Electroosmotic Flow-Based Nanoinjection Technique Using a Nanopipette for Green Microalgae
Tsuyoshi Tanaka, Kaoruko Akasaka, Rein Yasui, Naoto Shinohara, Tomoko Yoshino, Daisuke Nojima, Makoto Mochizuki, Takatoshi Ohata, Fumitaka Kamachi, Tsuneji Sawai

TL;DR
A new nanoinjection technique using a nanopipette enables efficient delivery of materials into microalgae cells for potential genome editing and biomaterial production.
Contribution
The study introduces a novel electroosmotic flow-based nanoinjection method for precise and automated material delivery into microalgal cells.
Findings
The nanoinjection technique achieved injection efficiencies of 44% in Haematococcus sp. and 45% in Tetraselmis sp.
Optimal injection conditions were determined using FITC-labeled dextran for two microalgae species.
Abstract
Microalgae are gaining attention as promising candidates for CO₂ fixation and biomaterial production due to their non-competition with food and feed resources, as well as their high growth rates and photosynthetic efficiency. To expand their application as hosts for biomaterial production, it is essential to develop efficient and versatile gene modification technologies for microalgal metabolic engineering. Achieving this requires the establishment of an effective and broadly applicable material delivery method across diverse microalgal species. In this study, we developed a novel nanoinjection technique for single microalgal cells, utilizing electroosmotic flow through a nano-sized pipette (nanopipette). This nanopipette enables precise, automated delivery of solutions into cells at the femtoliter scale. Optimum injection conditions, including cell morphology, injection voltage, and…
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Taxonomy
TopicsAlgal biology and biofuel production · Photosynthetic Processes and Mechanisms · Electrochemical sensors and biosensors
