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해외 초·중등학교 한국어 교육과정 산출 범주의 특징과 구조
김유미 ( Kim¸ Yumi ),이숙진 ( Lee¸ Sookjin ),박동호 ( Pak¸ Dongho ) 한국언어문화교육학회 2021 언어와 문화 Vol.17 No.3
In order to promote the Korean language education, it is necessary to develop a Korean language curriculum that is suitable for the curriculum system of each overseas country and to consider the needs of overseas learners. High-quality Korean language education can be provided for abroad middle and secondary school learners when a systematic curriculum is established. In addition, customized curriculum and textbooks can be developed in line with the effective foreign language education policy. The purpose of this study is to show the features and structure of the production category that makes up a part of the Korean language curriculum for abroad middle and secondary school learners. In order to achieve this purpose, first of all, we will look at the Korean language curriculum for abroad middle and secondary schools. In the following, communicative language activities which are reception, production, interaction and mediation and their strategies will be generally introduced. Then, we will discuss a production category. More precisely, the definition and features of production and the structure and contents of production will be discussed in detail. (Seoul School Integrated Sciences & Technologies · Kyung Hee University · Kyung Hee University)
Lee, Inhye,Kim, Kuglae,Lee, Sumin,Lee, Seungjun,Hwang, Eunjin,Shin, Kihye,Kim, Dayoung,Choi, Jungki,Choi, Hyunmo,Cha, Jeong Seok,Kim, Hoyoung,Lee, Rin-A,Jeong, Suyeong,Kim, Jeongsik,Kim, Yumi,Nam, Hon Oxford University Press 2018 Journal of experimental botany Vol.69 No.15
<▼1><P>A missense mutation of <I>KARRIKIN-INSENSITIVE2</I>, <I>KAI2</I><SUP><I>ply2</I></SUP>, compromises its ligand-binding activity, which subsequently impairs KAI2-signaling and multiple aspects of light-dependent responses.</P></▼1><▼2><P><B>Abstract</B></P><P>A smoke-derived compound, karrikin (KAR), and an endogenous but as yet unidentified KARRIKIN INSENSITIVE2 (KAI2) ligand (KL) have been identified as chemical cues in higher plants that impact on multiple aspects of growth and development. Genetic screening of light-signaling mutants in <I>Arabidopsis thaliana</I> has identified a mutant designated as <I>ply2</I> (<I>pleiotropic long hypocotyl2</I>) that has pleiotropic light-response defects. In this study, we used positional cloning to identify the molecular lesion of <I>ply2</I> as a missense mutation of <I>KAI2</I>/<I>HYPOSENSITIVE TO LIGHT</I>, which causes a single amino acid substitution, Ala219Val. Physiological analysis and genetic epistasis analysis with the KL-signaling components <I>MORE AXILLARY GROWTH2</I> (<I>MAX2</I>) and <I>SUPPRESSOR OF MAX2 1</I> suggested that the pleiotropic phenotypes of the <I>ply2</I> mutant can be ascribed to a defect in KL-signaling. Molecular and biochemical analyses revealed that the mutant KAI2<SUP>ply2</SUP> protein is impaired in its ligand-binding activity. In support of this conclusion, X-ray crystallography studies suggested that the <I>KAI2</I><SUP><I>ply2</I></SUP> mutation not only results in a narrowed entrance gate for the ligand but also alters the structural flexibility of the helical lid domains. We discuss the structural implications of the Ala219 residue with regard to ligand-specific binding and signaling of KAI2, together with potential functions of KL-signaling in the context of the light-regulatory network in <I>Arabidopsis thaliana</I>.</P></▼2>
Lee, Donghwa,Lee, Hyungjin,Ahn, Yumi,Jeong, Youngjun,Lee, Dae-Young,Lee, Youngu RSC Pub 2013 Nanoscale Vol.5 No.17
<P>A new AgNW-graphene hybrid transparent conducting electrode (TCE) was prepared by dry-transferring a chemical vapor deposition (CVD)-grown monolayer graphene onto a pristine AgNW TCE. The AgNW-graphene hybrid TCE exhibited excellent optical and electrical properties as well as mechanical flexibility. The AgNW-graphene hybrid TCE showed highly enhanced thermal oxidation and chemical stabilities because of the superior gas-barrier property of the graphene protection layer. Furthermore, the organic solar cells with the AgNW-graphene hybrid TCE showed excellent photovoltaic performance as well as superior long-term stability under ambient conditions.</P>
Lee, Hyungjin,Lee, Donghwa,Ahn, Yumi,Lee, Eun-Woo,Park, Lee Soon,Lee, Youngu RSC Pub 2014 Nanoscale Vol.6 No.15
<P>Highly flexible and efficient silver nanowire-based organic light-emitting diodes (OLEDs) have been successfully fabricated by employing a n-type hole injection layer (HIL). The silver nanowire-based OLEDs without light outcoupling structures exhibited excellent device characteristics such as extremely low turn-on voltage (3.6 V) and high current and power efficiencies (44.5 cd A(-1) and 35.8 lm W(-1)). In addition, flexible OLEDs with the silver nanowire transparent conducting electrode (TCE) and n-type HIL fabricated on plastic substrates showed remarkable mechanical flexibility as well as device performance.</P>
Sukyeung Lee,Myeongchul Lee,Yumi Choi,Nayoung Ro,Jong-wook Chung 한국육종학회 2014 한국육종학회 심포지엄 Vol.2014 No.07
This study is to raise the utilization of genetic resource of wheat (Triticum aestivum) landrace by evaluating genetic variation related to end use quality of the Far East. Allelic composition of HMW-glutenin subunits encoded by genes of Glu-1 loci associated with bread baking quality was investigated in 324 wheat landrace genetic resources originated from Korea, China, and Japan. The most frequent combination of HMW-glutenin subunits were Glu-A1c, Glu-B1b in Korean and Japanese resources, but Glu-A1a and Glu-B1c were the most in Chinese resources. By using the Glu-1 score system, 24 accessions were evaluated as 10 out of 10. As for genetic diversity, represented by polymorphic information content(PIC) index, the level of variation of Korean landrace(0.245) was lower than that in China(0.569) and Japan(0.294). When it comes to unique composition, Glu-B1f(13+16) and Glu-D1f(2+10) subunits are only in Chinese resources. Glu-B1d(6+8), Glu-B1e(20), Glu-D1b(7+8), and Glu-D1c (7+9) subunits are only in Korean resources. Consequently, this study showed that Chinese landrace collection was the most highly diverse and had distinctive characteristics compared to Korean and Japanese one. Especially, some resources having preferable genetic stock or high Glu-1 score can be valuable for wheat breeding program.
Polymer Thin Film–Induced Tumor Spheroids Acquire Cancer Stem Cell–like Properties
Choi, Minsuk,Yu, Seung J.,Choi, Yoonjung,Lee, Hak R.,Lee, Eunbeol,Lee, Eunjung,Lee, Yumi,Song, Junhyuk,Son, Jin G.,Lee, Tae G.,Kim, Jin Y.,Kang, Sukmo,Baek, Jieung,Lee, Daeyoup,Im, Sung G.,Jon, Sangyo American Association for Cancer Research 2018 Cancer Research Vol.78 No.24
<P>A new cell culture technology enables highly tumorigenic 3D spheroids to be easily generated from various cancer cell sources in the common laboratory.</P><P><B></B></P><P>Although cancer stem cells (CSC) are thought to be responsible for tumor recurrence and resistance to chemotherapy, CSC-related research and drug development have been hampered by the limited supply of diverse, patient-derived CSC. Here, we present a functional polymer thin film (PTF) platform that promotes conversion of cancer cells to highly tumorigenic three-dimensional (3D) spheroids without the use of biochemical or genetic manipulations. Culturing various human cancer cells on the specific PTF, poly(2,4,6,8-tetravinyl-2,4,6,8-tetramethyl cyclotetrasiloxane) (pV4D4), gave rise to numerous multicellular tumor spheroids within 24 hours with high efficiency and reproducibility. Cancer cells in the resulting spheroids showed a significant increase in the expression of CSC-associated genes and acquired increased drug resistance compared with two-dimensional monolayer-cultured controls. These spheroids also exhibited enhanced xenograft tumor-forming ability and metastatic capacity in nude mice. By enabling the generation of tumorigenic spheroids from diverse cancer cells, the surface platform described here harbors the potential to contribute to CSC-related basic research and drug development.</P><P><B>Significance:</B></P><P>A new cell culture technology enables highly tumorigenic 3D spheroids to be easily generated from various cancer cell sources in the common laboratory.</P>
A Constraint on Possible Compounds
Lee, Yumi 이화영어학회 1996 영어학 연구 Vol.- No.1
Compounding is known as a formally productive and semantically predictable process. But all the compounds are not always possible. This paper aims at finding a condition to distinguish well-formed compounds from ill-formed ones. For the purpose, I will accept E. Williams' insightful idea that all the morphological operations affect argument structures, assuming his Righthand Head Rule, and then investigate the possible relationship between head and nonhead in compounds on the basis of argument structure. Two possible relationships of Argument Satisfaction and Head Modification will be presented. According to them, the nonhead of a compound can be interpreted either as an agrument or as a modifier of the head. I will propose to utililize this fact as a constraint on possible compounds. By reanalyzing the data of English compounds, I will demonstrate the predictive and explanatory power of this proposal.