Department of Chemistry & Biochemistry, University of Maryland, College Park, MD 20742, USA.
Nanomedicine (Lond). 2010 Jan;5(1):77-88. doi: 10.2217/nnm.09.92.
The recent development of 1D barcode arrays has proved their capabilities to be applicable to highly multiplexed bioassays. This article introduces two magnetic decoding protocols for suspension arrays of shape-coded silica nanotubes to process multiplexed assays rapidly and easily, which will benefit the minimization and automation of the arrays.
In the first protocol, the magnetic nanocrystals are incorporated into the inner voids of barcoded silica nanotubes in order to give the nanotubes magnetic properties. The second protocol is performed by trapping the barcoded silica nanotubes onto streptavidin-modified magnetic beads.
The rapid and easy decoding process was demonstrated by applying the above two protocols to multiplexed assays, resulting in high selectivity. Furthermore, the magnetic bead-trapped barcode nanotubes provided a great opportunity to exclude the use of dye molecules in multiplexed assays by using barcode nanotubes as signals.
The rapid and easy manipulation of encoded carriers using magnetic properties could be used to develop promising suspension arrays for portable bioassays.
一维条码阵列的最新发展已经证明了它们在高度多重化生物测定中的应用能力。本文介绍了两种用于形状编码二氧化硅纳米管悬浮阵列的磁性解码方案,以快速轻松地处理多重分析,这将有利于阵列的最小化和自动化。
在第一个方案中,磁性纳米晶体被掺入到编码的二氧化硅纳米管的内部空隙中,以使纳米管具有磁性。第二个方案是通过将编码的二氧化硅纳米管捕获到链霉亲和素修饰的磁性珠上来实现的。
通过将上述两种方案应用于多重分析,证明了快速、简单的解码过程具有高选择性。此外,磁性珠捕获的条码纳米管为在多重分析中排除使用染料分子提供了很好的机会,即用条码纳米管作为信号。
使用磁性快速、简单地操作编码载体可用于开发用于便携式生物测定的有前途的悬浮阵列。