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[Image: see text] A tantalum-catalyzed addition of N-alkylarylamine α-C–H bonds across olefins is reported. These reactions occur with mono- and 2,2-disubstituted olefins to form the branched insertion products in high yield and regioselectivity. The reactions encompass additions of the α-C–H bonds of cyclic and acyclic amines, as well as intramolecular additions. NMR studies indicate that the starting homoleptic, Ta(NMe(2))(5)precatalyst converts to bis- and tris(N-methylanilide) complexes (amongst others) in solution. Deuterium-labeling studies suggest that reversible ortho-metalation of the arene substituent occurs under the reaction conditions. However, several experiments imply that this ortho-metalation does not lie on the reaction pathway. Instead, these complexes are proposed to eliminate amine to form N-aryl imine complexes, which insert olefins into the Ta–C bond and undergo protonolysis to regenerate the active catalyst and eliminate the addition product.
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This volume of Seismic Engineering: Research and Practice contains papers from twenty-two sessions of the 1989 ASCE Structures Congress. These papers represent a wide-ranging interest in this field of seismic engineering. Papers were contributed not only by both ASCE's Structures and Engineering Mechanics Divisions; but, by the Structural Engineers Association of California; the International Structural Consultants Association; the Japan Structural Consultants Association; and by professionals in Taiwan. This variety of sources enable the coverage of a broad range of seismic engineering topics including: lessons learned from past earthquakes, evaluation and upgrade of existing structures, dynamic testing and monitoring of structures, design and analysis of special structures including bridges, dams, and liquid storage tanks and new approaches to earthquake-resistant design including base isolation.
Genes encoding synthetic hydroxyproline-rich peptides with repetitive (Ser-Pro) units linked to an extensin signal sequence and a tetracysteine (TC) sequence were expressed transiently in tobacco, and transiently and stably in Arabidopsis under control of a strong constitutive promoter Expression of these peptides could be visualized in live cells by confocal microscopy following labeling with FlAsH- or ReAsH-EDT2 reagents.
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Children with AD often have disrupted sleep and daytime behavioral difficulties associated with insufficient sleep. Improved sleep may be an important treatment focus in the clinical management of children with AD.
Efforts to express human therapeutic proteins in photosynthetic organisms have been described in the literature. Regarding microalgae, most of the research entailed a heterologous transformation of the chloroplast, but transformant cells failed to accumulate the desired recombinant proteins in high quantity. The present work provides methods and DNA construct formulations for over-expressing in photosynthetic cyanobacteria, at the protein level, human-origin bio-pharmaceutical and bio-therapeutic proteins. Proof-of-concept evidence is provided for the design and reduction to practice of "<i>fusion constructs as protein overexpression vectors</i>" for the generation of the bio-therapeutic protein interferon alpha-2 (IFN). IFN is a member of the Type I interferon cytokine family, well-known for its antiviral and anti-proliferative functions. Fusion construct formulations enabled accumulation of IFN up to 12% of total cellular protein in soluble form. In addition, the work reports on the isolation and purification of the fusion IFN protein and preliminary verification of its antiviral activity. Combining the expression and purification protocols developed here, it is possible to produce fairly large quantities of interferon in these photosynthetic microorganisms, generated from sunlight, CO<sub>2</sub>, and H<sub>2</sub>O.