Literature DB >> 18818351

Assembling materials with DNA as the guide.

Faisal A Aldaye1, Alison L Palmer, Hanadi F Sleiman.   

Abstract

DNA's remarkable molecular recognition properties and structural features make it one of the most promising templates to pattern materials with nanoscale precision. The emerging field of DNA nanotechnology strips this molecule from any preconceived biological role and exploits its simple code to generate addressable nanostructures in one, two, and three dimensions. These structures have been used to precisely position proteins, nanoparticles, transition metals, and other functional components into deliberately designed patterns. They can also act as templates for the growth of nanowires, aid in the structural determination of proteins, and provide new platforms for genomics applications. The field of DNA nanotechnology is growing in a number of directions, carrying with it the promise to substantially affect materials science and biology.

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Year:  2008        PMID: 18818351     DOI: 10.1126/science.1154533

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  144 in total

1.  A structurally tunable DNA-based extracellular matrix.

Authors:  Faisal A Aldaye; William T Senapedis; Pamela A Silver; Jeffrey C Way
Journal:  J Am Chem Soc       Date:  2010-10-27       Impact factor: 15.419

2.  Programmable shape-shifting micelles.

Authors:  Miao-Ping Chien; Anthony M Rush; Matthew P Thompson; Nathan C Gianneschi
Journal:  Angew Chem Int Ed Engl       Date:  2010-07-12       Impact factor: 15.336

Review 3.  Beyond DNA origami: the unfolding prospects of nucleic acid nanotechnology.

Authors:  Nicole Michelotti; Alexander Johnson-Buck; Anthony J Manzo; Nils G Walter
Journal:  Wiley Interdiscip Rev Nanomed Nanobiotechnol       Date:  2011-11-30

4.  DNA origami: Nanorobots grab cellular control.

Authors:  Johann Elbaz; Itamar Willner
Journal:  Nat Mater       Date:  2012-03-22       Impact factor: 43.841

5.  Monodisperse cylindrical micelles by crystallization-driven living self-assembly.

Authors:  Joe B Gilroy; Torben Gädt; George R Whittell; Laurent Chabanne; John M Mitchels; Robert M Richardson; Mitchell A Winnik; Ian Manners
Journal:  Nat Chem       Date:  2010-05-30       Impact factor: 24.427

6.  Loading and selective release of cargo in DNA nanotubes with longitudinal variation.

Authors:  Pik Kwan Lo; Pierre Karam; Faisal A Aldaye; Christopher K McLaughlin; Graham D Hamblin; Gonzalo Cosa; Hanadi F Sleiman
Journal:  Nat Chem       Date:  2010-03-14       Impact factor: 24.427

Review 7.  Artificial Molecular Machines.

Authors:  Sundus Erbas-Cakmak; David A Leigh; Charlie T McTernan; Alina L Nussbaumer
Journal:  Chem Rev       Date:  2015-09-08       Impact factor: 60.622

8.  Square-shaped RNA particles from different RNA folds.

Authors:  Isil Severcan; Cody Geary; Erik Verzemnieks; Arkadiusz Chworos; Luc Jaeger
Journal:  Nano Lett       Date:  2009-03       Impact factor: 11.189

9.  Fabrication of metal nanoparticles using toroidal plasmid DNA as a sacrificial mold.

Authors:  Jacopo Samson; Alessandro Varotto; Patrick C Nahirney; Alfredo Toschi; Irene Piscopo; Charles Michael Drain
Journal:  ACS Nano       Date:  2009-02-24       Impact factor: 15.881

10.  Mechanism of the hairpin folding transformation of thymine-cytosine-rich oligonucleotides induced by Hg(II) and Ag(I) ions.

Authors:  Wei Ding; Mengze Xu; Hong Zhu; Haojun Liang
Journal:  Eur Phys J E Soft Matter       Date:  2013-09-19       Impact factor: 1.890
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