多个纳微移液管局部离子浓度变化对Na+驱动鞭毛马达转速的控制

K. Nogawa, M. Kojima, M. Nakajima, M. Homma, T. Fukuda
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引用次数: 0

摘要

纳米/微型机器人正朝着实现方向积极研究。现在,微型生物被用作微型物体的驱动力。为了实现生物驱动微物体的精细控制,需要建立控制方法。因此,需要局部环境控制技术来操纵单个细胞或分析其特性。我们构建了纳米/微双移液器局部环境控制系统,通过在含Na+溶液和不含Na+溶液之间切换局部喷口,实现了Na+驱动鞭毛马达这一旋转分子机器的快速响应迭代转速控制。本文采用纳米/微双移液器对局部环境控制系统进行升级,实现了Na+驱动鞭毛马达转速的定量和长时间稳定控制。我们证明了通过同时局部喷射含Na+溶液和不含Na+溶液,通过独立改变喷射速度来控制Na+驱动鞭毛电机的精细和长时间稳定的转速。
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Rotational speed control of Na+-driven flagellar motor by local ion concentration changes with multiple nano/micro pipettes
Nano/micro robots have been actively studied toward the realization. Now, the micro living organisms are used as the driving forces for the micro objects. To achieve the fine control of bio driven micro objects, it is needed to establish the control method. Therefore, the local environmental control technique is desired to manipulate a single cell or to analyze the properties. We have constructed the local environmental control system with nano/micro dual pipettes, and achieved the quick-response and iterative rotational speed control of Na+-driven flagellar motor, which is a rotary molecular machine, by switching the local spout between Na+-containing and Na+-free solutions. In this paper, we upgrade our local environmental control system with nano/micro dual pipettes to achieve the quantitative and long-time-stable control of the rotational speed of the Na+-driven flagellar motor. We demonstrate fine and long-time-stable rotational speed control of Na+-driven flagellar motor by simultaneous local spouts of Na+-containing and Na+-free solutions with changing the spouting velocities independently.
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