Bacteriophage bionanowire as a carrier for both cancer-targeting peptides and photosensitizers and its use in selective cancer cell killing by photodynamic therapy.
about
High Aspect Ratio Nanotubes Formed by Tobacco Mosaic Virus for Delivery of Photodynamic Agents Targeting Melanoma.Phage nanofibers induce vascularized osteogenesis in 3D printed bone scaffolds.Stem cells loaded with nanoparticles as a drug carrier for in vivo breast cancer therapyBiomimetic Hybrid Nanofiber Sheets Composed of RGD Peptide-Decorated PLGA as Cell-Adhesive Substrates.Selenite-Releasing Bone Mineral Nanoparticles Retard Bone Tumor Growth and Improve Healthy Tissue Functions In Vivo.Genetically Engineered Virus Nanofibers as an Efficient Vaccine for Preventing Fungal Infection.Virus-based photo-responsive nanowires formed by linking site-directed mutagenesis and chemical reactionThe application of hyaluronic acid-derivatized carbon nanotubes in hematoporphyrin monomethyl ether-based photodynamic therapy for in vivo and in vitro cancer treatment.Phage as a Genetically Modifiable Supramacromolecule in Chemistry, Materials and MedicineVirus-mimetic cytoplasm-cleavable magnetic/silica nanoclusters for enhanced gene delivery to mesenchymal stem cellsAnti-atherogenic effect of trivalent chromium-loaded CPMV nanoparticles in human aortic smooth muscle cells under hyperglycemic conditions in vitro.Biodistribution, pharmacokinetics, and blood compatibility of native and PEGylated tobacco mosaic virus nano-rods and -spheres in micePhage-Enabled Nanomedicine: From Probes to Therapeutics in Precision MedicineFabrication of nanoarchitectures templated by virus-based nanoparticles: strategies and applications.Nanobiotechnology for the Therapeutic Targeting of Cancer Cells in Blood.Virus-Derived Peptides for Clinical Applications.αvβ3-Isoform specific erbium complexes highly specific for bladder cancer imaging and photodynamic therapy.Chemically Modifying Viruses for Diverse Applications.Enhanced cell uptake of fluorescent drug-loaded nanoparticles via an implantable photothermal fibrous patch for more effective cancer cell killing.Drug delivery vectors based on filamentous bacteriophages and phage-mimetic nanoparticles.In situ protein-templated porous protein-hydroxylapatite nanocomposite microspheres for pH-dependent sustained anticancer drug release.Honeysuckle flowers extract loaded Bombyx mori silk fibroin films for inducing apoptosis of HeLa cells.DNA Nanostructures Carrying Stoichiometrically Definable Antibodies.Difunctional bacteriophage conjugated with photosensitizers for Candida albicans-targeting photodynamic inactivation.Application of Plant Viruses as a Biotemplate for Nanomaterial Fabrication
P2860
Q33902315-7D6E0E26-F581-45EE-947A-E999E19407D5Q34005796-7D689A99-8059-4166-9BEA-EBCACE19E616Q34938608-06C03C10-AFD4-41D4-A55A-A457554A5B26Q35824514-5AB1B944-8988-4A16-B362-C5BA194694F8Q36001679-42BA942B-54C3-47E7-9D8E-21E9123C9F6FQ36788780-4206C780-F45E-40FE-961A-B56BE4414736Q36845501-853890CB-D1E8-4933-B89C-72A9A2D0043DQ36984974-C066B55B-5020-48D3-A282-703842A1DAF9Q37041878-05A507BB-A24F-4F95-A8BE-00DCB5DCB232Q37352200-E100F7A4-A1F6-4409-BC7A-F61F8E3EB5B9Q37470658-7478F5ED-F690-4B31-B977-1F30DD9D8B02Q37531135-08A0D1E2-9ECE-4D8E-9310-F339C1DF474FQ37644025-BB82DC8D-8457-4AD9-A774-A803CA635FD2Q38133463-CEA906C9-6C48-4DE4-A05D-1B15B8D19F18Q38387142-377333E4-539D-4AB4-B806-18DBA594A345Q38655270-AE70BDF6-CD62-4CF7-803C-229206052895Q38726243-1131A25A-77E4-4EEF-8854-D73200B04583Q38756361-26E1ADB2-92D4-4C23-8A49-541F802655FBQ47236329-9DCF0AFE-A44F-437D-B8B3-D9A0295F79FCQ47298251-E1C83352-9A42-4AA0-90D5-DA172DD11238Q47335016-52E01137-9332-4BFA-8F3D-B8B7317F3980Q48173709-3EC12081-714D-425C-B1B1-82E81FE3E24EQ51133950-8F1C0CA8-BEE9-4D7F-8AA3-A94FF9C5A4B4Q52310353-32C6564C-CE1B-4B4E-83D0-0B1F1923ED58Q58696447-F17D747F-BC21-4A54-BE04-6E7C6C0F32A5
P2860
Bacteriophage bionanowire as a carrier for both cancer-targeting peptides and photosensitizers and its use in selective cancer cell killing by photodynamic therapy.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
2012年论文
@zh
2012年论文
@zh-cn
name
Bacteriophage bionanowire as a ...... lling by photodynamic therapy.
@en
type
label
Bacteriophage bionanowire as a ...... lling by photodynamic therapy.
@en
prefLabel
Bacteriophage bionanowire as a ...... lling by photodynamic therapy.
@en
P2093
P2860
P356
P1433
P1476
Bacteriophage bionanowire as a ...... lling by photodynamic therapy.
@en
P2093
Gopal Abbineni
Naveen Gandra
Yanyan Huai
P2860
P304
P356
10.1002/SMLL.201202090
P50
P577
2012-10-09T00:00:00Z