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      저자 : Weitzman, Lenore J. (검색결과 4 건)
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        10. 離婚法革命과 平等의 幻想 : 美國의 경우

        Weitzman, Lenore J. 연세법학회 1990 연세법학 Vol.1 No.-

      • Recent Trends in the Prevalence and Severity of Childhood Asthma

        Weitzman, Michael,Gortmaker, Steven L.,Sobol, Arthur M.,Perrin, James M. MediMedia Korea 1993 JAMA-Korea Vol.8 No.4

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        Centimeter-Scale 2D van der Waals Vertical Heterostructures Integrated on Deformable Substrates Enabled by Gold Sacrificial Layer-Assisted Growth

        Islam, Md Ashraful,Kim, Jung Han,Schropp, Anthony,Kalita, Hirokjyoti,Choudhary, Nitin,Weitzman, Dylan,Khondaker, Saiful I.,Oh, Kyu Hwan,Roy, Tania,Chung, Hee-Suk,Jung, Yeonwoong American Chemical Society 2017 NANO LETTERS Vol.17 No.10

        <P>Two-dimensional (2D) transition metal dichalcogenides (TMDs) such as molybdenum or tungsten disulfides (MoS2 or WS2) exhibit extremely large in-plane strain limits and unusual optical/electrical properties, offering unprecedented opportunities for flexible electronics/optoelectronics in new form factors. In order for them to be technologically viable building-blocks for such emerging technologies, it is critically demanded to grow/integrate them onto flexible or arbitrary shaped substrates on a large wafer-scale compatible with the prevailing microelectronics processes. However, conventional approaches to assemble them on such unconventional substrates via mechanical exfoliations or coevaporation chemical growths have been limited to small-area transfers of 2D TMD layers with uncontrolled spatial homogeneity. Moreover, additional processes involving a prolonged exposure to strong chemical etchants have been required for the separation of as-grown 2D layers, which is detrimental to their material properties. Herein, we report a viable strategy to universally combine the centimeter-scale growth of various 2D TMD layers and their direct assemblies on mechanically deformable substrates. By exploring the water-assisted debonding of gold (Au) interfaced with silicon dioxide (SiO2), we demonstrate the direct growth, transfer, and integration of 2D TMD layers and heterostructures such as 2D MoS2 and 2D MoS2/WS2 vertical stacks on centimeter-scale plastic and metal foil substrates. We identify the dual function of the Au layer as a growth substrate as well as a sacrificial layer which facilitates 2D layer transfer. Furthermore, we demonstrate the versatility of this integration approach by fabricating centimeter-scale 2D MoS2/single walled carbon nanotube (SWNT) vertical heterojunctions which exhibit current rectification and photoresponse. This study opens a pathway to explore large-scale 2D TMD van der Waals layers as device building blocks for emerging mechanically deformable electronics/optoelectronics.</P>

      • SAMHD1 Restricts Herpes Simplex Virus 1 in Macrophages by Limiting DNA Replication

        Kim, Eui Tae,White, Tommy E.,Brandariz-Nú,ñ,ez, Alberto,Diaz-Griffero, Felipe,Weitzman, Matthew D. American Society for Microbiology 2013 Journal of virology Vol.87 No.23

        <P>Macrophages play important roles in host immune defense against virus infection. During infection by herpes simplex virus 1 (HSV-1), macrophages acquire enhanced antiviral potential. Restriction of HSV-1 replication and progeny production is important to prevent viral spread, but the cellular mechanisms that inhibit the DNA virus in macrophages are unknown. SAMHD1 was recently identified as a retrovirus restriction factor highly expressed in macrophages. The SAMHD1 protein is expressed in both undifferentiated monocytes and differentiated macrophages, but retroviral restriction is limited to differentiated cells by modulation of SAMHD1 phosphorylation. It is proposed to block reverse transcription of retroviral RNA into DNA by depleting cellular deoxynucleotide triphosphates (dNTPs). Viruses with DNA genomes do not employ reverse transcription during infection, but replication of their viral genomes is also dependent on intracellular dNTP concentrations. Here, we demonstrate that SAMHD1 restricts replication of the HSV-1 DNA genome in differentiated macrophage cell lines. Depleting SAMHD1 in THP-1 cells enhanced HSV-1 replication, while ectopic overexpression of SAMHD1 in U937 cells repressed HSV-1 replication. SAMHD1 did not impact viral gene expression from incoming HSV-1 viral genomes. HSV-1 restriction involved the dNTP triphosphohydrolase activity of SAMHD1 and was partially overcome by addition of exogenous deoxynucleosides. Unlike retroviruses, restriction of HSV-1 was not affected by SAMHD1 phosphorylation status. Our results suggest that SAMHD1 functions broadly to inhibit replication of DNA viruses in nondividing macrophages.</P>

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