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Literature DB >> 26773303

DNA nanotechnology and fluorescence applications.

Thomas Schlichthaerle¹, Maximilian T Strauss¹, Florian Schueder¹, Johannes B Woehrstein¹, Ralf Jungmann².

Abstract

Structural DNA nanotechnology allow researchers to use the unique molecular recognition properties of DNA strands to construct nanoscale objects with almost arbitrary complexity in two and three dimensions. Abstracted as molecular breadboards, DNA nanostructures enable nanometer-precise placement of guest molecules such as proteins, fluorophores, or nanoparticles. These assemblies can be used to study biological phenomena with unprecedented control over number, spacing, and molecular identity. Here, we give a general introduction to structural DNA nanotechnology and more specifically discuss applications of DNA nanostructures in the field of fluorescence and plasmonics.

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Year: 2016 PMID： 26773303 DOI： 10.1016/j.copbio.2015.12.014

Source DB: PubMed Journal: Curr Opin Biotechnol ISSN： 0958-1669 Impact factor: 9.740

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Cited

10 in total

Review 1. Advanced imaging and labelling methods to decipher brain cell organization and function.

Authors: Daniel Choquet; Matthieu Sainlos; Jean-Baptiste Sibarita
Journal: Nat Rev Neurosci Date: 2021-03-12 Impact factor: 34.870

2. Super-resolution microscopy with DNA-PAINT.

Authors: Joerg Schnitzbauer; Maximilian T Strauss; Thomas Schlichthaerle; Florian Schueder; Ralf Jungmann
Journal: Nat Protoc Date: 2017-05-18 Impact factor: 13.491

3. A Platform for Site-Specific DNA-Antibody Bioconjugation by Using Benzoylacrylic-Labelled Oligonucleotides.

Authors: Juraj Konč; Libby Brown; Daniel R Whiten; Yukun Zuo; Peter Ravn; David Klenerman; Gonçalo J L Bernardes
Journal: Angew Chem Int Ed Engl Date: 2021-11-03 Impact factor: 16.823

4. Quantitative super-resolution imaging with qPAINT.

Authors: Ralf Jungmann; Maier S Avendaño; Mingjie Dai; Johannes B Woehrstein; Sarit S Agasti; Zachary Feiger; Avital Rodal; Peng Yin
Journal: Nat Methods Date: 2016-03-28 Impact factor: 28.547

5. Sub-100-nm metafluorophores with digitally tunable optical properties self-assembled from DNA.

Authors: Johannes B Woehrstein; Maximilian T Strauss; Luvena L Ong; Bryan Wei; David Y Zhang; Ralf Jungmann; Peng Yin
Journal: Sci Adv Date: 2017-06-21 Impact factor: 14.136

6. 124-Color Super-resolution Imaging by Engineering DNA-PAINT Blinking Kinetics.

Authors: Orsolya K Wade; Johannes B Woehrstein; Philipp C Nickels; Sebastian Strauss; Florian Stehr; Johannes Stein; Florian Schueder; Maximilian T Strauss; Mahipal Ganji; Joerg Schnitzbauer; Heinrich Grabmayr; Peng Yin; Petra Schwille; Ralf Jungmann
Journal: Nano Lett Date: 2019-03-13 Impact factor: 11.189

Review 7. Toward Sub-Diffraction Imaging of Single-DNA Molecule Sensors Based on Stochastic Switching Localization Microscopy.

Authors: Seungah Lee; Indra Batjikh; Seong Ho Kang
Journal: Sensors (Basel) Date: 2020-11-21 Impact factor: 3.576

Review 8. DNA Origami-Enabled Plasmonic Sensing.

Authors: Mihir Dass; Fatih N Gür; Karol Kołątaj; Maximilian J Urban; Tim Liedl
Journal: J Phys Chem C Nanomater Interfaces Date: 2021-02-25 Impact factor: 4.126

Review 9. DNA Origami Route for Nanophotonics.

Authors: Anton Kuzyk; Ralf Jungmann; Guillermo P Acuna; Na Liu
Journal: ACS Photonics Date: 2018-02-12 Impact factor: 7.529

Review 10. Novel nucleic acid origami structures and conventional molecular beacon-based platforms: a comparison in biosensing applications.

Authors: Noemi Bellassai; Roberta D'Agata; Giuseppe Spoto
Journal: Anal Bioanal Chem Date: 2021-04-06 Impact factor: 4.142

10 in total