Effects of Student's Grade to Teacher's Teaching: a Case Study in an Indigenous Classroom

Abstract: The perspective of teaching in rural area led this study to investigate non-indigenous teacher's teachings in an indigenous classroom of one of rural elementary schools in Hualien, Taiwan. The teacher's views on indigenous students' grade and how it related to the teacher’s teaching were explored also. This study was a case study. Data was collected and analyzed by applying qualitative method. It implemented classroom ethnography approach. It revealed that although the teacher had demonstrated a great deal of passion in teaching indigenous students, involvement the students in some indoor and outdoor activities, and using various media to get students’ attention, but he was concerned about his students’ low academic achievement. In Hualien, there are annual provincial examinations on the subjects of Chinese, Mathematics and English in May, which all the elementary students are required to take. To improve the student academic performance he used some classroom time to practice drills rather than spending time on exploratory activities. When indigenous students' underperformance in standardized tests are considered as reflecting poor quality of teaching, preparing students for the sit-in tests will continue to be a part of classroom teaching. This study suggests that teachers have to understand the educational context in which teaching and learning take place. Knowing this would provide teachers a more meaningful teaching and learning. Keywords: Teaching, grade, non-indigenous teacher, indigenous students, rural elementary schoo

PURSUING HIGHER EDUCATION CAREERS AND THE PROCESS OF MIGRATION AMONG INDONESIAN FEMALE MIGRANT WORKERS IN TAIWAN

Remittance, labor migration and the significance of the female role in the process of labor migration have recently become entrenched in many developing countries, such as Indonesia. The influential role these female migrant workers play in supporting their own families and in their self-fulfillment is of significance and worthy of being fully expounded and discussed. As breadwinners, these female migrant workers strive to pursue higher education by working their way through college. Qualitative in-depth interviews and focus group discussions were used to obtain five Indonesian female migrant workers' opinion and experiences about their experience of being a worker and a student in Taiwan. The data in this study were analyzed and evaluated with thematic analysis. This study describes the factors which cause the Indonesian female workers to become migrant workers in Taiwan. This includes getting high-paid jobs, shouldering the responsibility for supporting their own families, and pursuing self-fulfillment overseas. Besides, this study has investigated the difficulties and challenges that female Indonesian migrant workers had encountered while working and studying at the same time. On the whole, as caregivers, most of them often fail to have a flexible schedule to study due to the temporary jobs assigned by their employers. Also, some employers are unwilling to allow them to pursue higher education for feat that they would not concentrate on their own work. Above all, it is these female migrant workers that can define what their lives truly mean as migrant workers on their own, and that can align their talents and ambitions with their pursuits of higher education. This study provides a new exploration of how the female migrant workers’ gained a sense of self-fulfillment by pursuing higher education with working and studying at the same time. Facing a variety of challenges and hindrances, their persistence and perseverance can be further examined for those who are interested in studying this field deeper.   Keywords: Female migrant workers, higher education, Indonesian migrant workers, labor migration, remittance   Cite as: Bali, S., Liu, M. C., & Lin, H. H. (2019). Pursuing higher education careers and the process of migration among Indonesian female migrant workers in Taiwan.  Journal of Nusantara Studies, 4(2), 302-317. http://dx.doi.org/10.24200/jonus.vol4iss2pp302-31

Effect of non-lattice oxygen on ZrO2-based resistive switching memory

ZrO2-based resistive switching memory has attracted much attention according to its possible application in the next-generation nonvolatile memory. The Al/ZrO2/Pt resistive switching memory with bipolar resistive switching behavior is revealed in this work. The thickness of the ZrO2 film is only 20 nm. The device yield improved by the non-lattice oxygen existing in the ZrO2 film deposited at room temperature is firstly proposed. The stable resistive switching behavior and the long retention time with a large current ratio are also observed. Furthermore, it is demonstrated that the resistive switching mechanism agrees with the formation and rupture of a conductive filament in the ZrO2 film. In addition, the Al/ZrO2/Pt resistive switching memory is also possible for application in flexible electronic equipment because it can be fully fabricated at room temperature

Scopoletin 8-Hydroxylase-Mediated Fraxetin Production is Crucial for Iron Mobilization

Iron (Fe) is an essential mineral nutrient and an important factor for the composition of natural plant communities. Low Fe availability in aerated soils with neutral or alkaline pH has led to the evolution of elaborate mechanisms that extract Fe from the soil solution. In Arabidopsis (Arabidopsis thaliana), Fe is acquired by an orchestrated strategy that comprises mobilization, chelation, and reduction of Fe3+ prior to its uptake. Here, we show that At3g12900, previously annotated as scopoletin 8-hydroxylase (S8H), participates in Fe acquisition by mediating the biosynthesis of fraxetin (7,8-dihydroxy-6-methoxycoumarin), a coumarin derived from the scopoletin pathway. S8H is highly induced in roots of Fe-deficient plants both at the transcript and protein levels. Mutants defective in the expression of S8H showed increased sensitivity to growth on pH 7.0 media supplemented with an immobile source of Fe and reduced secretion of fraxetin. Transgenic lines overexpressing S8H exhibited an opposite phenotype. Homozygous s8h mutants grown on media with immobilized Fe accumulated significantly more scopolin, the storage form of scopoletin, supporting the designated function of S8H in scopoletin hydroxylation. Fraxetin exhibited Fe-reducing properties in vitro with higher rates being observed at neutral relative to acidic pH. Supplementing the media containing immobile Fe with fraxetin partially rescued the s8h mutants. In natural Arabidopsis accessions differing in their performance on media containing immobilized Fe, the amount of secreted fraxetin was highly correlated with growth and Fe and chlorophyll content, indicating that fraxetin secretion is a decisive factor for calcicole-calcifuge behavior (i.e. the ability/inability to thrive on alkaline soils) of plants

Green tea extract supplementation ameliorates CCl4-induced hepatic oxidative stress, fibrosis, and acute-phase protein expression in rat

Background/PurposeWe evaluated the long-term effects of green tea extract (GTE) supplementation on oxidative stress, biliary acute phase protein expression, and liver function in CCl4-induced chronic liver injury.MethodsWe evaluated the antioxidant activity of GTE in comparison with those of vitamin C, vitamin E, and β-carotene in vitro by using an ultrasensitive chemiluminescence analyzer. Chronic liver injury was induced by intraperitoneally administering carbon tetrachloride (CCl4) (1mL/kg body weight, twice weekly) to female Wistar rats for 8 weeks. The effects of low (4mg/kg body weight per day) and high (20mg/kg body weight per day) doses of intragastric GTE on CCl4-induced liver dysfunction and fibrosis were examined by measuring the bile and blood reactive oxygen species levels and biochemical parameters by using Western blot and two-dimensional polyacrylamide gel electrophoresis techniques.ResultsGTE has greater scavenging activity against O2–, H2O2, and Hypochlorous acid (HOCl) in vitro than vitamin C, vitamin E, and β-carotene do. In vivo, CCl4 markedly increased bile and blood reactive oxygen species production, lipid accumulation, number of infiltrated leukocytes, fibrosis, hepatic hydroxyproline content, and plasma alanine aminotransferase and aspartate aminotransferase activities, and reduced plasma albumin levels. Two-dimensional polyacrylamide gel electrophoresis revealed that CCl4 increased the acute-phase expression of six biliary proteins and decreased hepatic B-cell lymphoma 2 (Bcl-2), catalase, and CuZn superoxide dismutase protein expression. GTE supplementation attenuated CCl4-enhanced oxidative stress, levels of biochemical parameters, pathology, and acute-phase protein secretion, and preserved antioxidant/antiapoptotic protein expression.ConclusionGTE supplementation attenuates CCl4-induced hepatic oxidative stress, fibrosis, acute phase protein excretion, and hepatic dysfunction via the antioxidant and antiapoptotic defense mechanisms

COSY catalyses trans-cis isomerization and lactonization in the biosynthesis of coumarins

Coumarins, also known as 1,2-benzopyrones, comprise a large class of secondary metabolites that are ubiquitously found throughout the plant kingdom. In many plant species, coumarins are particularly important for iron acquisition and plant defence. Here, we show that COUMARIN SYNTHASE (COSY) is a key enzyme in the biosynthesis of coumarins. Arabidopsis thaliana cosy mutants have strongly reduced levels of coumarin and accumulate o-hydroxyphenylpropanoids instead. Accordingly, cosymutants have reduced iron content and show growth defects when grown under conditions in which there is a limited availabil-ity of iron. Recombinant COSY is able to produce umbelliferone, esculetin and scopoletin from their respective o-hydroxycin-namoyl-CoA thioesters by two reaction steps—a trans–cis isomerization followed by a lactonization. This conversion happens partially spontaneously and is catalysed by light, which explains why the need for an enzyme for this conversion has been overlooked. The combined results show that COSY has an essential function in the biosynthesis of coumarins in organs that are shielded from light, such as roots. These findings provide routes to improving coumarin production in crops or by microbial fermentation

Nanoscaled biphasic calcium phosphate modulates osteogenesis and attenuates LPS-induced inflammation

Micron-scale structure biphasic calcium phosphate (BCP) materials have demonstrated promising clinical outcomes in the field of bone tissue repair. However, research on biphasic calcium phosphate materials at the nanoscale level remains limited. In this study, we synthesize granular-shaped biphasic calcium phosphate nanomaterials with multiple desirable characteristics, including negatively charged surfaces, non-cytotoxicity, and the capability to penetrate cells, using a nanogrinding dispersion process with a polymeric carboxylic acid as the dispersant. Our results reveal that treating human osteoblasts with 0.5 μg/mL biphasic calcium phosphate nanomaterials results in a marked increase in alkaline phosphatase (ALP) activity and the upregulation of osteogenesis-related genes. Furthermore, these biphasic calcium phosphate nanomaterials exhibit immunomodulatory properties. Treatment of THP-1-derived macrophages with BCP nanomaterials decreases the expression of various inflammatory genes. Biphasic calcium phosphate nanomaterials also mitigate the elevated inflammatory gene expression and protein production triggered by lipopolysaccharide (LPS) exposure in THP-1-derived macrophages. Notably, we observe that biphasic calcium phosphate nanomaterials have the capacity to reverse the detrimental effects of LPS-stimulated macrophage-conditioned medium on osteoblastic activity and mineralization. These findings underscore the potential utility of biphasic calcium phosphate nanomaterials in clinical settings for the repair and regeneration of bone tissue. In conclusion, this study highlights the material properties and positive effects of biphasic calcium phosphate nanomaterials on osteogenesis and immune regulation, opening a promising avenue for further research on inflammatory osteolysis in patients undergoing clinical surgery