2,134 research outputs found
The Dimerization Interface in VraR is Essential to Induction of the Cell Wall Stress Response in Staphylococcus aureus: A potential Druggable Target
Background
Staphylococcus aureus remains a medical challenge in the treatment of bacterial infections. It has acquired resistance to commonly used antibiotics, and to those considered to be the last weapons in treating staphylococcal infections, such as vancomycin. Studies have revealed that S. aureus is capable of mounting a rapid response to antibiotics that target cell wall peptidoglycan biosynthesis, such as β-lactams and vancomycin. The two-component system VraSR has been linked to the coordination of this response. VraS is a histidine kinase that undergoes autophosphorylation in the presence of signals elicited upon cell wall damage and it then transfers its phosphoryl group to VraR. VraR is a response regulator protein that functions as a transcription factor. Phosphorylation of VraR leads to its dimerization, which is required for optimum binding to its target promoters. Two-component systems have been targeted for the development of antibacterial agents. Deletion of the vraS or vraR gene has been shown to re-sensitize S. aureus to β-lactams and vancomycin.
Results
In this study, we explored perturbation of the VraR phosphorylation-induced activation as a means to inhibit the VraSR-mediated signal transduction pathway. We show that dimerization of VraR is essential for the phosphorylation-induced activation of VraR. A single point mutation in the dimerization interface of VraR, in which Met13 was replaced by Ala, led to the inability of VraR to dimerize and to bind optimally to the target promoter. The consequences of these in vitro molecular deficiencies are equally dramatic in vivo. Complementation of a vraR deletion S. aureus strain with the vraRM13Ala mutant gene failed to induce the cell wall stress response.
Conclusions
This study highlights the potential of targeting the phosphorylation-induced dimerization of VraR to disrupt the S. aureus cell wall stress response and in turn to re-sensitize S. aureus to β-lactams and vancomycin.York University Librarie
The experiences of the young practicing British Iranian Athna-asheri Shia Muslims in London
The Young Practicing British Iranians or YPBIs which is the focus of this work-based research are members of the British-Iranian community with deep religious practical adherence and a tendency toward Shia Islam. The purpose of this study is to shed more light on the characteristics of this group and find out about their religious, social, and cultural needs and expectations from the Islamic organizations and other relevant authorities based in London.
To achieve this goal I gathered data and information from the target group about their experiences in the process of their daily activities within the in-group communication with the Iranian community as well as their intercultural communication with the rest of the members of the British society. In this study, I discuss social and cultural issues faced by this group such as diasporic and religious matters, as well as identity problems arising from their adaptation and integration in London. The results and findings of this study, are presented in the form of recommendations and suggestions, which can be used by relevant and responsible Iranian and British organizations based in London to update and adjust their services.
Overall, it can be concluded that YPBIs are a group of enthusiastic individuals who are well-adapted to the multicultural British society, observing and respecting domestic laws and norms, while also preserving their own ethnic, cultural, and religious values. They have a positive tendency towards socialization and communication with the wider population, as long as their cultural and particularly religious beliefs are respected and protected. In terms of methodology, I mainly used a combination of different research approaches such as direct observation, and data collection by applying qualitative questionnaires and conducting semi-structured interviews (mixed method) within the framework of ethnography
Spontaneous thermal expansion of nematic elastomers
We study the monodomain (single-crystal) nematic elastomer materials, all
side-chain siloxane polymers with the same mesogenic groups and crosslinking
density, but differing in the type of crosslinking. Increasing the proportion
of long di-functional segments of main-chain nematic polymer, acting as network
crosslinking, results in dramatic changes in the uniaxial equilibrium thermal
expansion on cooling from isotropic phase. At higher concentration of main
chains their behaviour dominates the elastomer properties. At low concentration
of main-chain material, we detect two distinct transitions at different
temperatures, one attributed to the main-chain, the other to the side-chain
component. The effective uniaxial anisotropy of nematic rubber, r(T)
proportional to the effective nematic order parameter Q(T), is given by the
average of the two components and thus reflects the two-transition nature of
thermal expansion. The experimental data is compared with the theoretical model
of ideal nematic elastomers; applications in high-amplitude thermal actuators
are discussed in the end
Isolation and Molecular Detection of Gram Negative Bacteria Causing Urinary Tract Infection in Patients Referred to Shahrekord Hospitals, Iran
Background: Urinary Tract Infections (UTI), and their complications, cause serious health problems, which affect millions of people every year. Infections of the urinary tract are the second most common type of infection in the body and approximately 20% of women are especially prone to UTIs for reasons not yet well understood. Urinary Tract Infections in men are not as common as in women yet can be very serious when they do occur. Accurate identification of bacterial isolates is an essential task of the clinical microbiology laboratory. Objectives: The purpose of this study was to determine the incidence and variety of the causative microbial agents of UTIs in patients who had referred to a medical laboratory of Kashani and Hajar hospital in Shahrekord, Iran. Patients and Methods: In this cross-sectional study 147 urine samples of patients (urine test results were positive for UTIs) were examined during April to September 2013. A total of 147 urine samples of patients with clinical symptoms of UTI who had been referred to a medical laboratory of Kashani and Hajar hospital in Shahrekord (Iran), were collected and processed immediately for laboratory analysis. Results: Escherichia coli was identified as the most common causative agent of UTIs (51.70% of total isolates in both sexes), followed by Klebsiella pneumoniae (K. Pneumoniae) (16.32%). Frequency of Proteus spp., Acinetobacter spp., Entrobacter spp., Citrobacter spp., Pseudomonas aeruginosa (P. aeruginosa) and Providencia spp. was 10.88%, 6.12%, 5.44%, 4.08%, 3.40% and 2.04%, respectively. Statistical analysis by Fisher exact test showed that there was no significant relationship between the type of bacteria and gender (P > 0.05). Chi square test showed that there was no significant relationship between the type of bacteria and the use of catheter and age group (P > 0.05). However, there was a significant relationship between the type of bacteria and the history of hospitalization (P > 0.05). Conclusions: Our findings implied that a wide range of bacteria could be involved in creating urinary tract infection in patients referred to a medical laboratory of Kashani and Hajar hospital in Shahrekord, Iran. Regardless of age, sex and the use of catheter, a wide range of bacteria could be involved in urinary tract infections
Centralized and Cooperative Transmission of Secure Multiple Unicasts using Network Coding
We introduce a method for securely delivering a set of messages to a group of
clients over a broadcast erasure channel where each client is interested in a
distinct message. Each client is able to obtain its own message but not the
others'. In the proposed method the messages are combined together using a
special variant of random linear network coding. Each client is provided with a
private set of decoding coefficients to decode its own message. Our method
provides security for the transmission sessions against computational
brute-force attacks and also weakly security in information theoretic sense. As
the broadcast channel is assumed to be erroneous, the missing coded packets
should be recovered in some way. We consider two different scenarios. In the
first scenario the missing packets are retransmitted by the base station
(centralized). In the second scenario the clients cooperate with each other by
exchanging packets (decentralized). In both scenarios, network coding
techniques are exploited to increase the total throughput. For the case of
centralized retransmissions we provide an analytical approximation for the
throughput performance of instantly decodable network coded (IDNC)
retransmissions as well as numerical experiments. For the decentralized
scenario, we propose a new IDNC based retransmission method where its
performance is evaluated via simulations and analytical approximation.
Application of this method is not limited to our special problem and can be
generalized to a new class of problems introduced in this paper as the
cooperative index coding problem
UV-isomerisation in nematic elastomers as a route to photo-mechanical transducer
The macroscopic shape of liquid crystalline elastomers strongly depends on
the order parameter of the mesogenic groups. This order can be manipulated if
photoisomerisable groups, e.g. containing N=N bonds, are introduced into the
material. We have explored the large photo-mechanical response of such an
azobenzene-containing nematic elastomer at different temperatures, using force
and optical birefringence measurements, and focusing on fundamental aspects of
population dynamics and the related speed and repeatability of the response.
The characteristic time of ``on'' and ``off'' regimes strongly depends on
temperature, but is generally found to be very long. We were able to verify
that the macroscopic relaxation of the elastomer is determined by the nematic
order dynamics and not, for instance, by the polymer network relaxation.Comment: Latex (EPJE class) 12 figure
The Impact of Selected Gene Mutations to the Activation and DNA Binding Activity of the Transcription Factor VraR
VraSR two-component system in S. aureus senses bacterial cell wall damage caused by antibiotics (vancomycin or -lactams) and regulates a set of genes. We have undertaken the study of the role of certain amino acids in the function of VraR, which undergo mutation in clinical S. aureus resistant strains and analyzed their effects on the VraSR signal transduction mechanism. In particular, we have looked at the role of Met-13 in VraR phosphorylation induced activation. M13A failure to be activated by phosphorylation resulted in a weaker binding to DNA. Moreover, we investigated VraR E59D, S164P, A113V, and S164A binding activity to the PvraSR by DNase-I footprinting. Finally, in vivo studies on the effects of substitutions of the above residues on the mRNA level of a number of VraSR regulon genes (fmtA, pbp2, and sgtb) provide insights as to how substitutions at certain positions may be beneficial to the S. aureus resistance to antibiotics
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