Global ETD Search

31	Role of Cell Membrane Permeability Barrier in Biodegradation Rates of Organic Compounds Shrestha, Ankurman January 2017 (has links) No description available. Chemical Engineering Biodegradation Cell Membrane Membrane Permeability Biodegradation Kinetics Limiting Step Mechanistic Model
32	Permeability of POPC bilayer by dirhodium complexes Sears, Randy Bryan 10 December 2007 (has links) No description available. Chemistry, Inorganic Dirhodium complexes Membrane Permeability Photodynamic Therapy SYBR Green I
33	Exploring the role of LptF’s and LptG’s cytoplasmic loop 2 in the lipopolysaccharide transport activity of LptB2FG Iniguez, Carlos January 2021 (has links) No description available. Microbiology ABC transporters lipopolysaccharides membrane transport proteins cell membrane permeability Escherichia coli K-12
34	Amorphous polymeric drug salts as ionic solid dispersion forms of ciprofloxacin Mesallati, H., Umerska, A., Paluch, Krzysztof J., Tajber, L. 01 June 2017 (has links) Yes / Ciprofloxacin (CIP) is a poorly soluble drug that also displays poor permeability. Attempts to improve the solubility of this drug to date have largely focused on the formation of crystalline salts and metal complexes. The aim of this study was to prepare amorphous solid dispersions (ASDs) by ball milling CIP with various polymers. Following examination of their solid state characteristics and physical stability, the solubility advantage of these ASDs was studied, and their permeability was investigated via parallel artificial membrane permeability assay (PAMPA). Finally, the minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC) of the ASDs were compared to those of CIP. It was discovered that acidic polymers, such as Eudragit L100, Eudragit L100C==, Carbopol and HPMCAS, were necessary for the amorphization of CIP. In each case, the positively charged secondary amine of CIP was found to interact with carboxylate groups in the polymers, forming amorphous polymeric drug salts. Although the ASDs began to crystallize within days under accelerated stability conditions, they remained fully XCray amorphous following exposure to 90% RH at 25 oC, and demonstrated higher than predicted glass transition temperatures. The solubility of CIP in water and simulated intestinal fluid was also increased by all of the ASDs studied. Unlike a number of other solubility enhancing formulations, the ASDs did not decrease the permeability of the drug. Similarly, no decrease in antibiotic efficacy was observed, and significant improvements in the MIC and MBC of CIP were obtained with ASDs containing HPMCASC") and HPMCASCMG. Therefore, ASDs may be a viable alternative for formulating CIP with improved solubility, bioavailability and antimicrobial activity. Ciprofloxacin Amorphous solid dispersion Polymer Polymeric drug salts Solubility
35	Effects of Aspirin and its Derivatives in Combination with Electroporation for Drug Delivery in Cultured Cells Langham, Jennifer 01 July 2004 (has links) The purpose of this research was to investigate the effects that aspirin (ASA) and its metabolites, salicylic acid (SA) and acetic acid (AA), have on the delivery of drugs across biological barriers when used in conjunction with electroporation. Electroporation is a technique used to enhance drug delivery across bio-membranes in which a transmembrane potential is induced into cellular membranes, resulting in the creation of aqueous pores that allow molecules to pass through the otherwise impermeable barrier. Aspirin is a widely used drug that has been used for over a century and has been proven relatively safe at normal doses as indicated by the low number of reports of poisoning cases it has been involved in. Components of aspirin are known to soften the cellular membranes by solubilizing the cell's surface proteins. B16F10 murine melanoma cancer cells were used in this investigation and treated with a 120µM buffered solution of calcein, a fluorescent indicator, in which the amount of delivered tracer molecules was measured using fluorescence. Identical concentrations of ASA and SA were investigated (1mM, 5mM, and 10mM) separately, focusing the effects concentration has electroporation delivery. Diluted acetic acid was also investigated at pH values of 6.42, 5.36, and 4.40. The concentration of acetic acid that had the lowest pH and ASA with the highest concentration had the greatest impacts on the augmentation of calcein delivery. Therefore, this demonstrates that aspirin and acetic acid have the potential to improve targeted molecular delivery in combination with electroporation. acetylsalicylic acid acetic acid surface active drug membrane permeability salicylic acid melanoma cells American Studies Arts and Humanities
36	Optimization of cryoprotectant addition and removal procedures for vitrification of adherent mammalian cells Fry Davidson, Allyson 14 February 2015 (has links) Cryopreservation of adherent cells may be advantageous for cell types that are difficult to preserve in suspension or when it is necessary to preserve characteristics of the adherent cultured cells. Vitrification is a promising procedure for the preservation of adherent cells that prevents ice crystal formation and the resulting dissociation and morphological damage. To successfully vitrify adherent cells, high concentrations of CPA are required which increases the likelihood of osmotic and toxic damage. In this dissertation, we describe a rational design strategy that predicts mathematically optimized CPA addition and removal procedures based on the minimization of a toxicity cost function. These rationally designed procedures rely on the accurate knowledge of cell biophysical parameters. We validate an in situ calcein fluorescence quenching method for the determination of membrane permeability parameters for adherent cells. We also describe the determination of osmotic tolerance limits for adherent cells. We use rational design strategies to determine CPA addition and removal procedures for adherent endothelial cells, neuronal cells, and induced pluripotent stem cells as well as oocytes. Also, we provide experimental support for the feasibility of these methods using adherent endothelial cells. The mathematical methods and experimental procedures outlined in this dissertation are important tools for the design of addition and removal procedures for concentrated CPA solutions. This dissertation is an important step toward successful design and implementation of vitrification strategies for adherent cells and tissues. / Graduation date: 2013 / Access restricted to the OSU Community at author's request from Feb. 14, 2013 - Feb. 14, 2015 vitrification cryopreservation adherent membrane permeability rational design Cells -- Cryopreservation Cell adhesion Endothelial cells -- Cryopreservation Neurons -- Cryopreservation Cells -- Permeability
37	Post-transcriptional regulation of porin expression in Escherichia coli and its impact on antibiotic resistance / Régulées de manière post-transcriptionnelle de l'expression de la porine chez Escherichia coli et son impact sur la résistance aux antibiotiques Dam, Sushovan 15 November 2018 (has links) Chez les bactéries à Gram-négatif, l’imperméabilité de la membrane externe est un facteur majeur contribuant au développement de la résistance. Chez Escherichia coli, les porines OmpF et OmpC sont des protéines de la membrane externe qui forment des canaux pour la diffusion de petites molécules hydrophiles tels que les antibiotiques. L’expression des porines est soumise à une régulation fine, et des petits ARN non-codants (sRNAs, small RNAs) jouent un rôle important au niveau post-transcriptionnel. Dans ce cadre, et en utilisant E. coli comme bactérie modèle, les objectifs de mon travail de thèse étaient : (1) de caractériser la régulation du sRNA MicC et la co-régulation putative de la porine quiescente OmpN; (2) d’examiner l'effet global de MicC sur le transcriptome; (3) d’analyser l'impact de l'expression de MicC sur la sensibilité aux antibiotiques. Les résultats obtenus montrent l’induction de MicC en présence d'antibiotiques de la famille des β-lactamines, ou en l’absence du facteur sigma de réponse au stress de l’enveloppe sigmaE. Ces mêmes conditions activent aussi l'activité d'une fusion ompN-lacZ, indiquant une régulation transcriptionnelle commune de micC et ompN. Etant donnée la conservation de MicC chez les entérobactéries, nous avons effectué une étude par RNASeq pour déterminer l'impact de la surexpression de MicC sur le transcriptome d’E. coli et identifié 60 ARNm régulés par MicC en plus de sa cible initiale ompC. L'identification des spectres cibles globaux des sRNAs est importante pour comprendre leur importance dans la physiologie bactérienne, ici celui de MicC dans la résistance aux antibiotiques. / A major factor contributing to antimicrobial resistance is the inability of antibiotics to penetrate the bacterial outer membrane to reach their target. In Escherichia coli, the two abundantly expressed porins OmpF and OmpC form channels for diffusion of small hydrophilic molecules including antibiotics. The expression of porins is under complex regulation and the small regulatory RNAs (sRNAs) fine tune the porin expression level at post-transcriptional level. MicF and MicC are the two major sRNAs that negatively regulate expression of OmpF and OmpC, respectively. Interestingly, these two sRNAs are encoded next to porin gene, i.e. micF-ompC and micC-ompN, suggesting a dual regulation. Our goals in this work were: (1) to characterize the regulation of the sRNA MicC and the putative co-regulation of the quiescent porin OmpN in E. coli; (2) to examine the global effect of MicC on the E. coli transcriptome; (3) to analyze the impact of MicC expression on antibiotic susceptibility. Our work shows that the expression of micC was increased in the presence of carbapenems and cephalosporins and in an rpoE depleted mutant. The same conditions enhanced the expression of OmpN, suggesting a dual regulation of micC and ompN. We also performed RNA sequencing to determine the impact of MicC overexpression on E. coli transcriptome. This identified 60 mRNA targets negatively regulated by MicC apart from its original target. Identification of the global target spectra of MicC is of importance to understand its importance on the overall bacterial physiology, and more specifically on AMR. Entérobactéries Enveloppes bactériennes Perméabilité membranaire Résistance aux antibiotiques Porines Petits ARNs régulateurs non-Codants Enterobacteria Bacterial envelopes Membrane permeability Antibiotic resistance OM porins Small regulatory RNAs.
38	Refined <i>in vitro</i> Models for Prediction of Intestinal Drug Transport : Role of pH and Extracellular Additives in the Caco-2 Cell Model Neuhoff, Sibylle January 2005 (has links) <p>Drug transport across the intestinal epithelium is roughly predicted from permeability values obtained from Caco-2 cell monolayers. This thesis examines the important role of <i>pH</i> and extracellular additives for increasing the reliability and predictivity of the <i>in vitro</i> screening system, Caco-2.</p><p>It was shown that the passive transport of ionizable compounds may be biased by a false efflux or uptake component, when applying a physiological <i>pH</i>-gradient across the membrane. <i>pH</i> also affected the amount of compound available at the transporter-binding site. Therefore, <i>pH</i> dependence should be considered in studies of such compounds and of drug-drug interactions involving efflux transporters. It was also shown that proton-dependent apical uptake or basolateral efflux should be studied both with and without a <i>pH</i> gradient over the whole monolayers. </p><p>The two extracellular additives, bovine serum albumin (BSA) and the solubilizing agent, Cremophor<sup>®</sup> EL, also influenced Caco-2 permeabilities. BSA applied to the receiver side increases, and to the donor side decreases drug permeation according to the drug’s protein binding capacity. Thus, the absorptive transport for both passive and active compounds is favoured, giving a physiologically sound improvement of the Caco-2 cell model. Inclusion of BSA increased both the predictivity and quality of permeability studies, particularly of highly lipophilic, BCS class II compounds. Passive and active transport processes could also be distinguished after accounting for unbound concentrations. The overall effect of Cremophor<sup>®</sup> EL on the permeability to a drug was compound-specific and probably dependent on micellar incorporation. Cremophor<sup>®</sup> EL can therefore not be recommended. </p><p>Neither <i>pH</i> nor BSA affect the functionality of transporters such as P-glycoprotein. However, efflux ratios of ionizable or protein bound drugs are altered in the presence of a <i>pH</i>-gradient or BSA, indicating that an experimental system without protein or <i>pH</i> gradient can over- or underestimate active and passive efflux in drug transport.</p> Pharmacy Caco-2 cells membrane permeability drug permeation drug efflux ratios drug uptake ratios Cremophor EL bovine serum albumin pH-dependent permeability drug transport FARMACI PHARMACY FARMACI
39	Finite-Difference Model of Cell Dehydration During Cryopreservation Carnevale, Kevin A. 30 April 2004 (has links) A numerical model for describing the kinetics of intracellular water transport during cryopreservation was developed. As ice is formed outside the cell, depleting the extracellular liquid of water, the cell will experience an osmotic pressure difference across its membrane, which causes cell dehydration and concomitant shrinkage. Although Mazur (1963) has previously modeled this phenomenon as a two-compartment system with membrane limited transport, the assumption of well-mixed compartments breaks down at large Biot numbers. Therefore, we have developed a numerical solution to this moving-boundary problem, including diffusive transport in the intracellular liquid, in addition to the osmotically driven membrane flux. Our model uses a modified Crank-Nicolson scheme with a non-uniform Eulerian-Lagrangian grid, and is able to reproduce predictions from Mazurs model at low Biot numbers, while generating novel predictions at high Biot numbers. Given that cell damage may result from excessive water loss, our model can be used to predict freezing methods that minimize the probability of cell injury during the cryopreservation process. Cryobiology Cryopreservation Membrane permeability Vitrification Membrane-limited water transport Diffusion-limited water transport Crank-Nicolson Biot number Peclet number Dimensional analysis Cell dehydration Mathematical models Finite differences
40	The role of EmhABC efflux pump in Pseudomonas fluorescens LP6a Adebusuyi, Abigail A Unknown Date No description available. RND efflux pumps EmhABC Pseudomonas fluorescens Physico-chemical factors Membrane modification Polycyclic aromatic hydrocarbons Environmental pollutants Membrane permeability Membrane fatty acids Biodegradation

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