Relationship Between Chronic Mental and Immune Health

Relationship Between Chronic Mental Health Symptoms and Immune Health This literature review examines the relationship between immune health and mental health symptoms. More specifically, this review examines whether certain mental health disorders, chronic physical disorders, and auto immune disorders tend to co-occur. The author predicts that the current research will show that several mental illnesses are associated with poor immune health. The literature reveals that chronic medical disorders, such as coronary heart disease and diabetes have a high correlation with mental health disorders such as depression and schizophrenia. People with depression or schizophrenia are at higher risk to be diagnosed with heart disease or depression. Research suggests that in the process of fighting infection, our immune system releases cells that flood the blood stream with proteins and these proteins lead to high inflammatory responses. Studies indicate that individuals have varying levels of these proteins, and that having a higher level suggests a higher risk for developing chronic mental or physical illness. Other research suggests that those who have PTSD (post-traumatic stress disorder) or who have been exposed to traumatic stressors are at higher risk for developing gastrointestinal disease, fibromyalgia, chronic fatigue syndrome, musculoskeletal disorders and many other disorders. Research also the findings suggests that anti-inflammatory drugs used in conjunction with anti-psychotic treatments could be more effective in reducing symptoms of psychosis. Knowledge of this association would allow treatments to be tailored to the patient, based on whether immune deficiencies are present, in addition to the mental illness. Future research should focus on longitudinal studies and utilizing control groups in the studies

Soils of the Mantinea Loop Ord River Valley East Kimberley Western Australia

A brief assessment of the soils of 1,186 hectares in the Mantinea Loop, and their suitability for irrigated agriculture, was conducted in June 1994. Four map units based on soil, landform and vegetation were identified. The soils are mainly calcareous brown fine sandy loams. The landform is an alluvial plain, with numerous small depressions and channels caused by the meandering and flooding of the Ord River

Soils of the Ivanhoe West Bank East Kimberley Western Australia

A brief assessment of the soils of 2,064 ha of land on the Ivanhoe West Bank and their suitability for irrigated agriculture was conducted in May-June 1994. Sandy or loamy soils occur on broad levees adjacent to the Ord River, and areas of \u27black soil\u27 and \u27red soil\u27 plains occur behind these levees. Some areas of the red soil plain and levees are deeply dissected, and occasional active erosion is evident

Subacute sclerosing panencephalitis, a measles complication, in an internationally adopted child.

A healthy 13-year-old boy who had spent the first 4.5 years of his life in an orphanage in Thailand before adoption by an American couple became ill with subacute sclerosing panencephalitis and died several months later. The boy had most likely contracted wild-type measles in Thailand. Measles complications are a risk in international adoptions

High quality protein microarray using in situ protein purification

<p>Abstract</p> <p>Background</p> <p>In the postgenomic era, high throughput protein expression and protein microarray technologies have progressed markedly permitting screening of therapeutic reagents and discovery of novel protein functions. Hexa-histidine is one of the most commonly used fusion tags for protein expression due to its small size and convenient purification via immobilized metal ion affinity chromatography (IMAC). This purification process has been adapted to the protein microarray format, but the quality of <it>in situ </it>His-tagged protein purification on slides has not been systematically evaluated. We established methods to determine the level of purification of such proteins on metal chelate-modified slide surfaces. Optimized <it>in situ </it>purification of His-tagged recombinant proteins has the potential to become the new gold standard for cost-effective generation of high-quality and high-density protein microarrays.</p> <p>Results</p> <p>Two slide surfaces were examined, chelated Cu²⁺slides suspended on a polyethylene glycol (PEG) coating and chelated Ni²⁺slides immobilized on a support without PEG coating. Using PEG-coated chelated Cu²⁺slides, consistently higher purities of recombinant proteins were measured. An optimized wash buffer (PBST) composed of 10 mM phosphate buffer, 2.7 mM KCl, 140 mM NaCl and 0.05% Tween 20, pH 7.4, further improved protein purity levels. Using <it>Escherichia coli </it>cell lysates expressing 90 recombinant <it>Streptococcus pneumoniae </it>proteins, 73 proteins were successfully immobilized, and 66 proteins were <it>in situ </it>purified with greater than 90% purity. We identified several antigens among the <it>in situ</it>-purified proteins via assays with anti-<it>S. pneumoniae </it>rabbit antibodies and a human patient antiserum, as a demonstration project of large scale microarray-based immunoproteomics profiling. The methodology is compatible with higher throughput formats of <it>in vivo </it>protein expression, eliminates the need for resin-based purification and circumvents protein solubility and denaturation problems caused by buffer exchange steps and freeze-thaw cycles, which are associated with resin-based purification, intermittent protein storage and deposition on microarrays.</p> <p>Conclusion</p> <p>An optimized platform for <it>in situ </it>protein purification on microarray slides using His-tagged recombinant proteins is a desirable tool for the screening of novel protein functions and protein-protein interactions. In the context of immunoproteomics, such protein microarrays are complimentary to approaches using non-recombinant methods to discover and characterize bacterial antigens.</p

Recombinant expression and functional analysis of proteases from Streptococcus pneumoniae, Bacillus anthracis, and Yersinia pestis

<p>Abstract</p> <p>Background</p> <p>Uncharacterized proteases naturally expressed by bacterial pathogens represents important topic in infectious disease research, because these enzymes may have critical roles in pathogenicity and cell physiology. It has been observed that cloning, expression and purification of proteases often fail due to their catalytic functions which, in turn, cause toxicity in the <it>E. coli </it>heterologous host.</p> <p>Results</p> <p>In order to address this problem systematically, a modified pipeline of our high-throughput protein expression and purification platform was developed. This included the use of a specific <it>E. coli </it>strain, BL21(DE3) pLysS to tightly control the expression of recombinant proteins and various expression vectors encoding fusion proteins to enhance recombinant protein solubility. Proteases fused to large fusion protein domains, maltosebinding protein (MBP), SP-MBP which contains signal peptide at the N-terminus of MBP, disulfide oxidoreductase (DsbA) and Glutathione S-transferase (GST) improved expression and solubility of proteases. Overall, 86.1% of selected protease genes including hypothetical proteins were expressed and purified using a combination of five different expression vectors. To detect novel proteolytic activities, zymography and fluorescence-based assays were performed and the protease activities of more than 46% of purified proteases and 40% of hypothetical proteins that were predicted to be proteases were confirmed.</p> <p>Conclusions</p> <p>Multiple expression vectors, employing distinct fusion tags in a high throughput pipeline increased overall success rates in expression, solubility and purification of proteases. The combinatorial functional analysis of the purified proteases using fluorescence assays and zymography confirmed their function.</p

Factorization of gravitational Compton scattering amplitude in the linearized version of general relativity

Gravitational Compton scattering process with a massive fermion is studied in the context of the linearized gravity. Gravitational gauge invariance and graviton transversality cause the transition amplitude to be factorized into that of scalar QED Compton scattering and that of fermion QED Compton scattering with an overall kinematical factor. The factorization is shown explicitly and its physical implications are discussed.Comment: 11 pages, 1 figure(not included), Revtex 3.0, SNUTP 93-2

High-resolution projections of surface water availability for Tasmania, Australia

Changes to streamflows caused by climate change may have major impacts on the management of water for hydro-electricity generation and agriculture in Tasmania, Australia. We describe changes to Tasmanian surface water availability from 1961–1990 to 2070–2099 using high-resolution simulations. Six fine-scale (&amp;sim;10 km&lt;sup&gt;2&lt;/sup&gt;) simulations of daily rainfall and potential evapotranspiration are generated with the CSIRO Conformal Cubic Atmospheric Model (CCAM), a variable-resolution regional climate model (RCM). These variables are bias-corrected with quantile mapping and used as direct inputs to the hydrological models AWBM, IHACRES, Sacramento, SIMHYD and SMAR-G to project streamflows. &lt;br&gt;&lt;br&gt; The performance of the hydrological models is assessed against 86 streamflow gauges across Tasmania. The SIMHYD model is the least biased (median bias = −3%) while IHACRES has the largest bias (median bias = −22%). We find the hydrological models that best simulate observed streamflows produce similar streamflow projections. &lt;br&gt;&lt;br&gt; There is much greater variation in projections between RCM simulations than between hydrological models. Marked decreases of up to 30% are projected for annual runoff in central Tasmania, while runoff is generally projected to increase in the east. Daily streamflow variability is projected to increase for most of Tasmania, consistent with increases in rainfall intensity. Inter-annual variability of streamflows is projected to increase across most of Tasmania. &lt;br&gt;&lt;br&gt; This is the first major Australian study to use high-resolution bias-corrected rainfall and potential evapotranspiration projections as direct inputs to hydrological models. Our study shows that these simulations are capable of producing realistic streamflows, allowing for increased confidence in assessing future changes to surface water variability

Teaching Culture Indicators: Enhancing Quality Teaching

Canadian postsecondary institutions are committed to providing students with high quality teaching and learning experiences. In recent years, provincial and institutional stakeholders have shifted their focus toward better supporting this effort and enhancing an evolving, teaching- and learning-centred institutional culture. As Cox, McIntosh, Reason, and Terenzini (2011) note, a culture with improved teaching quality is likely to lead to improved student engagement and learning. Researchers in the United States, Europe, and Australia have investigated institutional culture and its relationship to high quality teaching over the last 20 years (Aitken & Sorcinelli, 1994; Cox et al., 2011; Hodge, Nadler, Shore, & Taylor, 2011; Gosling, 2013; Harvey & Stensaker, 2008; Kallioinen, 2013; Hunt, 2013, Prosser, 2013); however, to date, there is little, if any, research done in this area in the Canadian context.https://scholar.uwindsor.ca/ctlreports/1004/thumbnail.jp

Transistor behavior via Au clusters etched from electrodes in an acidic gating solution: metal nanoparticles mimicking conducting polymers

We report that the electrical conductance between closely-spaced gold electrodes in acid solution can be turned from off [insulating; I] to on [conducting; C] to off again by monotonically sweeping a gate voltage applied to the solution. We propose that this ICI transistor action is due to an electrochemical process dependent on nanoparticles etched from the surface of the gold electrodes. These measurements mimic closely the characteristics of nanoscale acid-gated polyaniline transistors, so that researchers should guard against misinterpreting this effect in future molecular-electronics experiments.Comment: 17 pages, 4 figure