DNA and RNA Nanobiotechnologies in Medicine: Diagnosis and Treatment of Diseases /
| Autor Corporativo: | |
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| Otros Autores: | , |
| Formato: | eBook |
| Lenguaje: | English |
| Publicado: |
Berlin, Heidelberg :
Springer Berlin Heidelberg : Imprint: Springer,
2013.
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| Edición: | 1st ed. 2013. |
| Colección: | RNA Technologies,
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| Materias: |
Tabla de Contenidos:
- Introduction
- RNA Nanotechnology: methods for synthesis, conjugation, assembly and application of RNA nanoparticles
- Adsorption of double-stranded DNA to graphene oxide preventing enzymatic digestion
- Electrogenerated chemiluminescence of conjugated polymer films from patterned electrodes
- Use of RNA structure flexibility data in nanostructure modeling
- Informatic resources for identifying and annotating structural RNA motifs
- A nanostructure made of a bacterial noncoding RNA
- HAPIscreen, a method for high-throughput aptamer identification
- Characterization of photophysical and base-mimicking properties of a novel fluorescent adenine analogue in DNA
- Bifacial nucleoside as a surrogate for both T and A in duplex DNA
- Functionally important structural elements of U12 snRNA
- Self-assembling RNA nanorings based on RNAI/II inverse kissing complexes
- Automatic molecular weaving prototyped by using single-stranded DNA
- Nucleic Acid Aptamers: Clinical Applications and Promising New Horizons
- Nanotextured Substrates With Immobilized Aptamers for Cancer Cell Isolation and Cytology
- Targeting cancer with peptide aptamers
- Synthetic, biofunctional nucleic acid-based molecular devices
- Inducible site-selective bottom-up assembly of virus-derived nanotube arrays on RNA-equipped wafers
- Special delivery: targeted therapy with small RNAs, RNAi nanomedicines: challenges and opportunities within the immune system
- Pyrene-functionalized oligonucleotides and locked nucleic acids (LNAs): Tools for fundamental research, diagnostics, and nanotechnology
- Stabilizing RNA by the sonochemical formation of RNA nanospheres. Sonochemical synthesis of DNA nanospheres
- Nucleic acid based molecular devices
- Nanoparticle therapeutics: FDA approval, clinical trials, regulatory pathways, and case study
- A sol-gel-based microfluidics system enhances the efficiency of RNA aptamer selection
- Hierarchical nanotextured microelectrodes overcome the molecular transport barrier to achieve rapid, direct bacterial detection
- Recent developments in lipid-based pharmaceutical nanocarriers
- Targeted delivery of RNAi therapeutics for cancer therapy
- DNAsomes: Multifunctional DNA-based nanocarriers
- Reversible and Controllable Nanolocomotion of an RNA-Processing Machinery
- Scavenger receptors mediate cellular uptake of polyvalent oligonucleotide-functionalized gold nanoparticles
- A highly sensitive microRNA biosensor based on ruthenium oxide nanoparticle-initiated polymerization of aniline
- Preparation and high-resolution microscopy of gold cluster labeled nucleic acid conjugates and nanodevices
- Kinetically grafting G-quadruplexes onto DNA nanostructures for structure and function encoding via a DNA machine
- Synthesis of glycerol nucleic acid (GNA) phosphoramidite monomers and oligonucleotide polymers
- Cancer immunotherapy and nanomedicine
- RNA nanotechnology: inspired by DNA
- From nanotechnology to nanomedicine: applications to cancer research
- Comparative structural and functional studies of nanoparticle formulations for DNA and siRNA delivery
- Advances in novel drug delivery strategies for breast cancer therapy
- DNA origami: a history and current perspective
- Nanoparticles: a promising modality in the treatment of sarcomas
- Gold nanorod delivery of an ssRNA immune activator inhibits pandemic H1N1 influenza viral replication
- Recent developments in oligonucleotide conjugation
- In vivo delivery of small interfering RNA to tumors and their vasculature by novel dendritic nanocarriers
- DNA and carbon nanotubes as medicine
- LHRH-targeted nanoparticles for cancer therapeutics
- Nanoparticle-aptamer conjugates for cancer cell targeting and detection
- Evaluation of targets for ovarian cancer gene silencing therapy: in vitro and in vivo approaches
- Prediction and design of DNA and RNA structures
- siRNA applications in nanomedicine.