219 research outputs found

    Data, Politics and Public Health: COVID-19 Data-Driven Decision Making in Public Discourse

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    In spring 2020, New York City became the acknowledged epicenter of the COVID-19 pandemic in the United States. To keep residents informed, Governor Cuomo conducted a streak of 111 daily press briefings reporting critical information about the status of the pandemic in the State at large, and New York City in particular. We show that through these briefings Governor Cuomo introduced an audience of New Yorkers and others to concepts basic to data-driven decision making such as data, science, models, and projections, and in so doing claimed that his decisions were unrelated to politics or whim. But we further suggest that data-driven decision making is not always immune from politics and human frailty in government. We conclude that basing policy decisions on data requires that policymakers insure the creation of a resilient and trustworthy health care data infrastructure to function as the scaffolding upon which policy making takes place

    University, City, and Community: Athletics Urban Renewal Projects and the University of South Carolina’s Carolina Coliseum and Blatt Physical Education Center, 1964–1971

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    Higher education institutions (HEIs) often are characterized by how they compete with other institutions. Institutions try to secure the most resources for their benefit, and this often includes expansion and land accumulation.1 Increasingly common is land acquisition for athletics expansion or enhancement, because successful athletics programs build perception and prominence.2 Historically, for large public universities in urban centers, athletics expansion or enhancement has negatively affected surrounding areas. Often, city centers are populated by Black and Brown community members due to the migration patterns of Blacks after World War II and subsequent racial segregation efforts that further segregated Communities by Color.3 This historiography of one urban university’s athletics venue expansion into surrounding predominantly Black communities addresses two urban renewal projects in Columbia, South Carolina from 1964-1971, the processes of displacement and expansion, and the effects on former and current residents of surrounding communities. Using archival materials from the University of South Carolina (USC) and the Columbia Housing Authority (CHA), state records and documents, and interviews with former and current residents, the researcher reveals a complex system of collaboration across federal, state, and local officials and deleterious effects on community members. Specifically, analyzing events surrounding USC’s creation of the Carolina Coliseum, which opened in 1968 as the site for intercollegiate athletics, and the Solomon Blatt Physical Education Center, opened in 1971 as a site for intercollegiate athletics and intramural sports, these urban renewal projects displaced thousands of people living in the Ward One and Wheeler Hill communities.4 The researcher amplifies voices from Black communities that have been long silenced in community histories in the South. This historiography represents a complex historical account of the events that took place and generates key insights for contemporary community-university relations regarding university athletic venue expansion and the potential impact on nearby communities. The researcher argues that HEIs must find ways to sustain their operations while working in relation with their surrounding communities. Histories of exploitation and dispossession must not be repeated

    A Non-Canonical Role for p27\u3csup\u3eKip1\u3c/sup\u3e in Restricting Proliferation of Corneal Endothelial Cells During Development

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    This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. The cell cycle regulator p27Kip1 is a critical factor controlling cell number in many lineages. While its anti-proliferative effects are well-established, the extent to which this is a result of its function as a cyclin-dependent kinase (CDK) inhibitor or through other known molecular interactions is not clear. To genetically dissect its role in the developing corneal endothelium, we examined mice harboring two loss-of-function alleles, a null allele (p27−) that abrogates all protein function and a knockin allele (p27CK−) that targets only its interaction with cyclins and CDKs. Whole-animal mutants, in which all cells are either homozygous knockout or knockin, exhibit identical proliferative increases (~0.6-fold) compared with wild-type tissues. On the other hand, use of mosaic analysis with double markers (MADM) to produce infrequently-occurring clones of wild-type and mutant cells within the same tissue environment uncovers a roughly three- and six-fold expansion of individual p27CK−/CK− and p27−/− cells, respectively. Mosaicism also reveals distinct migration phenotypes, with p27−/− cells being highly restricted to their site of production and p27CK−/CK− cells more widely scattered within the endothelium. Using a density-based clustering algorithm to quantify dispersal of MADM-generated clones, a four-fold difference in aggregation is seen between the two types of mutant cells. Overall, our analysis reveals that, in developing mouse corneal endothelium, p27 regulates cell number by acting cell autonomously, both through its interactions with cyclins and CDKs and through a cyclin-CDK-independent mechanism(s). Combined with its parallel influence on cell motility, it constitutes a potent multi-functional effector mechanism with major impact on tissue organization

    Accelerated Turnover of Taste Bud Cells in Mice Deficient for the Cyclin-Dependent Kinase Inhibitor p27\u3csup\u3ekip1\u3c/sup\u3e

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    Background: Mammalian taste buds contain several specialized cell types that coordinately respond to tastants and communicate with sensory nerves. While it has long been appreciated that these cells undergo continual turnover, little is known concerning how adequate numbers of cells are generated and maintained. The cyclin-dependent kinase inhibitor p27Kip1 has been shown to influence cell number in several developing tissues, by coordinating cell cycle exit during cell differentiation. Here, we investigated its involvement in the control of taste cell replacement by examining adult mice with targeted ablation of the p27Kip1 gene.Results: Histological and morphometric analyses of fungiform and circumvallate taste buds reveal no structural differences between wild-type and p27Kip1-null mice. However, when examined in functional assays, mutants show substantial proliferative changes. In BrdU incorporation experiments, more S-phase-labeled precursors appear within circumvallate taste buds at 1 day post-injection, the earliest time point examined. After 1 week, twice as many labeled intragemmal cells are present, but numbers return to wild-type levels by 2 weeks. Mutant taste buds also contain more TUNEL-labeled cells and 50% more apoptotic bodies than wild-type controls. In normal mice, p27 Kip1 is evident in a subset of receptor and presynaptic taste cells beginning about 3 days post-injection, correlating with the onset of taste cell maturation. Loss of gene function, however, does not alter the proportions of distinct immunohistochemically-identified cell types.Conclusions: p27Kip1 participates in taste cell replacement by regulating the number of precursor cells available for entry into taste buds. This is consistent with a role for the protein in timing cell cycle withdrawal in progenitor cells. The equivalence of mutant and wild-type taste buds with regard to cell number, cell types and general structure contrasts with the hyperplasia and tissue disruption seen in certain developing p27Kip1-null sensory organs, and may reflect a compensatory capability inherent in the regenerative taste system

    Differential development of antibiotic resistance and virulence between Acinetobacter species

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    The two species that account for most cases of Acinetobacter-associated bacteraemia in the UK are Acinetobacter lwoffii, often a commensal but also an emerging pathogen, and A. baumannii, a well-known antibiotic-resistant species. While these species both cause similar types of human infection and occupy the same niche, A. lwoffii (unlike A. baumannii) has thus far remained susceptible to antibiotics. Comparatively little is known about the biology of A. lwoffii and this is the largest study on it conducted to date, providing valuable insights into its behaviour and potential threat to human health.This study aimed to explain the antibiotic susceptibility, virulence, and fundamental biological differences between these two species. The relative susceptibility of A. lwoffii, was explained as it encoded fewer antibiotic resistance and efflux pump genes than A. baumannii (9 and 30 respectively). While both species had markers of horizontal gene transfer, A. lwoffii encoded more DNA defence systems and harboured a far more restricted range of plasmids. Furthermore, A. lwoffii displayed a reduced ability to select for antibiotic resistance mutations, form biofilm and infect both in vivo and in vitro models of infection.This study suggests that the emerging pathogen A. lwoffii has remained susceptible to antibiotics because mechanisms exist to make it highly selective about the DNA it acquires, and we hypothesise that the fact that it only harbours a single RND system restricts the ability to select for resistance mutations. This provides valuable insights into how development of resistance can be constrained in Gram negative bacteria.Importance Acinetobacter lwoffii is often a harmless commensal but is also an emerging pathogen and is the most common cause of Acinetobacter-derived blood stream infections in England and Wales. In contrast to the well-studied, and often highly drug resistant A. baumannii, A. lwoffii has remained susceptible to antibiotics. This study explains why this organism has not evolved resistance to antibiotics. These new insights are important to understand why and how some species develop antibiotic resistance, while others do not and could inform future novel treatment strategies

    Life Beyond the Solar System: Remotely Detectable Biosignatures

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    For the first time in human history, we will soon be able to apply to the scientific method to the question "Are We Alone?" The rapid advance of exoplanet discovery, planetary systems science, and telescope technology will soon allow scientists to search for life beyond our Solar System through direct observation of extrasolar planets. This endeavor will occur alongside searches for habitable environments and signs of life within our Solar System. While these searches are thematically related and will inform each other, they will require separate observational techniques. The search for life on exoplanets holds potential through the great diversity of worlds to be explored beyond our Solar System. However, there are also unique challenges related to the relatively limited data this search will obtain on any individual world
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