Effect of pH on the Interaction of Gold Nanoparticles with DNA and Application in the Detection of Human p53 Gene Mutation
Date
2009-03Author
Sun, Liping
Zhang, Zhaowu
Wang, Shuang
Zhang, Jianfeng
Li, Hui
Ren, Lei
Weng, Jian
Zhang, Qiqing
任磊
Collections
- 材料学院-已发表论文 [2404]
Abstract
Gold nanoparticles (GNPs) are widely used to detect DNA. We studied the effect of pH on the assembly/disassembly of single-stranded DNA functionalized GNPs. Based on the different binding affinities of DNA to GNPs, we present a simple and fast way that uses HCl to drive the assembly of GNPs for detection of DNA sequences with single nucleotide differences. The assembly is reversible and can be switched by changing the solution pH. No covalent modification of DNA or GNP surface is needed. Oligonucleotide derived from human p53 gene with one-base substitution can be distinguished by a color change of the GNPs solution or a significant difference of the maximum absorption wavelength (lambda(max)), compared with wildtype sequences. This method enables detection of 10 picomole quantities of target DNA.