Association for Chinese Music Research Bibliography Update 2011

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Advocacy spurs innovation: promoting synergy between physical and biomedical sciences

Despite dramatic advances in decoding the genes, proteins, and pathways that drive cancer, the disease has evaded the reductionist approaches to defeat it. Recent work has highlighted cancer’s heterogeneity, complexity, and ability to develop resistance as major barriers to progress. To better understand and control the processes that govern the initiation, behavior, and progression of cancer, the National Cancer Institute (NCI) created the Physical Sciences-Oncology Center (PS-OC) Network in 2009. As a hub for scientific innovation and as an example of the transdisciplinary research model, the twelve centers within the PS-OC strive for the systematic convergence of the physical sciences with cancer biology. Promoting collaboration between biologists, physicists, mathematicians, chemists, biomedical engineers, and oncologists, the program offers a compelling vision of how new frontiers in physical sciences and oncology will permit the emergence of new scientific principles and opportunities, and of how the benefits of the current convergence revolution would be enhanced by vigorous public/advocacy support

Establishing an Institution-Wide Graduate Medical Education Research Collaborative to Promote Scholarly Activities among House Officers

Background: House officers’ ability to participate in research and quality improvement projects can be hindered by barriers, including lack of time, mentoring, and resources. Objective: Create a collaborative for house officers that provides readily accessible resources in study design as well as data collection, analysis, interpretation, and presentation. Methods: In 2017, we established a collaborative comprised of biostatisticians and an Associate Dean for Graduate Medical Research, providing a trove of experience in research and quality improvement. We worked closely with the Institutional Review Board and Electronic Health Records Core to simplify the process for house officers to utilize these research resources. The collaborative has weekly small group meetings to discuss new projects/updates and monthly large group meetings where house officers can present their ideas for additional feedback from peers and additional faculty. These formats are flexible, which allows us to tailor our assistance to the needs of each individual project. Results: In the first year since establishing the collaborative, we have received 51 project concepts from 44 house officers. Of the projects needing assistance (n=44), 100% were discussed in one of our weekly meetings and received assistance from the collaborative, and 34% presented at our large monthly meeting. A year into the collaborative, 20% of projects are either in the data analysis phase or have already been presented. Conclusion: As evidenced by the number of projects we received in our first year, there is a significant benefit for this type of collaborative resource to support and stimulate successful scholarly activity in house officers

Localized holes and delocalized electrons in photoexcited inorganic perovskites: Watching each atomic actor by picosecond X-ray absorption spectroscopy

We report on an element-selective study of the fate of charge carriers in photoexcited inorganic CsPbBr3 and CsPb(ClBr)3 perovskite nanocrystals (NCs) in toluene solutions using time-resolved X-ray absorption spectroscopy with 80 ps time resolution. Probing the Br K-edge, the Pb L3-edge and the Cs L2-edge, we find that holes in the valence band are localized at Br atoms, forming small polarons, while electrons appear as delocalized in the conduction band. No signature of either electronic or structural changes are observed at the Cs L2-edge. The results at the Br and Pb edges suggest the existence of a weakly localized exciton, while the absence of signatures at the Cs edge indicates that the Cs+ cation plays no role in the charge transport, at least beyond 80 ps. These results can explain the rather modest charge carrier mobilities in these materials.Comment: 19 pages, 3 figure

Classical BI: Its Semantics and Proof Theory

We present Classical BI (CBI), a new addition to the family of bunched logics which originates in O'Hearn and Pym's logic of bunched implications BI. CBI differs from existing bunched logics in that its multiplicative connectives behave classically rather than intuitionistically (including in particular a multiplicative version of classical negation). At the semantic level, CBI-formulas have the normal bunched logic reading as declarative statements about resources, but its resource models necessarily feature more structure than those for other bunched logics; principally, they satisfy the requirement that every resource has a unique dual. At the proof-theoretic level, a very natural formalism for CBI is provided by a display calculus \`a la Belnap, which can be seen as a generalisation of the bunched sequent calculus for BI. In this paper we formulate the aforementioned model theory and proof theory for CBI, and prove some fundamental results about the logic, most notably completeness of the proof theory with respect to the semantics.Comment: 42 pages, 8 figure

The Cycad Genotoxin MAM Modulates Brain Cellular Pathways Involved in Neurodegenerative Disease and Cancer in a DNA Damage-Linked Manner

Methylazoxymethanol (MAM), the genotoxic metabolite of the cycad azoxyglucoside cycasin, induces genetic alterations in bacteria, yeast, plants, insects and mammalian cells, but adult nerve cells are thought to be unaffected. We show that the brains of adult C57BL6 wild-type mice treated with a single systemic dose of MAM acetate display DNA damage (O6-methyldeoxyguanosine lesions, O6-mG) that remains constant up to 7 days post-treatment. By contrast, MAM-treated mice lacking a functional gene encoding the DNA repair enzyme O6-mG DNA methyltransferase (MGMT) showed elevated O6-mG DNA damage starting at 48 hours post-treatment. The DNA damage was linked to changes in the expression of genes in cell-signaling pathways associated with cancer, human neurodegenerative disease, and neurodevelopmental disorders. These data are consistent with the established developmental neurotoxic and carcinogenic properties of MAM in rodents. They also support the hypothesis that early-life exposure to MAM-glucoside (cycasin) has an etiological association with a declining, prototypical neurodegenerative disease seen in Guam, Japan, and New Guinea populations that formerly used the neurotoxic cycad plant for food or medicine, or both. These findings suggest environmental genotoxins, specifically MAM, target common pathways involved in neurodegeneration and cancer, the outcome depending on whether the cell can divide (cancer) or not (neurodegeneration). Exposure to MAM-related environmental genotoxins may have relevance to the etiology of related tauopathies, notably, Alzheimer's disease