Cleaning and passivation of the Si(100) surface by low temperature remote hydrogen plasma treatment for Si epitaxy

The aim of this study was to investigate the effects of hypoxia-inducible factor-1α (HIF-1α) on the proliferation, migration and invasion of neuroblastoma (NB) cells and the mechanisms involved. We here initially used the real-time polymerase chain reaction (real-time PCR), Western blotting and immunohistochemistry (IHC) to detect the expression of HIF-1α and components of the sonic hedgehog (SHH) signaling pathway in NB cells and human specimens. Subsequently, cell proliferation, migration and invasion were analyzed using the cell counting assay, wound healing assay and Transwell system in two types of human NB cell lines, SH-SY5Y and IMR32. In addition, the role of HIF-1α in NB cells growth was determined in a xenograft nude mouse model. We found that the level of HIF-1α was significantly upregulated during NB progression and was associated with the expression of two components of SHH signaling, SHH and GLI1. We next indicated that the proliferation, migration and invasiveness of SH-SY5Y and IMR32 cells were significantly inhibited by HIF-1α knockdown, which was mediated by small interfering RNAs (siRNAs) targeting against its mRNA. Furthermore, the growth of NB cells in vivo was also suppressed by HIF-1α inhibition. Finally, the pro-migration and proliferative effects of HIF-1α could be reversed by disrupting SHH signaling. In conclusion, our results demonstrated that upregulation of HIF-1α in NB promotes proliferation, migration and invasiveness via SHH signaling.

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A Spatial-Temporal Feature-Based Detection Framework for Infrared Dim Small Target

Lü

Zhang

et al. 2022

IEEE Trans. Geosci. Remote Sensing

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Surface-enhanced Raman scattering from AgNP–graphene–AgNP sandwiched nanostructures

et al. 2015

Nanoscale

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We developed a facile approach toward hybrid AgNP-graphene-AgNP sandwiched structures using self-organized monolayered AgNPs from wet chemical synthesis for the optimized enhancement of the Raman response of monolayer graphene. We demonstrate that the Raman scattering of graphene can be enhanced 530 fold in the hybrid structure. The Raman enhancement is sensitively dependent on the hybrid structure, incident angle, and excitation wavelength. A systematic simulation is performed, which well explains the enhancement mechanism. Our study indicates that the enhancement resulted from the plasmonic coupling between the AgNPs on the opposite sides of graphene. Our approach towards ideal substrates offers great potential to produce a "hot surface" for enhancing the Raman response of two-dimensional materials.

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Comparing the effects of chlorination on membrane integrity and toxin fate of high- and low-viability cyanobacteria

Chen

Zeng

et al. 2020

Water Research

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Sheng Chen

High-Resolution Submillimeter Multiline Observations of G19.61 – 0.23: Small-Scale Chemistry

Induction of Escherichia coli into a VBNC state through chlorination/chloramination and differences in characteristics of the bacterium between states

Viable but non-culturable E. coli induced by low level chlorination have higher persistence to antibiotics than their culturable counterparts

Population and single cell metabolic activity of UV-induced VBNC bacteria determined by CTC-FCM and D2O-labeled Raman spectroscopy

HIF-1α Contributes to Proliferation and Invasiveness of Neuroblastoma Cells via SHH Signaling

A Spatial-Temporal Feature-Based Detection Framework for Infrared Dim Small Target

Surface-enhanced Raman scattering from AgNP–graphene–AgNP sandwiched nanostructures

Comparing the effects of chlorination on membrane integrity and toxin fate of high- and low-viability cyanobacteria

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