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121.
Margrete Solheim Mari C Brekke Lars G Snipen Rob JL Willems Ingolf F Nes Dag A Brede 《BMC microbiology》2011,11(1):3
Background
Enterococci rank among the leading causes of nosocomial infections. The failure to identify pathogen-specific genes in Enterococcus faecalis has led to a hypothesis where the virulence of different strains may be linked to strain-specific genes, and where the combined endeavor of the different gene-sets result in the ability to cause infection. Population structure studies by multilocus sequence typing have defined distinct clonal complexes (CC) of E. faecalis enriched in hospitalized patients (CC2, CC9, CC28 and CC40). 相似文献122.
Duijnisveld BJ Bigot A Beenakker KG Portilho DM Raz V van der Heide HJ Visser CP Chaouch S Mamchaoui K Westendorp RG Mouly V Butler-Browne GS Nelissen RG Maier AB 《Arthritis research & therapy》2011,13(6):R207-10
Introduction
Chronic inflammation is a profound systemic modification of the cellular microenvironment which could affect survival, repair and maintenance of muscle stem cells. The aim of this study was to define the role of chronic inflammation on the regenerative potential of satellite cells in human muscle.Methods
As a model for chronic inflammation, 11 patients suffering from rheumatoid arthritis (RA) were included together with 16 patients with osteoarthritis (OA) as controls. The mean age of both groups was 64 years, with more females in the RA group compared to the OA group. During elective knee replacement surgery, a muscle biopsy was taken from the distal musculus vastus medialis. Cell populations from four RA and eight OA patients were used for extensive phenotyping because these cell populations showed no spontaneous differentiation and myogenic purity greater than 75% after explantation.Results
After mononuclear cell explantation, myogenic purity, viability, proliferation index, number of colonies, myogenic colonies, growth speed, maximum number of population doublings and fusion index were not different between RA and OA patients. Furthermore, the expression of proteins involved in replicative and stress-induced premature senescence and apoptosis, including p16, p21, p53, hTERT and cleaved caspase-3, was not different between RA and OA patients. Mean telomere length was shorter in the RA group compared to the OA group.Conclusions
In the present study we found evidence that chronic inflammation in RA does not affect the in vitro regenerative potential of human satellite cells. Identification of mechanisms influencing muscle regeneration by modulation of its microenvironment may, therefore, be more appropriate. 相似文献123.
LeBlanc MS Lima A Montello P Kim T Meagher RB Merkle S 《International journal of phytoremediation》2011,13(7):657-673
Arsenic is a metalloid that occurs naturally at parts per million (ppm) levels in the earth's crust. Natural and human activities have contributed to arsenic mobilization and increased concentration in the environment, such that World Health Organization guidelines for arsenic levels in drinking water are exceeded at many locations, worldwide. This translates into an increased risk of arsenic-related illnesses for millions of people. Recent studies demonstrate that increasing thiol-sinks in transgenic plants by overexpressing the bacterial gamma-glutamylcysteine synthetase (ECS) gene results in a higher tolerance and accumulation of metals and metalloids such as cadmium, mercury, and arsenic. We used Agrobacterium-mediated transformation to genetically engineer eastern cottonwood with a bacterial ECS gene. Eastern cottonwood plants expressing ECS had elevated thiol group levels, consistent with increased ECS activity. In addition, these ECS-expressing plants had enhanced growth on levels of arsenate toxic to control plants in vitro. Furthermore, roots of ECS-expressing plants accumulated significantly more arsenic than control roots (approximately twice as much), while shoots accumulated significantly less arsenic than control shoots (approximately two-thirds as much). We discuss potential mechanisms for shifting the balance of plant arsenic distribution from root accumulation to shoot accumulation, as it pertains to arsenic phytoremediation. 相似文献
124.
Protein-based polymers are increasingly being used in biomaterial applications because of their ease of customization and potential monodispersity. These advantages make protein polymers excellent candidates for bioanalytical applications. Here we describe improved methods for producing drag-tags for free-solution conjugate electrophoresis (FSCE). FSCE utilizes a pure, monodisperse recombinant protein, tethered end-on to a ssDNA molecule, to enable DNA size separation in aqueous buffer. FSCE also provides a highly sensitive method to evaluate the polydispersity of a protein drag-tag and thus its suitability for bioanalytical uses. This method is able to detect slight differences in drag-tag charge or mass. We have devised an improved cloning, expression, and purification strategy that enables us to generate, for the first time, a truly monodisperse 20 kDa protein polymer and a nearly monodisperse 38 kDa protein. These newly produced proteins can be used as drag-tags to enable longer read DNA sequencing by free-solution microchannel electrophoresis. 相似文献
125.
Michael M. Meagher Javier G. Seravalli S. Todd Swanson Roger G. Ladd Yogender P. Khasa Mehmet Inan Jay C. Harner Scott K. Johnson Kevin Van Cott Changhong Lindsey Robert Wannemacher Leonard A. Smith 《Biotechnology progress》2011,27(4):1036-1047
Ricin is a potent toxin and a potential bioterrorism weapon with no specific countermeasures or vaccines available. The holotoxin is composed of two polypeptide chains linked by a single disulfide bond: the A‐chain (RTA), which is an N‐glycosidase enzyme, and the B‐chain (RTB), a lectin polypeptide that binds galactosyl moieties on the surface of the mammalian target cells. Previously (McHugh et al.), a recombinant truncated form of RTA (rRTA1‐33/44‐198 protein, herein denoted RVEa?) expressed in Escherichia coli using a codon‐optimized gene was shown to be non‐toxic, stable, and protective against a ricin challenge in mice. Here, we describe the process development and scale‐up at the 12 L fermentation scale, and the current Good Manufacturing Practice (cGMP)‐compliant production of RVEc? at the 40 L scale. The average yield of the final purified bulk RVEc? is approximately 16 g/kg of wet cell weight or 1.2 g/L of fermentation broth. The RVEc? was >99% pure by three HPLC methods and SDS‐PAGE. The intact mass and peptide mapping analysis of RVEc? confirmed the identity of the product and is consistent with the absence of posttranslational modifications. Potency assays demonstrated that RVEc? was immunoprotective against lethal ricin challenge and elicited neutralizing anti‐ricin antibodies in 95–100% of the vaccinated mice. Published 2011 American Institute of Chemical Engineers Biotechnol. Prog., 2011. 相似文献
126.
Quantitative analysis of tissue folate using ultra high-performance liquid chromatography tandem mass spectrometry 总被引:1,自引:0,他引:1
The tissue distribution of folate in its numerous coenzyme forms may influence the development of disease at different sites. For instance, the susceptibility of human colonic mucosa to localized folate deficiency may predispose to the development of colorectal cancer. We report a sensitive and robust ultra high-performance liquid chromatography (UHPLC) tandem mass spectrometry method for quantifying tissue H4folate, 5-CH3-H4folate, 5-CHO-H4folate, folic acid, and 5,10-CH+-H4folate concentration. Human colonic mucosa (20–100 mg) was extracted using lipase and conjugase enzyme digestion. Rapid separation of analytes was achieved on a UHPLC 1.9-μm C18 column over 7 min. Accurate quantitation was performed using stable isotopically labeled (13C5) internal standards. The instrument response was linear over physiological concentrations of tissue folate (R2 > 0.99). Limits of detection and quantitation were less than 20 and 30 fmol on column, respectively, and within- and between-run imprecision values were 6–16%. In colonic mucosal samples from 73 individuals, the average molar distribution of folate coenzymes was 58% 5-CH3-H4folate, 20% H4folate, 18% formyl-H4folate (sum of 5-CHO-H4folate and 5,10-CH+-H4folate), and 4% folic acid. This assay would be useful in characterizing folate distribution in human and animal tissues as well as the role of deregulated folate homeostasis on disease pathogenesis. 相似文献
127.
We report a capillary-based DNA sequencing read length of 100 bases in 16 min using end-labeled free-solution conjugate electrophoresis (FSCE) with a monodisperse poly-N-substituted glycine (polypeptoid) as a synthetic drag-tag. FSCE enabled rapid separation of single-stranded (ss) DNA sequencing fragments with single-base resolution without the need for a viscous DNA separation matrix. Protein-based drag-tags previously used for FSCE sequencing, for example, streptavidin, are heterogeneous in molar mass (polydisperse); the resultant band-broadening can make it difficult to obtain the single-base resolution necessary for DNA sequencing. In this study, we synthesized and HPLC-purified a 70mer poly-N-(methoxyethyl)glycine (NMEG) drag-tag with a molar mass of - 11 kDa. The NMEG monomers that comprise this peptoid drag-tag are interesting for bioanalytical applications, because the methoxyethyl side chain's chemical structure is reminiscent of the basic monomer unit of polyethylene glycol, a highly biocompatible commercially available polymer, which, however, is not available in monodisperse preparation at an - 11 kDa molar mass. This is the first report of ssDNA separation and of four-color, base-by-base DNA sequencing by FSCE through the use of a chemically synthesized drag-tag. These results show that high-molar mass, chemically synthesized drag-tags based on the polyNMEG structure, if obtained in monodisperse preparation, would serve as ideal drag-tags and could help FSCE reach the commercially relevant read lengths of 100 bases or more. 相似文献
128.
Hanyoup Kim Mais J. Jebrail Anupama Sinha Zachary W. Bent Owen D. Solberg Kelly P. Williams Stanley A. Langevin Ronald F. Renzi James L. Van De Vreugde Robert J. Meagher Joseph S. Schoeniger Todd W. Lane Steven S. Branda Michael S. Bartsch Kamlesh D. Patel 《PloS one》2013,8(7)
Next-generation sequencing (NGS) is emerging as a powerful tool for elucidating genetic information for a wide range of applications. Unfortunately, the surging popularity of NGS has not yet been accompanied by an improvement in automated techniques for preparing formatted sequencing libraries. To address this challenge, we have developed a prototype microfluidic system for preparing sequencer-ready DNA libraries for analysis by Illumina sequencing. Our system combines droplet-based digital microfluidic (DMF) sample handling with peripheral modules to create a fully-integrated, sample-in library-out platform. In this report, we use our automated system to prepare NGS libraries from samples of human and bacterial genomic DNA. E. coli libraries prepared on-device from 5 ng of total DNA yielded excellent sequence coverage over the entire bacterial genome, with >99% alignment to the reference genome, even genome coverage, and good quality scores. Furthermore, we produced a de novo assembly on a previously unsequenced multi-drug resistant Klebsiella pneumoniae strain BAA-2146 (KpnNDM). The new method described here is fast, robust, scalable, and automated. Our device for library preparation will assist in the integration of NGS technology into a wide variety of laboratories, including small research laboratories and clinical laboratories. 相似文献
129.
HEXOKINASE1 (HXK1) from Arabidopsis (Arabidopsis thaliana) has dual roles in glucose (Glc) signaling and in Glc phosphorylation. The cellular context, though, for HXK1 function in either process is not well understood. Here we have shown that within normal experimental detection limits, AtHXK1 is localized continuously to mitochondria. Two mitochondrial porin proteins were identified as capable of binding to overexpressed HXK1 protein, both in vivo and in vitro. We also found that AtHXK1 can be associated with its structural homolog, F-actin, based on their coimmunoprecipitation from transgenic plants that overexpress HXK1-FLAG or from transient expression assays, and based on their localization in leaf cells after cryofixation. This association might be functionally important because Glc signaling in protoplast transient expression assays is compromised by disruption of F-actin. We also demonstrate that Glc treatment of Arabidopsis seedlings rapidly and reversibly disrupts fine mesh actin filaments. The possible roles of actin in HXK-dependent Glc signaling are discussed. 相似文献
130.
Background and Aims: The branch-base xylem structure of the endangered Wollemia nobiliswas anatomically investigated. Wollemia nobilis is probablythe only extant tree species that produces only first-orderbranches and where all branches are cleanly abscised. An investigationwas carried out to see if these unusual features might influencebranch-base xylem structure and water supply to the foliage. Methods: The xylem was sectioned at various distances along the branchbases of 6-year-old saplings. Huber values and relative theoreticalhydraulic conductivities were calculated for various regionsof the branch base. Key Results: The most proximal branch base featured a pronounced xylem constriction.The constriction had only 1431 % (average 21 %)of the cross-sectional area and 2042 % (average28 %) of the theoretical hydraulic conductivity of themore distal branch xylem. Wollemia nobilis had extremely lowHuber values for a conifer. Conclusions: The branch-base xylem constriction would appear to facilitatebranch abscission, while the associated Huber values show thatW. nobilis supplies a relatively large leaf area through a relativelysmall diameter pipe. It is tempting to suggestthat the pronounced decline of W. nobilis in the Tertiary isrelated to its unusual branch-base structure but physiologicalstudies of whole plant conductance are still needed. 相似文献