Wardhamann9966

Fluorescence and isothermal titration calorimetry (ITC) studies revealed that H57 is responsible for Mg2+ binding in the absence of substrates. Thus, the protonated form of His57 at acidic pH 5.5 destabilizes the Mg2+ binding in the PAS domain, which is an essential requirement in the wild-type LmPAS-PGK for a conformational alteration in the sensor domain that, sequentially, activates the phosphoglycerate kinase domain, resulting in the synthesis of higher amounts of ATP. This article is protected by copyright. All rights reserved.Exosomes, as natural occurring vesicles, play highly important roles in the behavior and fate of ischemic diseases and different tumors. Secretion, composition, and function of exosomes are remarkably influenced by hypoxia in ischemic diseases and tumor microenvironment. Exosomes secreted from hypoxic cells affect development, growth, angiogenesis, and progression in ischemic diseases and tumors through a variety of signaling pathways. In this review article, we discuss how hypoxia affects the quantity and quality of exosomes, and review the mechanisms by which hypoxic cell-derived exosomes regulate ischemic cell behaviors in both cancerous and noncancerous cells. © 2020 International Union of Biochemistry and Molecular Biology.Electrochemical studies of CO2 conversion by molecular catalysts are typically carried out in a narrow range of near-ambient CO2 pressures wherein low CO2 solubilities in the liquid phase can limit the rate of CO2 reduction. Here, we show that five-fold rate enhancements are enabled by pairing CO2-eXpanded Electrolytes (CXEs), a class of media that accommodate multimolar concentrations of CO2 in organic solvents at modest pressures, with a homogeneous molecular electrocatalyst, Re(CO)3(bpy)Cl (1, bpy = 2,2´-bipyridyl). Analysis of cyclic voltammetry data reveals pressure-tunable rate behavior, with first-order kinetics at moderate CO2 pressures giving way to zero-order kinetics at higher pressures. The significant enhancement in the space-time yield of CO demonstrates that CXEs offer a simple yet powerful strategy for unlocking the intrinsic potential of molecular catalysts by mitigating CO2 solubility limitations commonly encountered in conventional liquid electrolytes. Moreover, our findings reveal that 1, a workhorse molecular catalyst, performs with intrinsic kinetic behavior that is competitive with fast enzymes under optimal conditions in CXEs. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.Nano- to micrometer-scale surface roughness contributes to the hydrophobicity of materials as discussed often in terms of superhydrophobicity. We report here that as little as 1 wt% of α , β and γ - cyclodextrins (CDs) can disperse carbon nanohorn aggregates (CNHa) as surfactants in water by binding on their pointed tips. The binding mode was visually demonstrated using single-molecule atomic resolution real-time electron microscopy (SMART-EM). The SMART-EM data provided an estimation of the equilibrium constant of the CD binding to be close to that of adamantane ammonium chloride to β-CD. A qualitative study on the rate of decomplexation of α , β and γ -CDs from CNHa suggests a substantial mechanistic difference in their binding mode to the CNH tips. A sequence of α -CD complexation and decom plexation allows us to purify CNHa by selectively removing graphitic ball-shaped impurity (GB) . Upon treatment with NaNH 2 , the purified CNHa produce GB-free amino-CNHa where the tips are functionalized with NH 2 groups. © 2020 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.Saccharomyces cerevisiae offers an attractive platform for synthesis of biofuels and biochemical; however, robust strains that can withstand high substrate concentration and fermentation conditions are required. To improve the yield and productivity of bioethanol, modification of glucose metabolism and cellular stress adaptation was investigated. Specifically, we characterized the role of Znf1 transcription factor in metabolic regulation of glucose. Here, Znf1 was first shown to activate key genes in glycolysis, pyruvate metabolism and alcoholic fermentation when glucose is provided as the sole carbon source. Under conditions of high glucose (20 g/L), overexpression of ZNF1 accelerated glucose consumption with only 0.67-0.80% of glucose remaining after 24 or 36 h of fermentation. Importantly, ZNF1 overexpression increased ethanol concentrations by 14-24% and achieved a maximum ethanol concentration of 76.12-88.60 g/L. Ethanol productivity was increased to 3.17-3.69 in strains overexpressing ZNF1 compared to 2.42-3.35 and 2.94-3.50 for the znf1Δ and wild-type strains, respectively. Moreover, strains overexpressing ZNF1 also displayed enhanced tolerance to osmotic and weak-acid stresses, important trait in alcoholic fermentation. Overexpresssion of key transcriptional activators of genes in glycolysis and stress responses appears to be an effective strategy to improve bioethanol productivity and enhance strain robustness. This article is protected by copyright. All rights reserved. This article is protected by copyright. All rights reserved.Type IV pili (T4P) are virulence factors in various pathogenic bacteria of animals and plants that play important roles in twitching motility, swimming motility, biofilm formation, and adhesion to host cells. Here, we genetically characterized functional roles of a putative T4P assembly protein TapV (Rsc1986 in reference strain GMI1000) and its homologue Rsp0189, which shares 58% amino acid identity with TapV, in Ralstonia solanacearum. Deletion of tapV, but not rsp0189, resulted in significantly impaired twitching motility, swimming motility, and adhesion to tomato roots, which are consistent as phenotypes of the pilA mutant (a known R. solanacearum T4P-deficient mutant). However, unlike the pilA mutant, the tapV mutant produced more biofilm than the wild-type strain. Our gene expression studies revealed that TapV, but not Rsp0189, is important for expression of a type III secretion system (T3SS, a pathogenicity determinant of R. solanacearum) both in vitro and in planta, but it is T4P independent. We further revealed that TapV affected the T3SS expression via the PhcA-TapV-PrhG-HrpB pathway, consistent with previous reports that PhcA positively regulates expression of pilA and prhG. Moreover, deletion of tapV, but not rsp0189, significantly impaired the ability to migrate into and colonize xylem vessels of host plants, but there was no alteration in intercellular proliferation of R. solanacearum in tobacco leaves, which is similar to the pilA mutant. The tapV mutant showed significantly impaired virulence in host plants. This is the first report on the impact of T4P components on the T3SS, providing novel insights into our understanding of various biological functions of T4P and the complex regulatory pathway of T3SS in R. solanacearum. © 2020 The Authors. Molecular Plant Pathology published by British Society for Plant Pathology and John Wiley & Sons Ltd.AIM The aim of the study was to assess long-term consequences of central nervous system (CNS) prophylaxis in patients with high-risk ALL (HR-ALL) treated according to ALL IC-BFM 2002 and to compare observed abnormalities in patients who underwent allogeneic hematopoietic stem cell transplantation (allo-HSCT) with those who received only prophylactic CNS irradiation (12 Gy) and with control group. PATIENTS AND METHODS We studied 29 patients with HR-ALL in CR1 after treatment according to protocol ALL IC-BFM 2002 (14 with allo-HSCT conditioned with fractionated total body irradiation [FTBI] and 15 without HSCT) and 16 children with newly diagnosed ALL (control group). The median time from therapy completion to evaluation was 5 years. To assess brain status, volumetric T1-weighted sequences of magnetic resonance imaging were used. Neuropsychological assessment based on battery neuropsychological tests. RESULTS Transplanted patients had significantly lower volumes of white and gray matter (P = .048 and P  less throphylactic CNS- radiotherapy only. © 2020 Wiley Periodicals, Inc.PURPOSE The plan check tool (PCT) is the result of a multi-institutional collaboration to jointly develop a flexible automated plan checking framework designed with the versatility to be shared across collaborating facilities while supporting the individual differences between practices. We analyze the effect that PCT has had on the efficiency and effectiveness of initial chart checks at our institution. METHODS AND MATERIALS Data on errors identified during initial chart checks were acquired during two time periods before the introduction of PCT in the clinic (6/24/2015 to 7/31/2015, 187 checks) and post-clinical release (4/14/2016 to 5/2/2016, 186 checks). During each time period, human plan checkers were asked to record all issues that they either manually detected or that were detected by PCT as well as the amount of time, less breaks, or interruptions, it took to check each plan. RESULTS After the clinical release of PCT, there was a statistically significant decrease in the number of issues recorded by the human plan checkers both related to checks explicitly performed by PCT (13 vs 50, P  less then  0.001) and in issues identified overall (127 vs 200, P  less then  0.001). The mean and medium time for a plan check decreased by 20%. CONCLUSIONS The use of a multi-institutional, configurable, automated plan checking tool has resulted in both substantial gains in efficiency and moving error detection to earlier points in the planning process, decreasing their likelihood that they reach the patient. The sizeable startup effort needed to create this tool from scratch was mitigated by the sharing, and subsequent co-development, of software code from a peer institution. © 2020 The Authors. Journal of Applied Clinical Medical Physics published by Wiley Periodicals, Inc. on behalf of American Association of Physicists in Medicine.Following the outbreak in China, the Lombardy region of Italy has become one of the areas of highest incidence of severe acute respiratory syndrome Coronavirus 2 (SARS-CoV-2). As the outbreak grew to a pandemic, many centres worldwide raised the concern that immunocompromised patients may be at high risk of developing a severe respiratory disease called COVID-19. Unlike common viral agents (such as Adenovirus, Rhinovirus, Norovirus, Influenza, Respiratory Syncytial Virus), Coronaviruses have not shown to cause a more severe disease in immunosuppressed patients. For this family of viruses the host innate immune response appears the main driver of lung tissue damage during infection. This article is protected by copyright. All rights reserved.INTRODUCTION Despite of the wide evidence of use fractional flow reserve (FFR), isolated angiography evaluation is still the main tool to indicate percutaneous coronary intervention. Quantitative flow ratio (QFR) is a new functional index to assess functional significance. Recently, few studies have showed the capacity of QFR to predict significance stenosis. The aim of this research has been to describe the evidence of QFR in this clinical setting, to analyze the global diagnosis accuracy of QFR versus FFR and to compare the difference in feasibility between retrospective and prospective analysis. METHODS AND RESULTS Systematic review of literature was performed. selleck products Eligible studies for the meta-analysis were considered those directly evaluating de QFR versus FFR. Pooled values of diagnosis test and summary receiver operator curve were calculated. Main causes of not-perform QFR analysis according to study design were also evaluated. Sixteen studies were included. Good correlation and agreement were showed. Global sensibility, specificity, PPV, and NPV were 0.