Abstract
In this paper we describe an isothermal rolling-circle amplification (RCA) protocol to detect gene point mutations on chips. The method is based on an allele-specific oligonucleotide circularization mediated by a special DNA ligase. The probe is circularized when perfect complementary sequences between the probe oligonucleotide and HIV cDNA gene. Mismatches around the ligation site can prevent probe circularization. The circularized probe (C-probe) can be amplified by rolling circle amplification to generate multimeric singlestranded DNA (ssDNA) under isothermal conditions. There are four sequence regions to bind respectively with fluorescent probe, RCA primer, solid probe and HIV cDNA template in the C-probe which we designed. These ssDNA products are hybridized with fluorescent probes and solid probes which are immobilized on a glass slide composing a regular microarray pattern. The fluorescence signals can be monitored by a scanner in the presence of HIV cDNA templates, whereas the probes cannot be circularized and signal of fluorescence cannot be found. The RCA array has capability of high-throughput detection of the point mutation and the single-nucleotide polymorphism (SNP). The development of C-probe-based technologies offers a promising prospect for situ detection, microarray, molecular diagnosis, single nucleotide polymorphism, and whole genome amplification.
Highlights
With completion of the sequencing of the human genome [1], new genes are being discovered at an accelerated pace as well as determination of the function of these genes and potential associations of these genes and mutations within them to particular phenotypes
The availability of ligases that accurately distinguish DNA sequences has made by oligonucleotide ligation assays
template B (TB) is same as HIV cDNA, so the template TB was replaced by HIV cDNA
Summary
With completion of the sequencing of the human genome [1], new genes are being discovered at an accelerated pace as well as determination of the function of these genes and potential associations of these genes and mutations within them to particular phenotypes. The utility of circularizable oligonucleotides probe had been demonstrated for the detection of target nucleic acid sequences This approach shows greater sensitivity than conventional PCR [3,4]. The initial strategy was introduced to amplify the closed C-probe by the rolling circle amplification (RCA) mechanism as observed in in vivo bacteriophage replication [7]. This type of amplification, only results in linear growth of the products with several thousand-fold amplifications. The DNA arrays have a great potential to provide a fresh and attractive scheme that has the ability of high-throughput detection of the point mutation and exclusion of electrophoresis. Using this new approach we successfully monitored point mutations of HIV cDNA
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
