In Vitro Culturing of T. fournieri Pollen Tubes in the Microdevice
3:31
In Vitro Culturing of A. thaliana Root Hairs in the Microdevice
4:40
In Vitro Culturing of P. patens (moss) Protonemata in the Microfluidic Device
5:31
Results: Microfluidic Device Design and Time-lapse Imaging of Pollen Tube Growth
6:37
Conclusion
文字起こし
This method can help answer key questions in the plant cell biology field, such as how tip-growing plant cells penetrate cell physical barriers. The main advantage of this technique is the ability to acquire high-resolution images that rebuilds a
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We describe a method to investigate the capability of tip-growing plant cells, including pollen tubes, root hairs, and moss protonemata, to elongate through extremely narrow gaps (~1 µm) in a microfluidic device.