794 research outputs found

    An On-line Questionnaire Survey on Students’ Views and Teachers’ Practices in Corrective Feedback in Teaching Chinese to Speakers of Other Languages

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    By conducting an on-line questionnaire survey, the article compared 97 international students’ views with 23 Chinese teachers’ practices on 8 issues in corrective feedback (CF) in teaching Chinese to speakers of other languages (TCSOL). Results revealed that students’ views and teachers’ practices conformed to each other in cognition of committing verbal errors, and in whether to correct; that they were mostly incongruent with each other in what to correct; that they were congruent with each other in peer correction, but not in teachers’ correction or self-correction; that they coincided with each other in indirect correction, but not in direct one, nor in immediate correction or the maximum correction frequency in one class; and that CF mainly generated positive psychological effects and better learning on students, but its pedagogical efficacy was not evidently approved by the teachers. This research aimed at gaining a deeper insight into the effectiveness of CF in TCSOL to improve the quality of TCSOL

    The diverse roles of cytokinins in regulating leaf development

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    Leaves provide energy for plants, and consequently for animals, through photosynthesis. Despite their important functions, plant leaf developmental processes and their underlying mechanisms have not been well characterized. Here, we provide a holistic description of leaf developmental processes that is centered on cytokinins and their signaling functions. Cytokinins maintain the growth potential (pluripotency) of shoot apical meristems, which provide stem cells for the generation of leaf primordia during the initial stage of leaf formation; cytokinins and auxins, as well as their interaction, determine the phyllotaxis pattern. The activities of cytokinins in various regions of the leaf, especially at the margins, collectively determine the final leaf morphology (e.g., simple or compound). The area of a leaf is generally determined by the number and size of the cells in the leaf. Cytokinins promote cell division and increase cell expansion during the proliferation and expansion stages of leaf cell development, respectively. During leaf senescence, cytokinins reduce sugar accumulation, increase chlorophyll synthesis, and prolong the leaf photosynthetic period. We also briefly describe the roles of other hormones, including auxin and ethylene, during the whole leaf developmental process. In this study, we review the regulatory roles of cytokinins in various leaf developmental stages, with a focus on cytokinin metabolism and signal transduction processes, in order to shed light on the molecular mechanisms underlying leaf development

    Carbon Density Distribution and Carbon Storage Estimation under Different Grazing Degradation in the Typical Steppe

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    Carbon (C) is a crucial component of living organisms on planet earth, and C cycling is an important symbol of healthy development of the biosphere (Han et al. 1999). Human activity has adversely affected the global C cycle, and contributed to an alteration of climate that will generate discernible feedbacks to all organisms and ecosystems on earth (He et al. 2008). Grasslands are one of the most widely distributed terrestrial ecosystems on the earth and it is estimated that C storage of global grassland ecosystem was 761Gt (1Gt = 09t), which accounts for about 15.2% C storage in terrestrial ecosystem (Scurlock et al. 2002). A typical steppe consisting of Stipa grandis and Leymus chinensis was the most representative grassland to research the response mechanism of an ecosystem to human disturbance and climate change. It is of great scientific value to do research about C distribution and storage in this area

    Src kinase up-regulates the ERK cascade through inactivation of protein phosphatase 2A following cerebral ischemia

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    <p>Abstract</p> <p>Background</p> <p>The regulation of protein phosphorylation requires a balance in the activity of protein kinases and protein phosphatases. Our previous data indicates that Src can increase ERK activity through Raf kinase in response to ischemic stimuli. This study examined the molecular mechanisms by which Src activates ERK cascade through protein phosphatases following cerebral ischemia.</p> <p>Results</p> <p>Ischemia-induced Src activation is followed by phosphorylation of PP2A at Tyr307 leading to its inhibition in the rat hippocampus. SU6656, a Src inhibitor, up-regulates PP2A activity, resulting in a significant decreased activity in ERK and its targets, CREB and ERα. In addition, the PP2A inhibitor, cantharidin, led to an up-regulation of ERK activity and was able to counteract Src inhibition during ischemia.</p> <p>Conclusion</p> <p>Src induces up-regulation of ERK activity and its target transcription factors, CREB and ERα, through attenuation of PP2A activity. Therefore, activation of ERK is the result of a crosstalk between two pathways, Raf-dependent positive regulators and PP2A-dependent negative regulators.</p
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