Glucose-enhanced oxidative stress resistance-A protective anticipatory response that enhances the fitness of Candida albicans during systemic infection

Acknowledgments We thank Carol Munro for her generosity in providing the plasmids for barcoding C. albicans, and Victoria Brown, Gerry Fink, Bill Fonzi, Guanghua Huang, Joachim Morschauser, Suzanne Noble, Jesus Pla, Patrick Van Dijck, Reinhard Würzner and Oscar Zaragoza for providing strains. We thank our colleagues in the MRC Centre for Medical Mycology and the Aberdeen Fungal Group for insightful discussions. We are grateful to the following Research Facilities for their advice and support: the Centre for Genome Enabled Biology at the University of Aberdeen, and the Sequencing Facility at the University of Exeter for help with the barcode sequencing. Funding: This work was funded by a programme grant to AJPB, NARG, LEP and MGN from the UK Medical Research Council [www.mrc.ac.uk: MR/M026663/1, MR/M026663/2] and by PhD studentships to DEL from the Universities of Aberdeen and Exeter. The work was also supported by the Medical Research Council Centre for Medical Mycology (MR/N006364/1, MR/N006364/2). NARG acknowledges Wellcome support of Senior Investigator (101873/Z/13/Z, 224323/Z/21/Z) and Collaborative (200208/A/15/Z, 215599/Z/19/Z) Awards. MGN was supported by an ERC Advanced Grant (833247) and a Spinoza Grant of the Netherlands Organization for Scientific Research. The barcode sequencing performed by the Exeter Sequencing Facility utilised equipment funded by Wellcome (218247/Z/19/Z). The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.Peer reviewedPublisher PD

The Plesiomonas shigelloides wbO1 gene cluster and the role of O1-antigen LPS in pathogenicity

The Plesiomonas shigelloides 302-73 strain (serotype O1) wb gene cluster encodes 15 proteins which are consistent with the chemical structure of the O1-antigen lypopolysaccharide (LPS) previously described for this strain. The P. shigelloides O1-antigen LPS export uses the Wzy-dependent pathway as correspond to heteropolysaccharides structures. By the isolation of two mutants lacking this O1-antigen LPS, we could establish that the presence of the O1-antigen LPS is crucial for to survive in serum mainly to become resistant to complement. Also, it is an important factor in the bacterial adhesion and invasion to some eukaryotic cells, and in the ability to form biofilms. This is the first report on the genetics from a P. shigelloides O-antigen LPS cluster (wb) not shared by Shigella like P. shigelloides O17, the only one reported until now

Nature of b-1,3-Glucan-Exposing Features on Candida albicans Cell Wall and Their Modulation

Funding Information: This work was supported by a programme grant from the UK Medical Research Council (MR/M026663/1; MR/M026663/2) and by the Medical Research Council Centre for Medical Mycology (MR/N006364/1; MR/N006364/2). NARG acknowledges Wellcome support for a Senior Investigator (101873/Z/13/Z), Collaborative (200208/A/15/Z; 215599/Z/19/Z) and Strategic Awards (097377/Z11/Z). MGN was supported by an ERC Advanced Grant (833247) and a Spinoza Grant of the Netherlands Organization for Scientific Research.Peer reviewedPublisher PD

Comparative functional analysis of aquaporins/glyceroporins in mammals and anurans

Maintenance of fluid homeostasis is critical to establishing and maintaining normal physiology. The landmark discovery of membrane water channels (aquaporins; AQPs) ushered in a new area in osmoregulatory biology that has drawn from and contributed to diverse branches of biology, from molecular biology and genomics to systems biology and evolution, and from microbial and plant biology to animal and translational physiology. As a result, the study of AQPs provides a unique and integrated backdrop for exploring the relationships between genes and genome systems, the regulation of gene expression, and the physiologic consequences of genetic variation. The wide species distribution of AQP family members and the evolutionary conservation of the family indicate that the control of membrane water flux is a critical biological process. AQP function and regulation is proving to be central to many of the pathways involved in individual physiologic systems in both mammals and anurans. In mammals, AQPs are essential to normal secretory and absorptive functions of the eye, lung, salivary gland, sweat glands, gastrointestinal tract, and kidney. In urinary, respiratory, and gastrointestinal systems, AQPs are required for proper urine concentration, fluid reabsorption, and glandular secretions. In anurans, AQPs are important in mediating physiologic responses to changes in the external environment, including those that occur during metamorphosis and adaptation from an aquatic to terrestrial environment and thermal acclimation in anticipation of freezing. Therefore, an understanding of AQP function and regulation is an important aspect of an integrated approach to basic biological research

Intra-colony channels in E. coli function as a nutrient uptake system

The ability of microorganisms to grow as aggregated assemblages has been known for many years, however their structure has remained largely unexplored across multiple spatial scales. The development of the Mesolens, an optical system which uniquely allows simultaneous imaging of individual bacteria over a 36 mm2 field of view, has enabled the study of mature Escherichia coli macro-colony biofilm architecture like never before. The Mesolens enabled the discovery of intra-colony channels on the order of 10 μm in diameter, that are integral to E. coli macro-colony biofilms and form as an emergent property of biofilm growth. These channels have a characteristic structure and re-form after total mechanical disaggregation of the colony. We demonstrate that the channels are able to transport particles and play a role in the acquisition of and distribution of nutrients through the biofilm. These channels potentially offer a new route for the delivery of dispersal agents for antimicrobial drugs to biofilms, ultimately lowering their impact on public health and industry

Evaluation of Advanced PSA and Oxygen Combustion System for Industrial Furnace Applications

The performance of a pilot scale advanced PSA oxygen generation system and a low NOx oxygen burner was evaluated for industrial furnace applications. The PSA system employs a two-bed vacuum cycle design with a capacity of 1.3 TPD at 90% O2 purity. The oxygen generated from the PSA system was directly fed to a Linde "A" Burner with a nominal capacity of 1 MMBTU/hr. The PSA system has shown an excellent reliability, a low power consumption, and good turndown characteristics. The burner produced a uniform temperature profile in a test furnace operated between 2000°F and 2700°F. NOx emissions as low as 0.05 lb/MMBTU were measured at furnace temperatures up to 2780°F

Étude de la réponse métabolique de Pseudomonas syringae 32b-74 isolée des nuages à une exposition sub –létale au mercure.

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