352 research outputs found

    Abrasive wear behaviour of 27MnB5 steel used in agricultural tines

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    Understanding the wear mechanisms in wear parts is a crucial element of tribological investigation, particularly in agricultural applications where the knowledge about abrasive micro-mechanisms of soil engaging tools are limited. In the current research, symmetrical skew wedge cultivator tines of 27MnB5 steel were wear tested to investigate the change in mass, linear dimensions, hardness and microstructure, aiming at prolonging the lifetime of these parts through design and material. The wear mechanisms were identified and characterized by non-contact 3D optical profilometry. Test results clearly shows a zone specific wear micro-mechanism based on the tine geometry. The cutting edge of the tine can be segmented into micro-cutting and micro-ploughing zone. Vickers hardness and microstructural analysis were performed on the cross-section of the sliding interface. Tribolayer was observed on the worn surface. Degree of penetration from the wear scratches was calculated to justify the wear micro-mechanisms. A Discrete Element Method (DEM) model was developed to investigate the soil flow during the tillage process. The model results and field test wear scars are in good agreement with each other with respect to the wear patterns

    Lower Limb Radiology of Distal Myopathy due to the S60F Myotilin Mutation

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    Distal myopathies are a clinically and genetically heterogenous group of disorders in which the distal limb musculature is selectively or disproportionately affected. Precisely defining specific categories is a challenge because of overlapping clinical phenotypes, making it difficult to decide which of the many known causative genes to screen in individual cases. In this study we define the distinguishing magnetic resonance imaging findings in myotilin myopathy by studying 8 genealogically unrelated cases due to the same point mutation in TTID. Proximally, the vastii, biceps femoris and semimembranosus were involved with sparing of gracilis and sartorius. Distally, soleus, gastrocnemius, tibialis anterior, extensor hallicus and extensor digitorum were involved. This pattern contrasts with other distal myopathies and provides further support for the role of imaging in the clinical investigation of muscle disease. Copyright (C) 2009 S. Karger AG, Base

    Do your words portray or betray your values? The rhetorical choices we make every time we speak

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    Dr. Beth Patrick-Trippel presents the theoretical constructs used by all four students as well as a brief explanation of the nature of the research being done. Rachel Schramm: Picturing Race and Sports on the Big Screen. What can we learn from “Remember the Titans” and “Glory Road” using Richard Weaver’s Ideas of the Ideal? Jazmin Rangle: Instagram, social media and the Rhetoric of Kim Kardashian-West. Can the rhetoric of Richard Weaver keep up with the Kardashians? Becca Williams: What value messages cause us to laugh at Dwight’s awkwardness in “The Office?” Can we understand our own rhetorical choices by examining the choices in one of America’s most loved sit-coms? Kaitlyn Altmann: Richard Weaver’s Metaphysical Dream as seen through Dystopian Movie Characters in The Hunger Games and Mockingjay

    The International Intellectual Property Commercialization Council’s 3rd Annual U.S. Conference: The State of Innovation in the Union

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    The International Intellectual Property Commercialization Council (“IIPCC”) presented its third annual policy conference at the United States Capitol on May 6, 2019. The conference’s theme explored the question of “what is the state of innovation in the United States?” Panelists included The Honorable Andrei Iancu – Under Secretary of Commerce for Intellectual Property and Director of the United States Patent and Trademark Office; Dr. Carl J. Schramm – University Professor, Syracuse University and Former President of the Ewing Marion Kauffman Foundation; Mr. Patrick Kilbride – Senior Vice President of the Global Innovation Policy Center (“GIPC”) at the U.S. Chamber of Commerce; and Mr. Colman Ragan – Vice President and General Counsel, North America IP Litigation at Teva Pharmaceuticals, who all shared their perspectives on the state of innovation. A lead off panel including local entrepreneurs, intellectual property specialists, federal government specialists, and academics allowed this panel to provide a “boots on the ground” perspective

    Transition state for the NSD2-catalyzed methylation of histone H3 lysine 36

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    Nuclear receptor SET domain containing protein 2 (NSD2) catalyzes the methylation of histone H3 lysine 36 (H3K36). It is a determinant in Wolf–Hirschhorn syndrome and is overexpressed in human multiple myeloma. Despite the relevance of NSD2 to cancer, there are no potent, selective inhibitors of this enzyme reported. Here, a combination of kinetic isotope effect measurements and quantum chemical modeling was used to provide subangstrom details of the transition state structure for NSD2 enzymatic activity. Kinetic isotope effects were measured for the methylation of isolated HeLa cell nucleosomes by NSD2. NSD2 preferentially catalyzes the dimethylation of H3K36 along with a reduced preference for H3K36 monomethylation. Primary Me-(14)C and (36)S and secondary Me-(3)H(3), Me-(2)H(3), 5′-(14)C, and 5′-(3)H(2) kinetic isotope effects were measured for the methylation of H3K36 using specifically labeled S-adenosyl-l-methionine. The intrinsic kinetic isotope effects were used as boundary constraints for quantum mechanical calculations for the NSD2 transition state. The experimental and calculated kinetic isotope effects are consistent with an S(N)2 chemical mechanism with methyl transfer as the first irreversible chemical step in the reaction mechanism. The transition state is a late, asymmetric nucleophilic displacement with bond separation from the leaving group at (2.53 Å) and bond making to the attacking nucleophile (2.10 Å) advanced at the transition state. The transition state structure can be represented in a molecular electrostatic potential map to guide the design of inhibitors that mimic the transition state geometry and charge
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