Xin Yu scite author profile

We describe herein the combination of electrochemical immunosensors using single-wall carbon nanotube (SWNT) forest platforms with multi-label secondary antibody-nanotube bioconjugates for highly sensitive detection of a cancer biomarker in serum and tissue lysates. Greatly amplified sensitivity was attained by using bioconjugates featuring horseradish peroxidase (HRP) labels and secondary antibodies (Ab 2 ) linked to carbon nanotubes (CNT) at high HRP/Ab 2 ratio. This approach provided a detection limit of 4 pg mL −1 (100 amol mL −1 ), for prostate specific antigen (PSA) in 10 μL of undiluted calf serum, a mass detection limit of 40 fg. Accurate detection of PSA in human serum samples was demonstrated by comparison to standard ELISA assays. PSA was quantitatively measured in prostate tissue samples for which PSA could not be differentiated by the gold standard immunohistochemical staining method. These easily fabricated SWNT immunosensors show excellent promise for clinical screening of cancer biomarkers and point-of-care diagnostics.

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The Regulation of Exosome Secretion: a Novel Function of the p53 Protein

Harris

Levine

2006

590

503

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The p53 protein responds to stress signals by regulating the transcription of a variety of genes. Some of these genes encode secreted proteins that may be involved in the communication between adjacent cells. In this study, a proteomics approach was employed to identify proteins secreted by cells in a p53-dependent manner after DNA damage. In addition to the known transcriptional targets of p53, a set of proteins encoded by genes that are not transcriptional targets of p53 were found to increase in the culture medium after p53 activation. These proteins exit the cell via small, secreted vesicles called exosomes and exosome production by cells was found to be regulated by the p53 response. A p53-regulated gene product, TSAP6, was shown to enhance exosome production in cells undergoing a p53 response to stress. Thus, the p53 pathway regulates the production of exosomes into the medium and these vesicles can communicate with adjacent cells and even cells of the immune system. (Cancer Res 2006; 66(9): 4795-802)

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Carbon coated porous nickel phosphides nanoplates for highly efficient oxygen evolution reaction

Feng

Guan

et al. 2016

Energy Environ. Sci.

828

423

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Allele-Specific p53 Mutant Reactivation

et al. 2012

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Summary Rescuing the function of mutant p53 protein is an attractive cancer therapeutic strategy. Using the NCI anticancer drug screen data, we identified two compounds from the thiosemicarbazone family that manifest increased growth inhibitory activity in mutant p53 cells, particularly for the p53R175 mutant. Mechanistic studies reveal that NSC319726 restores WT structure and function to the p53R175 mutant. This compound kills p53R172H knock-in mice with extensive apoptosis and inhibits xenograft tumor growth in a 175-allele specific mutant p53 dependent manner. This activity depends upon the zinc ion chelating properties of the compound as well as redox changes. These data identify NSC319726 as a p53R175 mutant reactivator and as a lead compound for p53 targeted drug development.

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Complex Nanostructures from Materials based on Metal–Organic Frameworks for Electrochemical Energy Storage and Conversion

et al. 2017

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Metal-organic frameworks (MOFs) have drawn tremendous attention because of their abundant diversity in structure and composition. Recently, there has been growing research interest in deriving advanced nanomaterials with complex architectures and tailored chemical compositions from MOF-based precursors for electrochemical energy storage and conversion. Here, a comprehensive overview of the synthesis and energy-related applications of complex nanostructures derived from MOF-based precursors is provided. After a brief summary of synthetic methods of MOF-based templates and their conversion to desirable nanostructures, delicate designs and preparation of complex architectures from MOFs or their composites are described in detail, including porous structures, single-shelled hollow structures, and multishelled hollow structures, as well as other unusual complex structures. Afterward, their applications are discussed as electrode materials or catalysts for lithium-ion batteries, hybrid supercapacitors, water-splitting devices, and fuel cells. Lastly, the research challenges and possible development directions of complex nanostructures derived from MOF-based-templates for electrochemical energy storage and conversion applications are outlined.

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Structure-designed synthesis of FeS₂@C yolk–shell nanoboxes as a high-performance anode for sodium-ion batteries

Liu

Song

et al. 2017

Energy Environ. Sci.

478

242

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The Design and Synthesis of Hollow Micro‐/Nanostructures: Present and Future Trends

2018

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Hollow micro-/nanostructures have attracted tremendous interest owing to their intriguing structure-induced physicochemical properties and great potential for widespread applications. With the development of modern synthetic methodology and analytical instruments, a rapid structural/compositional evolution of hollow structures from simple to complex has occurred in recent decades. Here, an updated overview of research progress made in the synthesis of hollow structures is provided. After an introduction of definition and classification, achievements in synthetic approaches for these delicate hollow architectures are presented in detail. According to formation mechanisms, these strategies can be categorized into four different types, including hard-templating, soft-templating, self-templated, and template-free methods. In particular, the rationales and emerging innovations in conventional templating syntheses are in focus. The development of burgeoning self-templating strategies based on controlled etching, outward diffusion, and heterogeneous contraction is also summarized. In addition, a brief overview of template-free methods and recent advances on combined mechanisms is provided. Notably, the strengths and weaknesses of each category are discussed in detail. In conclusion, a perspective on future trends in the research of hollow micro-/nanostructures is given.

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Hierarchical MoS ₂ tubular structures internally wired by carbon nanotubes as a highly stable anode material for lithium-ion batteries

et al. 2016

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Xin Yu

Carbon Nanotube Amplification Strategies for Highly Sensitive Immunodetection of Cancer Biomarkers

The Regulation of Exosome Secretion: a Novel Function of the p53 Protein

Carbon coated porous nickel phosphides nanoplates for highly efficient oxygen evolution reaction

Allele-Specific p53 Mutant Reactivation

Complex Nanostructures from Materials based on Metal–Organic Frameworks for Electrochemical Energy Storage and Conversion

Structure-designed synthesis of FeS₂@C yolk–shell nanoboxes as a high-performance anode for sodium-ion batteries

The Design and Synthesis of Hollow Micro‐/Nanostructures: Present and Future Trends

Hierarchical MoS ₂ tubular structures internally wired by carbon nanotubes as a highly stable anode material for lithium-ion batteries

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Xin Yu

Carbon Nanotube Amplification Strategies for Highly Sensitive Immunodetection of Cancer Biomarkers

The Regulation of Exosome Secretion: a Novel Function of the p53 Protein

Carbon coated porous nickel phosphides nanoplates for highly efficient oxygen evolution reaction

Allele-Specific p53 Mutant Reactivation

Complex Nanostructures from Materials based on Metal–Organic Frameworks for Electrochemical Energy Storage and Conversion

Structure-designed synthesis of FeS2@C yolk–shell nanoboxes as a high-performance anode for sodium-ion batteries

The Design and Synthesis of Hollow Micro‐/Nanostructures: Present and Future Trends

Hierarchical MoS 2 tubular structures internally wired by carbon nanotubes as a highly stable anode material for lithium-ion batteries

Contact Info

Product

Resources

About

Structure-designed synthesis of FeS₂@C yolk–shell nanoboxes as a high-performance anode for sodium-ion batteries

Hierarchical MoS ₂ tubular structures internally wired by carbon nanotubes as a highly stable anode material for lithium-ion batteries