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Nanocarrier Spray: Better Crops without Genetic Modification

Researchers at the RIKEN Center for Sustainable Resource Science (CSRS) in Japan have developed a way to improve crop quality without needing to create special genetically modified plants. Rather that changing plant genomes, the new technique relies on a spray that introduces bioactive molecules into plant cells through their leaves. The new technology could be used to help crops resist pests or become more resistant to drought—in less time and at less cost than making lines of genetically modified crops. The study was reported in the scientific journal ACS Nano.

Technology allows us to directly alter genomes and create genetically modified organisms (GMOs), including GM food. However, making transgenic plants takes time, money, and still has not gained widespread public support. RIKEN CSRS researchers led by Masaki Odahara have developed an alternative to GM food that can overcome these problems. For example, rather than changing a plant’s genome so that it doesn’t express a particular gene, the same gene can be suppressed on the fly by inserting a specific bioactive compound into the plant. In this scenario, the bioactive compound is taken into the plant’s cells by a carrier that can penetrate the cell walls of plant cells. 

While the concept might be simple, making it happen was a challenge. “In addition to designing a way to introduce bioactive molecules into the plants,” says Odahara, “we had to consider a delivery method that would be practical for cultivated crops under real agricultural conditions.” The team concluded that the best method would be through a spray that could be deployed over large fields relatively easily.

Many types of nanoparticles can penetrate plant cells. The researchers focused on cell-penetrating peptides (CPPs) because they can also target specific structures inside plants cells, such as chloroplasts. The first challenge was to determine which CPPs are best when using a spray. They tagged natural and synthetic CPPs with fluorescent yellow, sprayed them on plant leaves, and measured the amount of fluorescence in the leaves with a confocal laser-scanning microscope at different time points. After performing this procedure in typical laboratory Arabidopsis thaliana, as well as in several types of soybeans and tomatoes, they found several natural CPPs that were able to penetrate into the outer layer of the leaves, and in some cases even deeper.

Further experiments showed that this technique worked well when plasmid DNA was attached to the CPPs, and analysis showed that genes were effectively expressed in the leaves of both A. thaliana and soybeans after being carried into the cells through an aqueous spray. The researchers also found that by including other biomolecules and nanostructures in the spray solution, they could temporarily increase the number of pores in the leaves, which increased how much spray was taken up by the plant.

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