18,404 research outputs found

    Locating the ‘radical’ in 'Shoot the Messenger'

    No full text
    This is the author's accepted manuscript. The final published article is available from the link below, copyright 2013 @ Edinburgh University Press.The 2006 BBC drama Shoot the Messenger is based on the psychological journey of a Black schoolteacher, Joe Pascale, accused of assaulting a Black male pupil. The allegation triggers Joe's mental breakdown which is articulated, through Joe's first-person narration, as a vindictive loathing of Black people. In turn, a range of common stereotypical characterisations and discourses based on a Black culture of hypocrisy, blame and entitlement is presented. The text is therefore laid wide open to a critique of its neo-conservatism and hegemonic narratives of Black Britishness. However, the drama's presentation of Black mental illness suggests that Shoot the Messenger may also be interpreted as a critique of social inequality and the destabilising effects of living with ethnicised social categories. Through an analysis of issues of representation, the article reclaims this controversial text as a radical drama and examines its implications for and within a critical cultural politics of ‘race’ and representation

    CORRESPONDENCE IN THE MESSENGER: IDENTIFYING THE AUTHOR BY TEXT IN THE CONTEXT OF THE TRANSFORMATION OF INDIVIDUALIZING FEATURES

    No full text
    The article discusses the texts of Internet-based communication and correspondence in a messenger, the attention is paid to description of similarities and differences between oral and written dialogical speech. The problems of neutralizing speech features in the format of Internet-based communication and the transformation of attributes, which provide individual characteristic of the author demonstrated whilst exchanging messages in a messenger. It has been proposed to define the form of speech, typical of correspondence in the messenger, as dialogical written (printed) speech, with reference to it as to the product of intellectual activity in combination with the form of its implementation, taking into account the factor of the author’s usage of technical means for typing. The author represents the approaches to identifying significant speech characteristics, which are demonstrated by the addresser in written correspondence in the messenger; these approaches are often analyzed in the process of authorship identification tests. The possibility of revealing a complex of author’s individualizing features is proved. This paper emphasizes the importance of studying the signs of the graphic and communicative levels of the analysis of dialogical texts, provides the examples of implementation of such signs. In this article the relevance of combining linguistic and quantitative methods of analysis in revealing the author’s individualizing identificational features is proved, the paper also outlines the prospects for further research in the field of studying the linguistic personality of the digital age

    Folding of the transcription factor Brinker and interactions of the bacterial second messenger c-di-GMP studied by NMR

    No full text
    Nuclear magnetic resonance (NMR) spectroscopy is a technique, which allows the non-invasive investigation of structures, dynamics and interactions of biomolecules. The main goal of this thesis was to elucidate the folding mechanism of the transcription factor Brinker and its implications for DNA recognition as well as the characterization of unfolded protein states by NMR. This constitutes the first part of this thesis. The transcription factor Brinker is a nuclear repressor, which is involved in cellular growth and differentiation. In the absence of DNA, Brinker is completely disordered. However, in the presence of DNA or at low temperatures, the Brinker DNA binding domain (BrkDBD) adopts a well-folded structure. Thus, BrkDBD represents an extreme case of the coupling between binding and folding phenomenon. We have aimed to elucidate this folding mechanism in order to understand its implications for DNA recognition. From our data, it is clear that the BrkDBD folding energy landscape sharply depends on buffer anion type and concentration. We show that folded BrkDBD always adopts the same structure irrespective of the conditions. Our data indicate helical propensity for 3 of the 4 native helices even in unfolded BrkDBD, which may serve as initial contact points for DNA recognition. Resonance broadening due to conformational exchange on the micro- to millisecond time scale between folded and unfolded BrkDBD was analyzed by NMR relaxation dispersion experiments indicating a two-state folding mechanism. Only few residues show a different behavior and these are all located at the DNA binding interface. This local conformational heterogeneity may be important for DNA recognition. Based on these findings, we propose a mechanism of DNA recognition by BrkDBD, where the electrostatics-driven folding is a key component, accelerating the recognition process. In addition, we have analyzed the side-chain chi1-rotamer distribution of urea-denatured ubiquitin and protein G, revealing that individual residues show significant deviations from statistical-coil ensemble averages, indicating local bias towards the folded state. The second part of this thesis describes the quantitative characterization of the intermolecular interactions between monomers of the bacterial second messenger c-di-GMP at physiologically relevant concentrations. C-di-GMP is a bacterial second messenger, involved in many signaling events. Its most important effect is to trigger the transition from motile to sessile bacterial life-styles which plays a major role in biofilm formation. In solution, c-di-GMP has been reported to form several oligomers in the presence of monovalent cations, particularly potassium. However, only monomeric and dimeric c-di-GMP have been observed in complexes with proteins or RNA. We have carried out a detailed kinetic and thermodynamic analysis of c-di-GMP polymorphism in the presence of potassium, which showed that predominantly monomers and only few dimers exist at physiological concentrations. Additionally, we present NOE and ROE structural information on c-di-GMP oligomers, which indicate that these are not entirely all-syn and all-anti as opposed to the literature

    Formation and dimerization of the phosphodiesterase active site of the Pseudomonas aeruginosa MorA, a bi-functional c-di-GMP regulator

    No full text
    Diguanylate cyclases (DGC) and phosphodiesterases (PDE) respectively synthesise and hydrolyse the secondary messenger cyclic dimeric GMP (c-di-GMP), and both activities are often found in a single protein. Intracellular c-di-GMP levels in turn regulate bacterial motility, virulence and biofilm formation. We report the first structure of a tandem DGC–PDE fragment, in which the catalytic domains are shown to be active. Two phosphodiesterase states are distinguished by active site formation. The structures, in the presence or absence of c-di-GMP, suggest that dimerisation and binding pocket formation are linked, with dimerisation being required for catalytic activity. An understanding of PDE activation is important, as biofilm dispersal via c-di-GMP hydrolysis has therapeutic effects on chronic infections

    David C. Smith Heads Bell Community Relations

    No full text
    David C. Smith, Ohio Bell residences services manager for Fremont, Sandusky and Fostoria, Ohio, has been named community relations manager for the firm in Northwest Ohio. He will be succeeded by Glenn R. Baker of Lindsey, Ohio. Smith resides in Sandusky, Ohio

    The Kiel Press

    No full text
    Weekly newspaper from Kiel, Oklahoma that includes local, territorial, and national news along with advertising

    NOS in the cephalopod "cerebellum".

    No full text
    In short, these lobes are strikingly similar in their function, cyto-architecture and connectivity to the vertebrate cerebellum and, like the cerebellum, which contains the highest level of NOS in the mammalian brain (Rodrigo et al. 1994), they are now shown to contain high levels of NOS

    BRUCE: a program for the detection of transfer-messenger RNA genes in nucleotide sequences

    No full text
    A computer program, BRUCE, was developed for the identification of transfer‐messenger RNA (tmRNA) genes. The program employs heuristic algorithms to search for a tRNAAla‐like secondary structure surrounding a short sequence encoding the tag peptide. In the 57 completely sequenced bacterial genomes where tmRNA genes have been reported previously, BRUCE identified all with no false positives. In addition, BRUCE found 99 of the 100 tmRNAs identified previously in other bacteria, red chloroplasts and cyanelles. The output of the program reports the proposed tRNA secondary structure, the tmRNA gene sequence and the tag peptide
    corecore