Hyperbranched rolling circle amplification as a novel method for rapid and sensitive detection of Amphidinium carterae

High quality of coastal water is critical to marine ecosystems, marine fisheries, public health, and aquatic environment. Specially, bio-toxin derived from toxic microalgae is currently threatening many coastal countries. Therefore, development of rapid and sensitive methods for the detection of toxin-producing microalgae is necessary for warning of water quality. In this paper, we established a novel method for rapid and sensitive detection of Amphidinium carterae by hyperbranched rolling circle amplification (HRCA). The partial large subunit rDNA (LSU D1-D2) of A. carterae was sequenced to design species-specific padlock probe (PLP). The PLP-coupled with two amplification primers were employed for HRCA. The optimized HRCA conditions were as follows: padlock concentration, 20 pM; ligation temperature, 65 degrees C; ligation time, 15 min; amplification temperature, 61 degrees C; and amplification time, 15 min. The developed HRCA was confirmed to be specific for A. carterae by tests with other algae. The sensitivity of HRCA was 100-fold higher than regular PCR, exhibiting a detection limit of 1 fg/mu L. representing 283 copies for the recombinant plasmid containing the target LSU D1-D2, and 1 cell for target species. Finally, a simplified protocol was applied to the simulated field and environmental materials, and exhibited a good performance. The whole detection could be completed within 1.5 h, displaying a repeated detection limit of 1 cell. The positive HRCA results could be visualized through coloration reaction by adding the fluorescent dye SYBR Green I to the amplification products. The HRCA provides a useful tool to quickly screen large sample sets for A. carterae, as well as other toxic species. (C) 2015 Elsevier B.V. All rights reserved.