Journal article
Manipulating the salt and thermal stability of DNA multilayer films via oligonucleotide length
L Lee, APR Johnson, F Caruso
Biomacromolecules | AMER CHEMICAL SOC | Published : 2008
DOI: 10.1021/bm800593t
Abstract
DNA films are promising materials for diverse applications, including sensing, diagnostics, and drug/gene delivery. However, the ability to tune the stability of DNA films remains a crucial aspect for such applications. Herein, we examine the role of oligonucleotide length on the formation, and salt and thermal stability, of DNA multilayer films using oligonucleotides of homopolymeric diblocks (polyAG and polyTC), with each block (A, G, T, or C) ranging from 5 to 30 bases (10-, 20-, 30-, 40-, and 60-mer). Using a combination of quartz crystal microgravimetry, dual polarization interferometry, and flow cytometry, we demonstrate that at least 10 bases per hybridizing block in the DNA diblocks ..
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Funding Acknowledgements
We gratefully acknowledge the Australian Research Council for financial support (Discovery Project and Federation Fellowship schemes) and the Particulate Fluids Processing Centre for infrastructure support. We also thank Francesca Cavalieri, Noritaka Kato, Alisa Becker, and Brigitte Maria Stadler for useful discussions.