posted on 2018-01-04, 00:00authored byLan Liu, Jin-Wen Liu, Han Wu, Xiang-Nan Wang, Ru-Qin Yu, Jian-Hui Jiang
Hybridization chain reaction (HCR)
circuits are valuable approaches
to monitor low-abundance mRNA, and current HCR is still subjected
to issues such as limited amplification efficiency, compromised localization
resolution, or complicated designs. We report a novel branched HCR
(bHCR) circuit for efficient signal-amplified imaging of mRNA in living
cells. The bHCR can be realized using a simplified design by hierarchically
coupling two HCR circuits with two split initiator fragments of the
secondary HCR circuit incorporated in the probes for the primary HCR
circuit. The bHCR circuit enables one to generate a hyperbranched
assembly seeded from a single target initiator, affording the potential
for localizing single target molecules in live cells. In vitro assays
show that bHCR offers very high amplification efficiency and specificity
in single mismatch discrimination with a detection limit of 500 fM.
Live cell studies reveal that bHCR displays intense fluorescence spots
indicating mRNA localization in living cells with improved contrast.
The bHCR method can provide a useful platform for low-abundance biomarker
detection and imaging for cell biology and diagnostics.