Functional nucleic acid biosensors utilizing rolling circle amplification

Abstract

Functional nucleic acids (FNAs), including DNA aptamers and DNAzymes, are finding increasing use as molecular recognition elements for point-of-care (POC) assays and sensors. An ongoing challenge in the development of FNA-based POC sensors is the ability to achieve detection of low levels of analyte without compromising assay time and ease of use. Rolling circle amplification (RCA) is a leading nucleic acid (NA) isothermal amplification method which can be coupled with FNAs for the ultrasensitive detection of non-NA targets. Herein we examine the key considerations required when designing FNA-coupled biosensors utilizing RCA. Specifically, we describe methods for using FNAs as inputs to regulate RCA, various modes of RCA amplification, and methods to detect the output of the RCA reaction, along with how these can be combined to allow detection of non-NA targets. Recent progress on development of portable optical and electrochemical POC devices that incorporate RCA is then described, followed by a summary of key challenges and opportunities in the field.