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Congress Should Not Restrict Use Of Local Funds For Abortion Funding In D.C., Washington Post Editorial States
During debate on the fiscal year 2010 appropriations bill for Washington, D.C., some House members on Tuesday "are expected to use the opportunity to introduce provisions that limit how the district may use locally derived funds," including funding for abortion services, a Washington Post editorial states. "These efforts are wrong, infringe on the district"s right to self-rule and should be voted down," the editorial adds.According to the editorial, "For years, the district has labored under a provision that prevents it from using local tax dollars to fund or subsidize abortion services." The editorial notes that the "Hyde Amendment already forbids state and local jurisdictions from using federal money for abortion services, but it does not restrict these entities from using local tax dollars."A House subcommittee last month approved $768 million in federal funds for D.C., but Rep. Jose Serrano (D-N.Y.) -- chair of the subcommittee -- "stripped the abortion provision from the appropriations bill," according to the editorial. It continues that this version of the bill is "now before the full House Appropriations Committee," and "[s]ome abortion foes in the House plan to reintroduce the abortion-funding restriction."The editorial states, "Federal lawmakers have the right to seek limits on how federal money is used, but not to impose those same limits on states." It concludes that D.C. "should be treated with the same respect afforded every other sovereign jurisdiction in the country" (Washington Post, 7/7).
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Seeking Solutions To The Chronic Nursing Shortage In Canada And The US
The Arthur Labatt Family School of Nursing at The University of Western Ontario has announced a $2 million research chair to address issues surrounding the chronic shortage of registered nurses in Canada and the United States. Dr. Heather Laschinger, Ph.D., was named the first Arthur Labatt Family Nursing Research Chair in Human Re Optimization.
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Antibodies That May Prevent Disease
Antibodies to a wide range of substances that can aggregate to form plaques, such as those found in Alzheimer"s patients, have been identified in the blood and cerebrospinal fluid of healthy people. Levels of these antibodies decline with age and, in Alzheimer"s patients, with increasing progression of the disease.
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Scientists Track Chemical Changes In Cells As They Endure Extreme Conditions

One of nature"s most gripping feats of survival is now better understood. For the first time, scientists from the U.S. Department of Energy"s Lawrence Berkeley National Laboratory observed the chemical changes in individual cells that enable them to survive conditions that should kill them. The team tracked the chemical changes in Desulfovibrio vulgaris, which is a single-cell bacterium that normally can only exist in an oxygen-free environment. They exposed the cells to the most hostile of conditions - air - and watched as some cells temporarily survived by initiating a well-orchestrated sequence of chemical events. Until now, scientists have not been able to monitor, at a molecular level, the chemical changes in individual cells as they survive extreme conditions. The ability to watch this Herculean adaptation to stress, from such an up-close and real-time vantage, gives scientists an improved way to study adaptive responses in a range of microbes, such as disease-causing pathogens and microbes that play a role in photosynthesis, energy production, and geochemical phenomena. Their work was recently published online in the journal Proceedings of the National Academy of Sciences. "We can now follow chemical changes in living bacteria as they respond to extreme environments. This opens up a new window into how bacteria adapt and carry out some of life"s most important processes," says Hoi-Ying Holman, a staff scientist in Berkeley Lab"s Earth Sciences Division. To achieve this milestone, the team used the Advanced Light , a synchrotron and national user facility located at Berkeley Lab that generates bright light for scientific research. In a pioneering approach, they used a beamline equipped with a high-resolution infrared microscope to detect the molecular signatures of a cell"s biochemical and metabolic activity, such as spikes in levels of free radicals and organic acids. Specifically, the infrared microscope tracks the instantaneous response of hydrogen bond structures in cellular water as their immediate surroundings change. The spectral measurements indicate changes in hydrogen bonds, which in turn indicate changes in the presence of ions and various molecules such as radicals and metabolites. First, the team exposed D. vulgaris to their much-preferred oxygen-free environment. They then exposed the same group of cells to air and monitored them for several hours. The foreign environment proved too much for many cells; they died due to a toxic accumulation of free radicals. But some cells with adequate stores of energy survived. And for the first time, thanks to the high-sensitivity synchrotron infrared beamline, the scientists watched as the surviving cells unleashed a series of metabolic changes that enabled them to endure in the presence of oxygen, like a fish out of water. "We monitored several molecules simultaneously in the same bacteria, and watched their metabolic response to stress and extreme conditions," says Holman. "We found that multiple chemical processes allow them to adapt." The scientists studied D. vulgaris because the bacterium, which is among a class of bacteria that reduce sulfate, plays a critical role in many important geochemical processes such as element and nutrient cycling in soils. It also assists in bioremediation and may someday be used to aid energy production and carbon sequestration efforts. D. vulgaris also intrigues scientists because it is an obligate anaerobe - meaning it can"t survive in the presence of oxygen - yet it participates in many geochemical processes in which oxygen levels fluctuate. For example, it thrives in algae mats, which produce very high concentrations of oxygen during the day. Scientists have puzzled over this riddle for years. They"ve studied the bacterium"s gene expression, which provides valuable clues to how it adapts. But, as Holman explains, scientists must also understand the ever-changing chemistry inside a cell in order to fully understand its gene expression and adaptive-response pathways. Scientists have also teased out the chemical changes in the bacterium by studying different cells at various stages in a population of cells. This is not the same as studying the same cell over time, however. "We are studying the same individuals as opposed to studying the population. We want to watch the same cells over time and not rely on the assumption that all cells within a population behave the same," says Holman. "This work, which represents a new way to study adaptive response in individual cells, is made possible by the great progress we"ve made in synchrotron infrared cellular imaging." "Real-time molecular monitoring of chemical environment in obligate anaerobes during oxygen adaptive response" by Hoi-Ying Holman, Eleanor Wozei, Zhang Lin, Luis Comolli, David Ball, Sharon Borglin, Matthew Fields, Terry Hazen, and Kenneth Downing was published June 16, 2009 in the online early edition of the Proceedings of the National Academy of Sciences. This work was supported by the U.S. Department of Energy Office of Biological and Environmental Research"s Structural Biology Program. The work is part of the Virtual Institute for Microbial Stress and Survival which is based at Berkeley Lab and supported by DOE"s Genomics Program: GTL. Dan Krotz DOE/Lawrence Berkeley National Laboratory


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