Chuanbin Mao to Humans
This is a "connection" page, showing publications Chuanbin Mao has written about Humans.
Connection Strength
0.589
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Target-Triggered Formation of Artificial Enzymes on Filamentous Phage for Ultrasensitive Direct Detection of Circulating miRNA Biomarkers in Clinical Samples. Angew Chem Int Ed Engl. 2022 11 07; 61(45):e202210121.
Score: 0.047
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Selectively Suppressing Tumor Angiogenesis for Targeted Breast Cancer Therapy by Genetically Engineered Phage. Adv Mater. 2020 Jul; 32(29):e2001260.
Score: 0.040
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Phage nanofibers in nanomedicine: Biopanning for early diagnosis, targeted therapy, and proteomics analysis. Wiley Interdiscip Rev Nanomed Nanobiotechnol. 2020 07; 12(4):e1623.
Score: 0.040
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Hierarchical Ordered Assembly of Genetically Modifiable Viruses into Nanoridge-in-Microridge Structures. Adv Mater. 2019 Dec; 31(52):e1905577.
Score: 0.039
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Bacteriophage-based biomaterials for tissue regeneration. Adv Drug Deliv Rev. 2019 05; 145:73-95.
Score: 0.036
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Virus-Based Cancer Therapeutics for Targeted Photodynamic Therapy. Methods Mol Biol. 2018; 1776:643-652.
Score: 0.034
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Phage-Enabled Nanomedicine: From Probes to Therapeutics in Precision Medicine. Angew Chem Int Ed Engl. 2017 02 13; 56(8):1964-1992.
Score: 0.032
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Targeted delivery of in situ PCR-amplified Sleeping Beauty transposon genes to cancer cells with lipid-based nanoparticle-like protocells. Biomaterials. 2017 03; 121:55-63.
Score: 0.032
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Tuning photothermal properties of gold nanodendrites for in vivo cancer therapy within a wide near infrared range by simply controlling their degree of branching. Biomaterials. 2016 10; 104:138-44.
Score: 0.031
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Phage as a Genetically Modifiable Supramacromolecule in Chemistry, Materials and Medicine. Acc Chem Res. 2016 06 21; 49(6):1111-20.
Score: 0.030
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Untangling the effects of peptide sequences and nanotopographies in a biomimetic niche for directed differentiation of iPSCs by assemblies of genetically engineered viral nanofibers. Nano Lett. 2014 Dec 10; 14(12):6850-6856.
Score: 0.027
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Stem cells loaded with nanoparticles as a drug carrier for in vivo breast cancer therapy. Adv Mater. 2014 Jul 16; 26(27):4627-31.
Score: 0.026
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Using phage as a platform to select cancer cell-targeting peptides. Methods Mol Biol. 2014; 1108:57-68.
Score: 0.026
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Silica-based branched hollow microfibers as a biomimetic extracellular matrix for promoting tumor cell growth in vitro and in vivo. Adv Mater. 2013 May 07; 25(17):2492-6.
Score: 0.024
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Bacteriophage bionanowire as a carrier for both cancer-targeting peptides and photosensitizers and its use in selective cancer cell killing by photodynamic therapy. Small. 2013 Jan 28; 9(2):215-21.
Score: 0.024
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Controlled growth and differentiation of MSCs on grooved films assembled from monodisperse biological nanofibers with genetically tunable surface chemistries. Biomaterials. 2011 Jul; 32(21):4744-52.
Score: 0.021
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Architectonics of phage-liposome nanowebs as optimized photosensitizer vehicles for photodynamic cancer therapy. Mol Cancer Ther. 2010 Sep; 9(9):2524-35.
Score: 0.020
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Evolutionary selection of new breast cancer cell-targeting peptides and phages with the cell-targeting peptides fully displayed on the major coat and their effects on actin dynamics during cell internalization. Mol Pharm. 2010 Oct 04; 7(5):1629-42.
Score: 0.020
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Development of an optimized protocol for studying the interaction of filamentous bacteriophage with mammalian cells by fluorescence microscopy. Microsc Res Tech. 2010 May; 73(5):548-54.
Score: 0.020
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Self-assembly of drug-loaded liposomes on genetically engineered target-recognizing M13 phage: a novel nanocarrier for targeted drug delivery. Small. 2009 Sep; 5(17):1963-9.
Score: 0.019