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Generation Of A Severe Memory-Deficit Mutant Mouse By Exclusively Eliminating The Kinase Activity Of CaMKIIalpha
Ca2+/calmodulin-dependent protein kinase II alpha (CaMKII alpha) is an enzyme that adds phosphates to a variety of protein substrates to modify their functions. CaMKII alpha is enriched in the hippocampus, the memory center of the brain, and is believed to be an essential mediator of activity-dependent synaptic plasticity and memory functions. However, the causative role of the enzymatic activity of CaMKII alpha in such processes has not been demonstrated yet, because this enzyme has multiple protein functions other than the kinase activity. A Japanese research group, led by Dr Yoko Yamagata of the National Institute for Physiological Sciences, Japan, has successfully generated a novel kinase-dead mutant mouse of the CaMKII alpha gene that completely and exclusively lacks its kinase activity. They examined hippocampal synaptic plasticity and behavioral learning of the mouse, and found a severe deficit in both processes. They reported their findings in the Journal of Neuroscience, published on June 10, 2009.

North Carolina Should Increase Cigarette Tax By 50 Cents To Save Lives And Raise Revenue
The following is a statement of Matthew L. Myers, President, Campaign for Tobacco-Free Kids:
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Prominent Bioinformatics Expert To Join Harvard School Of Public Health Faculty And Become Chair Of Dana-Farber Department Of Biostatistics
Giovanni Parmigiani, PhD, a noted leader in applying bioinformatics tools to cancer studies and medical decision-making, has been appointed professor of biostatistics at Harvard School of Public Health (HSPH) and as chair of the Department of Biostatistics and Computational Biology at Dana-Farber Cancer Institute.
Mental Health

Size Did Matter - Oldest Evidence For Reproduction With Giant Sperm Uncovered At The European Synchrotron Radiation Facility

The mystery of giant sperm present in some living animal groups today has taken on a new dimension. In one group of micro-crustaceans new evidence shows the feature is at least 100 million years old. Renate Matzke-Karasz, from Ludwig-Maximilians-Universitç¤t Munich (Germany), has led an international team of scientists, studying specimens from the London Natural History Museum"s collections. Their research has revealed fossilised evidence for reproduction using giant sperm in a group of small aquatic crustaceans, called ostracods, dating back to 100 million years ago. Matzke-Karasz said, "In these microfossils, we detected organs that are required for transferring giant spermatozoa. Since modern ostracods still produce giant sperm and manoeuvre them with the same organs as 100 million years ago, it"s safe to say this distinctive feature evolved only once in this group. It seems to be an evolutionarily successful reproduction strategy, even though it comes at an exceedingly high price for both genders, as a lot of energy is invested in producing and carrying such enormous sperm." The international team analysed Harbinia micropapillosa specimens from the Cretaceous Period that had remains of the soft body intact. These fossils had been collected, investigated and then donated to the Natural History Museum in 2000 by Robin Smith. Now at the Lake Biwa Museum, Japan, Smith is a member of the research team. Eight years later, the same specimens were analysed using synchrotron X-ray holotomography at the European Synchrotron Radiation Facility (ESRF) in Grenoble, through collaboration with Paul Tafforeau, a palaeontologist at the ESRF. This method is currently the most powerful and sensitive way to investigate in three dimensions and at a microscopic scale, the internal anatomy of exceptional fossils without damaging them. "Holotomography is a non-destructive imaging technique like computer tomography (CT), but we use powerful and coherent synchrotron X-rays leading to a sensitivity thousand times higher," explains Paul Tafforeau of ESRF. "It is since very recently that palaeontologists use this technique to image fossils, but the results achieved so far show that this technique will surely lead to many important discoveries on fossils", he adds. The X-ray examination of the fossilised ostracods revealed direct parallels with the complex reproductive apparatus of modern relatives of these Cretaceous fossils. The team also came across something of a surprise: two of the female specimens had inflated cavities that only occur in modern ostracods that have recently mated, meaning fossil evidence for an insemination had been uncovered. The team was completed by Radka Symonovç¡, scientist at the Charles University in Prague and Giles Miller, Micropalaeontology Curator at the Natural History Museum. A human sperm would have to be over 17 meters long in order to measure up against one group of modern ostracods, whose sperm are up to ten times as big as the animals themselves. Roughly 34,000 of the 50 micron-long human sperm would have to line up to match the body length of a man (of 1,70m). The next stage of the research from the international team is to understand why and how reproduction with giant sperm has persisted for so long. Matzke-Karasz, R. et al, Science, 19 June 2009. Montserrat Capellas European Synchrotron Radiation Facility


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