9 0 0 0 OA Production of sound waves by bacterial cells and the response of bacterial cells to sound
- 著者
- Michio Matsuhashi Alla N. Pankrushina Satoshi Takeuchi Hideyuki Ohshima Housaku Miyoi Katsura Endoh Ken Murayama Hiroshi Watanabe Shigeo Endo Mikio Tobi Yoshihiro Mano Masao Hyodo Torakichi Kobayashi Tomohiko Kaneko Sugio Otani Susumu Yoshimura Akira Harata Tsuguo Sawada
- 出版者
- 公益財団法人 応用微生物学・分子細胞生物学研究奨励会
- 雑誌
- The Journal of General and Applied Microbiology (ISSN:00221260)
- 巻号頁・発行日
- vol.44, no.1, pp.49-55, 1998 (Released:2005-08-24)
- 参考文献数
- 19
- 被引用文献数
- 9 56
Bacterial cells enhance the proliferation of neighboring cells under stress conditions by emitting a physical signal. Continuous single sine sound waves produced by a speaker at frequencies of 6–10, 18–22, and 28–38 kHz promoted colony formation by Bacillus carboniphilus under non-permissive stress conditions of high KCl concentration and high temperature. Furthermore, sound waves emitted from cells of Bacillus subtilis at frequencies between 8 and 43 kHz with broad peaks at approximately 8.5, 19, 29, and 37 kHz were detected using a sensitive microphone system. The similarity between the frequency of the sound produced by B. subtilis and the frequencies that induced a response in B. carboniphilus and the previously observed growth-promoting effect of B. subtilis cells upon B. carboniphilus through iron barriers, suggest that the detected sound waves function as a growth-regulatory signal between cells.
1 0 0 0 OA Yoshimura π-Electron Materials Project
- 著者
- Susumu Yoshimura
- 出版者
- THE CARBON SOCIETY OF JAPAN
- 雑誌
- TANSO (ISSN:03715345)
- 巻号頁・発行日
- vol.1992, no.151, pp.51-58, 1992-02-20 (Released:2010-06-28)
- 参考文献数
- 33
- 被引用文献数
- 2
Since delocalized π electrons can move about throughout a crystal or molecule without distorting it, π-electron materials have many peculiar characteristics such as extremely high electron mobility and superpolarization. The π-electron cloud is also a fundamental reaction field for organic and biological materials.The Yoshimura π-Electron Materials Project will view the large space occupied by the freely-moving π electrons as domains of electron motion and materials transformation. The project will exploit and elucidate unique physical, chemical and biochemical phenomena which result from these domains. For this, the project will develop synthetic methods and processes for new organic and inorganic materials with extended π-electron systems and with high crystallinity. It will elucidate the mechanisms of superpolarization, high electron mobility and nonlinear phenomena. The project may propose new electronic devices based on unique features of π electrons. Other work will focus on selective and/or anomalous reactions in which the π-electron domains participate. This work may shed light on mechanisms of biocompatibility and proliferation on carbonacious materials in relation to electronic structures of the π-electron systems.