Abstract

MicroRNAs are essential in many cellular processes. The ability to detect microRNAs is important for understanding its function and biogenesis. This study is aimed at using a molecular beacon to detect miR-430 in developing zebrafish embryos as a proof of principle. miR-430 is crucial for the clearance of maternal mRNA during maternal zygotic transition in embryonic development. Despite its known function, the temporal and spatial expression of miR-430 remains unclear. We used various imaging techniques, including laser scanning confocal microscopy, spinning disk, and lightsheet microscopy, to study the localization of miR-430 and any developmental defects possibly caused by the molecular beacon. Our results show that miR-430 is expressed early in development and is localized in distinct cytoplasmic granules where its target mRNA can be detected. We also show that the designed molecular beacon can inhibit the function of miR-430 and cause developmental defect in the brain, notochord, heart, and kidney, depending on the delivery site within the embryo, suggesting that miR-430 plays a diverse role in embryonic morphogenesis. When compared with morpholino, molecular beacon is 2 orders of magnitude more potent in inhibiting miR-430. Thus, our results reveal that in addition to being used as a valuable tool for the detection of microRNAs in vivo, molecular beacons can also be employed to inhibit microRNAs in a specific manner.

Highlights

  • MicroRNAs are essential in many cellular processes

  • This study is aimed at using a molecular beacon to detect miR-430 in developing zebrafish embryos as a proof of principle. miR-430 is crucial for the clearance of maternal mRNA during maternal zygotic transition in embryonic development

  • We show that the designed molecular beacon can inhibit the function of miR-430 and cause developmental defect in the brain, notochord, heart, and kidney, depending on the delivery site within the embryo, suggesting that miR-430 plays a diverse role in embryonic morphogenesis

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Summary

Introduction

MicroRNAs are essential in many cellular processes. The ability to detect microRNAs is important for understanding its function and biogenesis. This study is aimed at using a molecular beacon to detect miR-430 in developing zebrafish embryos as a proof of principle. Among the many types of sensors used in tracking miRNAs, molecular beacons hold the greatest promise because of their high specificity toward small sequences of RNA and low signal to noise ratio [11, 12]. This study was aimed at using a molecular beacon and the developing zebrafish embryo to track the expression of miR-430 as a proof of principle. In the absence of the target sequence, the molecular beacon is in its closed conformation with the quencher in close proximity to the fluorophore emitting low fluorescence signal. Disruption of the secondary structure of the molecular beacon forms the basis for its ability to detect oligonucleotides with a low signal to background ratio. Dual Functions of Molecular Beacon ability of molecular beacons to quantify miRNAs in a highly sensitive and sequence-specific manner has been previously demonstrated in vitro [16]

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