Physical activity and the risk of ischemic stroke: A population-based longitudinal follow-up study in Taiwan (KCIS no. 43).

Lack of exercise is a leading risk factor for stroke, and it has been demonstrated that increasing physical activity (PA) can prevent ischemic stroke. However, there has been limited research on the relationship between ischemic stroke and PA, especially among Asian populations. This study therefore investigates whether the level of PA in the Taiwanese population affects its risk of first-ever ischemic stroke, utilizing screening data on 58,857 individuals collected by the Keelung Health Bureau between 2005 and 2012.

Mechanical Stability of Flexible Graphene-Based Displays.

The mechanical behavior of a prototype touch panel display, which consists of two layers of CVD graphene embedded into PET films, is investigated in tension and under contact-stress dynamic loading. In both cases, laser Raman spectroscopy was employed to assess the stress transfer efficiency of the embedded graphene layers. The tensile behavior was found to be governed by the "island-like" microstructure of the CVD graphene, and the stress transfer efficiency was dependent on the size of graphene "islands" but also on the yielding behavior of PET at relatively high strains.

A rating of perceived exertion scale using facial expressions for conveying exercise intensity for children and young adults.

Objectives: To design a rating of perceived exertion (RPE) scale using facial expressions and assessed the validity of the scale for both children and young adults.

Design: Pearson moment-product correlation analysis was used to assess the correlation among heart rate (HR), RPE and pedaling workload.

Methods: Fifteen children and 15 young adults participated in the study.

Deformation of wrinkled graphene.

The deformation of monolayer graphene, produced by chemical vapor deposition (CVD), on a polyester film substrate has been investigated through the use of Raman spectroscopy. It has been found that the microstructure of the CVD graphene consists of a hexagonal array of islands of flat monolayer graphene separated by wrinkled material. During deformation, it was found that the rate of shift of the Raman 2D band wavenumber per unit strain was less than 25% of that of flat flakes of mechanically exfoliated graphene, whereas the rate of band broadening per unit strain was about 75% of that of the exfoliated material.

The cell end marker Tea4 regulates morphogenesis and pathogenicity in the basidiomycete fungus Ustilago maydis.

Positional cues localized to distinct cell domains are critical for the generation of cell polarity and cell morphogenesis. These cues lead to assembly of protein complexes that organize the cytoskeleton resulting in delivery of vesicles to sites of polarized growth. Tea4, an SH3 domain protein, was first identified in fission yeast, and is a critical determinant of the axis of polarized growth, a role conserved among ascomycete fungi.

Thermal properties of graphene-copper-graphene heterogeneous films.

We demonstrated experimentally that graphene-Cu-graphene heterogeneous films reveal strongly enhanced thermal conductivity as compared to the reference Cu and annealed Cu films. Chemical vapor deposition of a single atomic plane of graphene on both sides of 9 μm thick Cu films increases their thermal conductivity by up to 24% near room temperature. Interestingly, the observed improvement of thermal properties of graphene-Cu-graphene heterofilms results primarily from the changes in Cu morphology during graphene deposition rather than from graphene's action as an additional heat conducting channel.

Fuz1, a MYND domain protein, is required for cell morphogenesis in Ustilago maydis.

Abstract: Ustilago maydis is a Basidiomycete fungus that exhibits a yeast-like nonpathogenic form and a dikaryotic filamentous pathogenic form. Generation of these two forms is controlled by two mating type loci, a and b. The fungus undergoes additional morphological transitions in the plant that result in formation of a third cell type, the teliospore.