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“Mlo is a plant-specific gene family, which is known to show stress responses invarious plants To reveal the
genetic characteristics of the Mlo family in wheat, we isolated wheat Mlo members from a database and studied their expression in young shoots and roots under salt and osmotic stress conditions In an in silico investigation, we identified seven Mlo members in wheat and named them TaMlo 1 similar to TaMlo 7 None of the wheat Mlo showed significant induction or reduction of their expression under salt or osmotic stress, but organ-specific expression was observed in several TaMlo members TaMlo 1, TaMlo 2, and TaMlo 5 were constitutively expressed in both shoots and roots, but TaMlo 3 and TaMlo 4 showed root-specific expression, and TaMlo 7
showed dominant expression in shoots TaMlo 6 was weakly expressed Fosbretabulin concentration in both shoots and roots Phylogenetic analysis classified the plant Mlo members into six classes, four of them were comprised of angiosperm Mlo members, and the remaining two consisted of fern and moss Mlo members The seven wheat Mlo members were classified into four angiosperm Mlo classes, similar to those of Arabidopsis and rice, indicating that the formation of each of the Mlo classes preceded the divergence of dicots and monocots The differentiation of the expressional patterns among the seven TaMlo members was not related to their phylogenetic classification This result suggested that the organ specific expression of individual Mlo members occurred relatively recently FDA-approved Drug Library in their evolution”
“Muscular dystrophies are a group of diseases that primarily affect striated muscle and are characterized by the progressive loss of muscle strength and integrity. Major forms of muscular dystrophies are caused by the abnormalities of the dystrophin glycoprotein complex (DGC) that plays crucial roles as a structural unit and scaffolds for signaling AZD7762 molecules at the sarcolemma. alpha-Dystrobrevin is a component of the DGC and directly associates with dystrophin.
alpha-Dystrobrevin also binds to intermediate filaments as well as syntrophin, a modular adaptor protein thought to be involved in signaling. Although no muscular dystrophy has been associated within mutations of the alpha-dystrobrevin gene, emerging findings suggest potential significance of alpha-dystrobrevin in striated muscle. This review addresses the functional role of alpha-dystrobrevin in muscle as well as its possible implication for muscular dystrophy.”
“The ability to position a sharp probe in close proximity to a sample while the surface is illuminated by synchrotron x-rays opens a path to localized spectroscopy and imaging with chemical and magnetic contrast. We have employed a scanning tunneling microscope for the local study of synchrotron x-ray magnetic circular dichroism of micron-sized NiFe rings. Spectra have been obtained by an insulator-coated tip positioned about 200 nm over the sample surface.