DNA nanotechnology for cell research : from bioanalysis to biomedicine /

"DNA Nanotechnology for Cell Research Comprehensive coverage of DNA nanotechnology with a focus on its biomedical applications in disease diagnosis, gene therapy, and drug delivery Bringing together multidisciplinary aspects of chemical, material, and biological engineering, DNA Nanotechnology...

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Bibliographic Details
Other Authors: Nie, Zhou (Editor)
Format: eBook
Language:English
Published: Weinheim, Germany : Wiley-VCH, [2024]
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Developing DNA aptamer toolbox for cell research
  • Bacterial detection with functional nucleic acids Escherichia coli as a case study
  • From ligand-binding aptamers to molecular switches
  • DNA nanotechnology-based microfluidics for liquid biopsy
  • Spatiotemporal-controlled cell membrane engineering using DNS nanotechnology
  • Metal-dependent DNAzymes for cell surface engineering and intracellular bioimaging
  • DNA nanomotors for bioimaging in living cells
  • Illuminating RNA in live cells with inorganic nanoparticles-based DNA sensor tenchnology
  • Building DNA computing system for smart biosensing and clinical diagnosis
  • Intelligent sense-on-demand DNA circuits for amplified bioimaging in living cells
  • DNA nanoscaffolds for biomacromolecules organization and bioimaging applications
  • Adopting nucleic acid nantechnology for genetic regulation in vivo
  • Cell membrane functionalization via nucleic acid tools for visualization and regulation of cellular receptors
  • Harnessing DNA nanotechnology for nongenetic manipulation and functionalization of cell surface receptor
  • DNA-based cell surface engineering for programming multiple cell-cell interactions
  • Designer DNA nanostructures and their cellular uptake behaviors
  • Toward production of nucleic acid nanostructures in life cells and their biomedical applications
  • Engineering nucleic acid structures for programmable intracellular biocomputation
  • DNA supramolecular hydrogels for biomedical applications
  • Rolling circle amplification-based DNA nanotechnology for cell research
  • Precise integration of therapeutics in DNA-based nanomaterials for cancer treatments.