuli in a random, unpaired manner exhibited a strong down-regulation of ependymin mRNA. Hybridization signals were also increased by injection of anti-ependymin antiserum into brain ventricles. Ependymin mRNA was exclusively localized to reticular-shaped fibroblasts of the inner endomeningeal cell layer. Immunoelectron microscopic investigation, however, revealed ependymin also in distinct neuronal and glial cell populations in which no ependymin mRNA had been detected. Uptake of meningeal protein factors into glial and neuronal cells may therefore be of functional importance for plastic adaptations of the CNS.  相似文献   
6.
Plasmid pBP11 contains a sequence homologous to Tn21-like element Tn2410 encoding dihydropteroate synthetase and beta-lactamase OXA-2. The nucleotide sequence of a 1.5 kb segment of this region has been determined including the bla gene. It reveals strong sequence homology with the OXA-2 operon of plasmid R46. The implications of an additional 319 bp segment in pBP11 for the different evolution of R46/pKM101 and pBP11 are discussed.  相似文献   
7.
Arginine vasopressin (AVP)-induced formation of inositol phosphates and increased calcium efflux in smooth muscle cells (A-10) were inhibited by short term treatment with phorbol 12,13-dibutyrate (PDBu), an activator of protein kinase C (Ca2+/phospholipid-dependent protein kinase) (Aiyar, N., Nambi, P., Whitman, M., Stassen, F. L., and Crooke, S. T. (1987) Mol. Pharmacol. 31, 180-184). Here we report that prolonged treatment of A-10 cells (48 h) with PDBu markedly enhanced AVP-induced calcium mobilization but inhibited ATP- and thrombin-induced calcium mobilization. PDBu (400 nM) doubled [Ca2+]i induced with 3 nM AVP, while the basal calcium concentrations before and after AVP were not different from those of untreated cells. The EC50 for a 24-h exposure was 2.3 nM PDBu. Phorbol 12-myristate 13-acetate was also effective, while 4-alpha-phorbol 12,13-didecanoate (48 h at 400 nM) was without effect. 4-alpha-phorbol 12,13-didecanoate also did not affect inositol phosphate formation. PDBu markedly enhanced inositol phosphate formation induced by AVP but not by NaF. PDBu did not affect basal inositol phosphate and polyphosphoinositide levels, and cytosolic and membrane-associated phospholipase C activity. PDBu treatment (48 h, 400 nM) decreased membrane-associated and cytosolic protein kinase C activity by 80 and 90%, respectively. However, the dose response and time course of changes in protein kinase C activity did not correlate with the same curves for PDBu enhancement of AVP-induced calcium mobilization. We conclude that prolonged PDBu treatment selectively enhanced AVP-induced calcium mobilization and polyphosphoinositide hydrolysis. These effects were not caused by an increase in vasopressin receptor number and apparent affinity, an increase in phospholipase C activity, G-protein-phospholipase C coupling, formation of polyphosphoinositide, or inhibition of inositol phosphate metabolizing enzymes. Enhancement of the AVP responses did not correlate with desensitization or activation of protein kinase C. We suggest that prolonged PDBu treatment might sensitize a putative V1 receptor-G-protein-phospholipase C complex.  相似文献   
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