posted on 2013-11-05, 00:00authored byFarhad Ghasemi, David
W. Wegman, Mirzo Kanoatov, Burton B. Yang, Stanley K. Liu, George M. Yousef, Sergey N. Krylov
Studies suggest that patterns of
deregulation in sets of microRNA
(miRNA) can be used as cancer diagnostic and prognostic biomarkers.
Establishing a “miRNA fingerprint”-based diagnostic
technique requires a suitable miRNA quantitation method. The appropriate
method must be direct, sensitive, capable of simultaneous analysis
of multiple miRNAs, rapid, and robust. Direct quantitative analysis
of multiple microRNAs (DQAMmiR) is a recently introduced capillary
electrophoresis-based hybridization assay that satisfies most of these
criteria. Previous implementations of the method suffered, however,
from slow analysis time and required lengthy and stringent purification
of hybridization probes. Here, we introduce a set of critical improvements
to DQAMmiR that address these technical limitations. First, we have
devised an efficient purification procedure that achieves the required
purity of the hybridization probe in a fast and simple fashion. Second,
we have optimized the concentrations of the DNA probe to decrease
the hybridization time to 10 min. Lastly, we have demonstrated that
the increased probe concentrations and decreased incubation time removed
the need for masking DNA, further simplifying the method and increasing
its robustness. The presented improvements bring DQAMmiR closer to
use in a clinical setting.