2,280 research outputs found
Hydrodynamic collective effects of active proteins in biological membranes
Lipid bilayers forming biological membranes are known to behave as viscous 2D
fluids on submicrometer scales; usually they contain a large number of active
protein inclusions. Recently, it has been shown [Proc. Nat. Acad. Sci. USA 112,
E3639 (2015)] that such active proteins should in- duce non-thermal fluctuating
lipid flows leading to diffusion enhancement and chemotaxis-like drift for
passive inclusions in biomembranes. Here, a detailed analytical and numerical
investigation of such effects is performed. The attention is focused on the
situations when proteins are concentrated within lipid rafts. We demonstrate
that passive particles tend to become attracted by active rafts and are
accumulated inside them.Comment: 12 pages, 7 figure
Population Aging, Changes in Living Arrangement, and the New Long-Term Care System in Japan
During the last five decades, family life of the Japanese elderly and longterm care have drastically changed. As a response to the rapid population aging and the increasing difficulty of family care, a new universalistic system of long-term care services is going to be introduced in 2000. The new system, called the Insurance Against Care, acknowledges societal responsibility for long-term care, and guarantees a certain level of provision of care services. While the insurance is a response to the changes in family life of the elderly, symbolized by the decrease of co-residence with adult children, it may further stimulate and complete the changes to family life of the Japanese elderly which began in the 1960s
Hes6 acts in a positive feedback loop with the neurogenins to promote neuronal differentiation
During the development of the vertebrate nervous system, neurogenesis is promoted by proneural bHLH proteins such as the neurogenins, which act as potent transcriptional activators of neuronal differentiation genes. The pattern by which these proteins promote neuronal differentiation is thought to be governed by inhibitors, including a class of transcriptional repressors called the WRPW-bHLH proteins, which are similar to Drosophila proteins encoded by hairy and genes in the enhancer of split complex (E-(SPL)-C). Here, we describe the isolation and characterization of Hes6, which encodes a novel WRPW-bHLH protein expressed during neurogenesis in mouse and Xenopus embryos. We show that Hes6 expression follows that of neurogenins but precedes that of the neuronal differentiation genes. We provide several lines of evidence to show that Hes6 expression occurs in developing neurons and is induced by the proneural bHLH proteins but not by the Notch pathway. When ectopically expressed in Xenopus embryos, Hes6 promotes neurogenesis. The properties of Hes6 distinguish it from other members of the WRPW-bHLH family in vertebrates, and suggest that it acts in a positive-feedback loop with the proneural bHLH proteins to promote neuronal differentiation
Non-equilibrium and non-linear stationary state in thermoelectric materials
Efficiency of thermoelectric materials is characterized by the figure of
merit Z. Z has been believed to be a peculiar material constant. However, the
accurate measurements in the present work reveal that Z has large size
dependence and a non-linear temperature distribution appears as stationary
state in the thermoelectric material. The observation of these phenomena is
achieved by the Harman method. This method is the most appropriate way to
investigate the thermoelectric properties because the dc and ac resistances are
measured by the same electrode configuration. We describe the anomalous
thermoelectric properties observed in mainly (Bi,Sb)2Te3 by the Harman method
and then insist that Z is not the peculiar material constant but must be
defined as the physical quantity dependent of the size and the position in the
material.Comment: 9 pages, 4 figures. submitted to Applied Physics Lette
Anomalous diffusion and transport by a reciprocal convective flow
Under low-Reynolds-number conditions, dynamics of convection and diffusion
are usually considered separately because their dominant spatial and temporal
scales are different, but cooperative effects of convection and diffusion can
cause diffusion enhancement [Koyano et al., Phys. Rev. E, 102, 033109 (2020)].
In this study, such cooperative effects are investigated in detail. Numerical
simulations based on the convection-diffusion equation revealed that
anisotropic diffusion and net shift as well as diffusion enhancement occur
under a reciprocal flow. Such anomalous diffusion and transport are
theoretically derived by the analyses of the Langevin dynamics.Comment: 10 pages, 9 figure
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