Chuanbin mao nature materials magazine

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FuKe WangSusan L. Glutathione-mediated biotransformation in the liver modulates nanoparticle transport. Supplementary Material SI Click here to view. Rights and permissions Reprints and Permissions. Proteins, nucleic acids and ions secreted from single cells are the key signalling factors that determine the interaction of cells with their environment and the neighbouring cells. Scanometric DNA array detection with nanoparticle probes. NimmoBinrui CaoChuanbin Mao. Author information Copyright and License information Disclaimer.

  • Phage as a Genetically Modifiable Supramacromolecule in Chemistry, Materials and Medicine
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  • Center for Micro-Engineered Materials, University of New Mexico. Harrison;, Chuanbin Mao;, Priyabrata Mukherjee; & Rajagopal Ramesh. Preparation and characterization of phage-based film materials. The M13 phage . Journal of Biomedical Materials Research Part A 68A, – (). Article · CAS Jianglin Wang;, Lin Wang;, Xin Li; & Chuanbin Mao. Website: · Tree Info Similar Nature Nanotechnology. Journal of Materials Chemistry.
    Sign up. Bioprocess Eng. We selected SKBR3 cell-internalizing peptides from the same phage library through several rounds of biopanning.

    Glutathione-mediated biotransformation in the liver modulates nanoparticle transport.

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    Cancer Ther. Bottom-up-assembled nanostar colloids of gold cores and tubes derived from tobacco mosaic virus. The interplay of Dirac physics and induced superconductivity at the interface of a 3D topological insulator TI with an s-wave superconductor S provides a new platform for topologically protected quantum computation based on elusive Majorana modes.

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    Read also provides personalized recommendations to keep you up to date in your field.

    You are using a browser version with limited support for CSS. Third, the resultant phage is used as a biotemplate to synthesize or assemble nanoparticles. Leong, H. General concepts of the counting strategy aSchematic representation of the counting strategy not drawn to scale.

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    and Chuanbin Mao . Nat Mater. *Correspondence and requests for materials should be addressed to N.G.

    Phage as a Genetically Modifiable Supramacromolecule in Chemistry, Materials and Medicine

    or C.M. @gninug. Binrui Cao, Mingying Yang, and Chuanbin Mao Our successes in exploiting phage in chemistry, materials, and medicine suggest that phage. Nature materials and Chuanbin Mao.

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    JoVE | Peer Reviewed Scientific Video Journal - Methods ; JoVE publishes peer-reviewed scientific video protocols.
    Our work suggests that the stem cell-targeting peptides selected from biopanning can be conjugated to nanocarriers for enhancing stem cell-based gene therapy. Phage Display. Here, we show an ultrasensitive naked-eye-counting strategy for quantifying miRNAs by employing T7 phage-a bacteria-specific virus nanoparticle-as a surrogate.

    Please review our privacy policy. The ability to count biomolecules such as cancer-biomarker miRNAs with the naked eye is seemingly impossible in molecular diagnostics. Valentini P, et al.

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    Chuanbin mao nature materials magazine
    First, a target-binding peptide is identified by biopanning.

    The two different miRNA-capturing oligonucleotides are complementary and thus bind to two different segments at two distal ends of the same miRNA target molecule, favouring the formation of the sandwich complex. Rapid gate-based spin read-out in silicon using an on-chip resonator. Silica We first developed a general method of using surface proteins of biotemplates to catalyze the hydrolysis of organosilicate precursors and subsequent polycondensation to produce silica.

    Therefore, they could not be bound together unless T7 phages were engineered to display GBP.

    Nature Nanotechnology | Page 4. • journal G Harrison, Chuanbin Mao, Priyabrata Mukherjee, Rajagopal Ramesh, Lacey R McNally. Defects are ubiquitous in solids and often introduce new properties that are absent in pristine materials.

    Chuanbin Mao, University of Oklahoma, Page 2 Nanotechnology, Chemical Physics Letters, Journal of Materials Research. (2) Nature Biotechnology. Materials Science, Medicine; Published in Nature materials Xin Zhou, Peng Cao, +3 authors Chuanbin Mao. The ability to Biotechnology journal;
    Figure 2. This work verified that our phage film system is a powerful platform for studying stem cell niche. The capturing efficiency could be used to calculate the actual number of target molecules, which approximately doubles the number of plaques counted in the Petri dish.

    A Nature Research Journal. Although this Account is focused on filamentous phage, our most recent work 39 shows that the other types of phage also hold promise for use in chemistry, materials, and medicine.

    A plating assay was performed to examine the formation of green fluorescent plaques with the recombinant GFP-displaying T7 phage lysate.

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    Because the number of fluorescent plaques is equal to that of the T7 phages, which is originally equal to the number of miRNA target molecules in the complex, counting the number of fluorescent plaques that can be seen in the Petri dish by eye results in quantification of the miRNA.

    For a better experience, use the Read by QxMD app. The data confirm that the counting strategy is capable of detecting the change in the level of miRNAs expression in cancer cells. Our work suggests that the stem cell-targeting peptides selected from biopanning can be conjugated to nanocarriers for enhancing stem cell-based gene therapy.

    To prepare phage films, we adopted a layer-by-layer self-assembly method in which poly lysine and phage nanofibers are alternatively coated on the glass cover-slide with phage nanofibers as a terminating layer Figure 5A.