Large scale epitaxial growth and transfer of monolayer MoS has attracted great attention in recent years. Here, we report the wafer-scale epitaxial growth of highly oriented continuous and uniform monolayer MoS films on single-crystalline sapphire wafers by chemical vapor deposition (CVD) method. The epitaxial film is of high quality and stitched by many 0°, 60° domains and 60°-domain boundaries. Moreover, such wafer-scale monolayer MoS films can be transferred and stacked by a simple stamp-transfer process, and the substrate is reusable for subsequent growth. Our progress would facilitate the scalable fabrication of various electronic, valleytronic, and optoelectronic devices for practical applications.
This review describes recent advances in the propane dehydrogenation process in terms of emerging technologies, catalyst development and new chemistry.
The transcription factor Batf controls TH17 differentiation by regulating the expression of both RORγt and RORγt target genes such as Il17. Here, we report the mechanism by which Batf controls in vivo class switch recombination (CSR). In T cells, Batf directly controls expression of the transcription factors Bcl-6 and c-Maf, both of which are needed for development of T follicular helper (TFH) cells. Restoring TFH activity to Batf−/− T cells in vivo requires co-expression of both Bcl-6 and c-Maf. In B cells, Batf directly controls the expression of both activation-induced cytidine deaminase (AID) and of IH-CH germline transcripts. Thus, Batf functions at multiple hierarchical levels across two cell types to globally regulate in vivo switched antibody responses.
Purpose
– This article aims to provide a summary review of what is already known about customer loyalty and identifies some emerging issues that play an important role in it. As a result of dramatic changes in the marketplace and in consumers’ connections with the hospitality industry, researchers and practitioners are keen to understand the factors that underpin customer loyalty.
Design/methodology/approach
– By synthesizing extant customer loyalty literature, this article seeks further understanding of loyalty and offers priorities for ongoing loyalty research.
Findings
– Using conceptual models, this study provides a framework designed to extend the understanding of customer loyalty and the impact of the evolving role of engaged customers.
Practical implications
– Companies are advised to create emotionally engaged, loyal brand ambassadors by focusing on emerging areas, such as customer engagement, brand citizenship behaviors, mass personalization, employee engagement, brand ambassadors (both employees and customers), co-creation of value, co-design, co-consumption and rapport between customers and employees.
Originality/value
– This article crafts a conceptual framework for customer loyalty and identifies those factors that influence its development in the service industry with a special focus on the hospitality industry.
The increasing use of nanotechnology in consumer products and medical applications underlies the importance of understanding its potential toxic effects to people and the environment. Although both fullerene and carbon nanotubes have been demonstrated to accumulate to cytotoxic levels within organs of various animal models and cell types and carbon nanomaterials have been exploited for cancer therapies, the molecular and cellular mechanisms for cytotoxicity of this class of nanomaterial are not yet fully apparent. To address this question, we have performed whole genome expression array analysis and high content image analysis based phenotypic measurements on human skin fibroblast cell populations exposed to multiwall carbon nano-onions (MWCNOs) and multiwall carbon nanotubes (MWCNTs). Here we demonstrate that exposing cells to MWCNOs and MWCNTs at cytotoxic doses induces cell cycle arrest and increases apoptosis/necrosis. Expression array analysis indicates that multiple cellular pathways are perturbed after exposure to these nanomaterials at these doses, with material-specific toxigenomic profiles observed. Moreover, there are also distinct qualitative and quantitative differences in gene expression profiles, with each material at different dosage levels (6 and 0.6 microg/mL for MWCNO and 0.6 and 0.06 microg/mL for MWCNT). MWCNO and MWCNT exposure activates genes involved in cellular transport, metabolism, cell cycle regulation, and stress response. MWCNTs induce genes indicative of a strong immune and inflammatory response within skin fibroblasts, while MWCNO changes are concentrated in genes induced in response to external stimuli. Promoter analysis of the microarray results demonstrate that interferon and p38/ERK-MAPK cascades are critical pathway components in the induced signal transduction contributing to the more adverse effects observed upon exposure to MWCNTs as compared to MWCNOs.
SUMMARY
Pdx1 is a homeobox-containing transcription factor that plays a key role in pancreatic development and adult β-cell function. In this study, we traced the fate of adult β-cells after Pdx1 deletion. As expected, β-cell-specific removal of Pdx1 resulted in severe hyperglycemia within days. Surprisingly, a large fraction of Pdx1-deleted cells rapidly acquired ultrastructural and physiological features of α-cells, indicating that a robust cellular reprogramming had occurred. Reprogrammed cells exhibited a global transcriptional shift which included de-repression of the α-cell transcription factor MafB, resulting in a transcriptional profile that closely resembled that of α-cells. These findings indicate that Pdx1 acts as a master regulator of β-cell fate by simultaneously activating genes essential for β-cell identity and repressing those associated with α-cell identity. We discuss the significance of these findings in the context of the emerging notion that loss of β-cell identity contributes to the pathogenesis of type 2 diabetes.
SUMMARY
Activation Induced cytidine Deaminase (AID) initiates Immunoglobulin (Ig) heavy chain (IgH) class switch recombination (CSR) and Ig variable region somatic hypermutation (SHM) in B lymphocytes by deaminating cytidines on template and non-template strands of transcribed DNA substrates. However, the mechanism of AID access to the template DNA strand, particularly when hybridized to a nascent RNA transcript, has been an enigma. We now implicate the RNA exosome, a cellular RNA processing/degradation complex, in targeting AID to both DNA strands. In B-lineage cells activated for CSR, the RNA exosome associates with AID, accumulates on IgH switch regions in an AID-dependent fashion, and is required for optimal CSR. Moreover, both the cellular RNA exosome complex and a recombinant RNA exosome core complex impart robust AID- and transcription-dependent DNA deamination of both strands of transcribed SHM substrates in vitro. Our findings reveal a role for non-coding RNA surveillance machinery in generating antibody diversity.
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