Structural Studies of Cu(II) & Ni(II) Complexes with a Chiral Schiff Base

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Who Gets In? The Quest for Diversity after \u3cem\u3eGrutter\u3c/em\u3e

On March 8, 2004, the University at Buffalo Law School hosted its annual Mitchell Lecture,1 a panel discussion entitled, Who Gets In? The Quest for Diversity After Grutter. The Mitchell Committee decided to focus this year\u27s lecture on innovative proposals to ensure diversity in law school admissions in light of the Supreme Court\u27s ruling in Grutter v. Bollinger, which confirmed that race and ethnicity could be taken into consideration in admission decisions for diversity purposes. Noting that much of the debate about Grutter thus far has emphasized the decision\u27s constitutionality or its implications for affirmative action, the Committee sought to have a different kind of conversation, one that explored new approaches to admissions that might aid law schools in admitting more diverse student bodies. To this end, the Committee invited five leading scholars, whose work, either analytical or empirical, could change or deepen understandings about the potential for and the obstacles to diversity in law school admissions post-Grutter. Their short presentations (each speaker had only twelve minutes to speak), which provoked a lively discussion, are presented in this edited transcript of the event together with selected excerpts from the question and answer period

Effect of precursor pH on AuNP/MWCNT nanocomposites synthesized by plasma-induced non-equilibrium electrochemistry

In recent years, plasma-induced non-equilibrium electrochemistry (PiNE) has been increasingly used for the synthesis of nanomaterials. In this study, we investigated the effect of solution pH on the formation of AuNP/MWCNT nanocomposites synthesized by PiNE. It is found that resulting nanocomposite morphology can be manipulated by the solution pH with pH 2 giving the most uniformly distributed AuNP along the MWCNT surface during the nanocomposite formation. The detailed mechanisms of AuNP/MWCNT nanocomposites formation under different pH have been discussed. For selected AuNP/MWCNT, we further evaluated the photothermal conversion performance under a blue laser (wavelength 445 nm) and the material biocompatibility using HeLa cells. The promising photothermal capability and biocompatibility of the composite sample point to their potential future applications such as solar thermal conversion and healthcare technology

Environmental stress in the Gulf of Mexico and its potential impact on public health

© 2015 Elsevier Inc. The Deepwater Horizon (DWH) oil spill in the Gulf of Mexico was the largest maritime oil spill in history resulting in the accumulation of genotoxic substances in the air, soil, and water. This has potential far-reaching health impacts on cleanup field workers and on the populations living in the contaminated coastal areas. We have employed portable airborne particulate matter samplers (SKC Biosampler Impinger) and a genetically engineered bacterial reporter system (umu-ChromoTest from EBPI) to determine levels of genotoxicity of air samples collected from highly contaminated areas of coastal Louisiana including Grand Isle, Port Fourchon, and Elmer\u27s Island in the spring, summer and fall of 2011, 2012, 2013 and 2014. Air samples collected from a non-contaminated area, Sea Rim State Park, Texas, served as a control for background airborne genotoxic particles. In comparison to controls, air samples from the contaminated areas demonstrated highly significant increases in genotoxicity with the highest values registered during the month of July in 2011, 2013, and 2014, in all three locations. This seasonal trend was disrupted in 2012, when the highest genotoxicity values were detected in October, which correlated with hurricane Isaac landfall in late August of 2012, about five weeks before a routine collection of fall air samples. Our data demonstrate: (i) high levels of air genotoxicity in the monitored areas over last four years post DWH oil spill; (ii) airborne particulate genotoxicity peaks in summers and correlates with high temperatures and high humidity; and (iii) this seasonal trend was disrupted by the hurricane Isaac landfall, which further supports the concept of a continuous negative impact of the oil spill in this region

Development and Application of an LC-MS/MS Method for the Detection of the Vinyl Chloride-Induced DNA Adduct N 2 ,3-Ethenoguanine in Tissues of Adult and Weanling Rats Following Exposure to [ 13 C 2 ]-VC

In the 1970s exposure to vinyl chloride (VC) was shown to cause liver angiosarcoma in VC workers. We have developed a new LC-MS/MS method for analyzing the promutagenic DNA adduct N2,3-ethenoguanine (εG) and have applied this to DNA from tissues of both adult and weanling rats exposed to 1100 ppm [13C2]-VC for 5 days or 1100 ppm VC for 1 day. This assay utilizes neutral thermal hydrolysis and an HPLC clean-up prior to quantitation by LC-MS/MS. The number of endogenous and exogenous εG adducts in DNA from tissues of adult rats exposed to [13C2]-VC for 5 days was 4.1±2.8 adducts/108 guanine of endogenous and 19.0±4.9 adducts/108 guanine of exogenous εG in liver, 8.4±2.8 adducts/108 guanine of endogenous and 7.4±0.5 adducts/108 guanine of exogenous εG in lung and 5.9±3.3 adducts/108 guanine of endogenous and 5.7±2.1 adducts/108 guanine of exogenous εG in kidney (n=4). Additionally, the data from weanling rats demonstrated higher numbers of exogenous εG, with ~4 fold higher amounts in liver DNA of weanlings (75.9±17.9 adducts/108 guanine) in comparison to adult rats and ~2 fold higher amounts in lung (15.8±3.6 adducts/108 guanine) and kidney (12.9±0.4 adducts/108 guanine) (n=8). The use of stable isotope labeled VC permitted accurate estimates of the half life of εG for the first time by comparing [13C2]-εG in adult rats with identically exposed animals killed 2, 4 or 8 weeks later. The half life of εG was found to be 150 days in liver and lung and 75 days in kidney, suggesting little or no active repair of this promutagenic adduct

Framing tourist risk in UK press accounts of Hurricane Ivan

This article examines the coverage of selected UK press reports of Hurricane Ivan in September 2004 that was the most powerful storm to hit the Caribbean within the last 10 years. Quantitative content analysis has been utilised in this study to determine the main sources of information on the Hurricane and to examine the framing of tourist risk in the press accounts of this disaster. It is demonstrated that the reporting of Hurricane Ivan in the news items tended to convey information that amplified tourist vulnerability and risk. Institutional official sources were often quoted to reinforce danger and ‘no-escape’ rather than reporting on management strategies to reduce these risks or measures that were implemented to ensure visitor safety. This article therefore contends that media management strategies on disasters need to employ more precise and careful monitoring of media accounts of disasters in major generating markets. Such activities may be invaluable in providing assistance to tourism managers regarding decisions on communications strategies and marketing activity aimed at repairing damage and returning to normality in an affected country or region

Cancer stem cell metabolism: A potential target for cancer therapy

© 2016 The Author(s). Cancer Stem cells (CSCs) are a unipotent cell population present within the tumour cell mass. CSCs are known to be highly chemo-resistant, and in recent years, they have gained intense interest as key tumour initiating cells that may also play an integral role in tumour recurrence following chemotherapy. Cancer cells have the ability to alter their metabolism in order to fulfil bio-energetic and biosynthetic requirements. They are largely dependent on aerobic glycolysis for their energy production and also are associated with increased fatty acid synthesis and increased rates of glutamine utilisation. Emerging evidence has shown that therapeutic resistance to cancer treatment may arise due to dysregulation in glucose metabolism, fatty acid synthesis, and glutaminolysis. To propagate their lethal effects and maintain survival, tumour cells alter their metabolic requirements to ensure optimal nutrient use for their survival, evasion from host immune attack, and proliferation. It is now evident that cancer cells metabolise glutamine to grow rapidly because it provides the metabolic stimulus for required energy and precursors for synthesis of proteins, lipids, and nucleic acids. It can also regulate the activities of some of the signalling pathways that control the proliferation of cancer cells. This review describes the key metabolic pathways required by CSCs to maintain a survival advantage and highlights how a combined approach of targeting cellular metabolism in conjunction with the use of chemotherapeutic drugs may provide a promising strategy to overcome therapeutic resistance and therefore aid in cancer therapy