AI Article Synopsis
- The bioluminescent reporter system is a noninvasive tool for long-term gene expression monitoring, allowing researchers to study gene regulation and variability in individual cells.
- A single-cell bioluminescent imaging system was developed for plants using transient gene transfection via particle bombardment, successfully applied to monitor duckweed cells' circadian rhythms for over a week.
- The study outlines methods for gene transfection and high-sensitive imaging, creating a platform for analyzing gene expression patterns in individual cells within the same tissue.
Article Abstract
The bioluminescent reporter system is a powerful tool for the long-term monitoring of gene expression because of its noninvasive nature. Furthermore, in combination with high-sensitive imaging technology, spatiotemporal analysis on regulation and heterogeneity in gene expression is possible. We developed a single-cell bioluminescent imaging system for plants through a transient gene transfection by particle bombardment. By applying this system to a duckweed species, we succeeded in monitoring circadian rhythms of individual cells in an intact plant for over a week. Here we describe methods for gene transfection by particle bombardment and single-cell bioluminescence monitoring by a high-sensitive camera. This technique provides a platform for characterizing gene expression patterns of individual cells in the same tissue.
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| http://dx.doi.org/10.1007/978-1-4939-9940-8_17 | DOI Listing |
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