1,132 research outputs found

    Extraordinary Everyday Stories: Audio Resources for the Communication Instructor

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    Communication instructors often supplement course texts with artistic works such as feature films, short stories, and memoirs. A less common form of supplementary material is the audio documentary/story. The discussion below introduces several audio resources likely to help students deepen their understanding of communication in general and interpersonal and intercultural communication in particular. I also offer a few ideas to those instructors wishing to help students create their own small-scale audio productions

    The necessity of discretion: A behavioral evaluation of bottom-up implementation theory

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    This is the final version of the article. Available from OUP via the DOI in this record.The topic of discretion continues to be hotly debated in policy design and policy implementation. In top-down theories, discretion at the frontline is often seen as a control problem: discretion should be avoided as it can mean that the policy is not implemented as intended. Conversely, bottom-up theories state that discretion can help policy implementers tailor a policy to specific circumstances. However, there has been little systematic research into how the experience of having discretion motivates frontline workers to implement a policy. We conceptualize and test this relationship by combining public administration and motivation literature, using datasets in healthcare and education and large-N set-theoretic configurational analysis. Results robustly show that experiencing discretion is a quasi-necessary condition and, hence, a prerequisite for high implementation willingness. This finding is more in line with bottom-up than with top-down theories. Policy implementers crucially need the freedom to adapt the program to local conditions for being motivated to implement a policy. The evidence encourages scholars and practitioners to move from the question whether frontline workers should be granted discretion to how to best make use of frontline workers’ discretion instead

    Estimating Density Dependence, Environmental Variance, and Long-Term Selection on a Stage-Structured Life History

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    A method for analyzing long-term demographic data on density-dependent stage-structured populations in a stochastic environment is derived to facilitate comparison of populations and species with different life histories. We assume that a weighted sum of stage abundances, N, exerts density dependence on stage-specific vital rates of survival and reproduction and that N has a small or moderate coefficient of variation. The dynamics of N are approximated as a univariate stochastic process governed by three key parameters: the density-independent growth rate, the net density dependence, and environmental variance in the life history. We show how to estimate the relative weighs of stages in N and the key parameters. Life history evolution represents a stochastic maximization of a simple function of the key parameters. The long-term selection gradient on the life history can be expressed as a vector of sensitivities of this function with respect to density-independent, density-dependent, and stochastic components of the vital rates. To illustrate the method, we analyze 38 years of demographic data on a great tit population, estimating the key parameters, which accurately predict the observed mean, coefficient of variation, and fluctuation rate of N; we also evaluate the long-term selection gradient on the life history.</p

    Conical emission, pulse splitting and X-wave parametric amplification in nonlinear dynamics of ultrashort light pulses

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    The precise observation of the angle-frequency spectrum of light filaments in water reveals a scenario incompatible with current models of conical emission (CE). Its description in terms of linear X-wave modes leads us to understand filamentation dynamics requiring a phase- and group-matched, Kerr-driven four-wave-mixing process that involves two highly localized pumps and two X-waves. CE and temporal splitting arise naturally as two manifestations of this process

    Theology, News and Notes - Vol. 45, No. 02

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    Theology News & Notes was a theological journal published by Fuller Theological Seminary from 1954 through 2014.https://digitalcommons.fuller.edu/tnn/1132/thumbnail.jp

    Electron Transfer Control in Soluble Methane Monooxygenase

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    The hydroxylation or epoxidation of hydrocarbons by bacterial multicomponent monooxygenases (BMMs) requires the interplay of three or four protein components. How component protein interactions control catalysis, however, is not well understood. In particular, the binding sites of the reductase components on the surface of their cognate hydroxylases and the role(s) that the regulatory proteins play during intermolecular electron transfer leading to the hydroxylase reduction have been enigmatic. Here we determine the reductase binding site on the hydroxylase of a BMM enzyme, soluble methane monooxygenase (sMMO) from Methylococcus capsulatus (Bath). We present evidence that the ferredoxin domain of the reductase binds to the canyon region of the hydroxylase, previously determined to be the regulatory protein binding site as well. The latter thus inhibits reductase binding to the hydroxylase and, consequently, intermolecular electron transfer from the reductase to the hydroxylase diiron active site. The binding competition between the regulatory protein and the reductase may serve as a control mechanism for regulating electron transfer, and other BMM enzymes are likely to adopt the same mechanism.National Institutes of Health (U.S.) (Grant GM032134)Waters Corporatio

    Partial cooperative unfolding in proteins as observed by hydrogen exchange mass spectrometry

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    This is an Accepted Manuscript of an article published by Taylor & Francis in International Reviews in Physical Chemistry on 2013-1-1, available online: http://www.tandfonline.com/10.1080/0144235X.2012.751175.Many proteins do not exist in a single rigid conformation. Protein motions, or dynamics, exist and in many cases are important for protein function. The analysis of protein dynamics relies on biophysical techniques that can distinguish simultaneously existing populations of molecules and their rates of interconversion. Hydrogen exchange (HX) detected by mass spectrometry (MS) is contributing to our understanding of protein motions by revealing unfolding and dynamics on a wide timescale, ranging from seconds to hours to days. In this review we discuss HX MS-based analyses of protein dynamics, using our studies of multi-domain kinases as examples. Using HX MS, we have successfully probed protein dynamics and unfolding in the isolated SH3, SH2 and kinase domains of the c-Src and Abl kinase families, as well as the role of inter- and intra-molecular interactions in the global control of kinase function. Coupled with high-resolution structural information, HX MS has proved to be a powerful and versatile tool for the analysis of the conformational dynamics in these kinase systems, and has provided fresh insight regarding the regulatory control of these important signaling proteins. HX MS studies of dynamics are applicable not only to the proteins we illustrate here, but to a very wide range of proteins and protein systems, and should play a role in both classification of and greater understanding of the prevalence of protein motion
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