Molecular communication model through gap junction channel with selective permeabilities
With rapid development in biological and nano areas, new communication methods promise novel solutions for various research issues. Due to the simple structure and the limited size of nanomachines, nanonetworks have conspicuous differences from traditional networks. Hence exploratory analysis and th...
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sg-ntu-dr.10356-1025892020-05-28T07:18:14Z Molecular communication model through gap junction channel with selective permeabilities Yang, Yiqun Yeo, Chai Kiat School of Computer Engineering IEEE International Conference on Networks (18th : 2012 : Singapore) DRNTU::Engineering::Computer science and engineering With rapid development in biological and nano areas, new communication methods promise novel solutions for various research issues. Due to the simple structure and the limited size of nanomachines, nanonetworks have conspicuous differences from traditional networks. Hence exploratory analysis and theory are expected. Molecular communication, which involves biological components in nanoscale, provides a more compatible approach to medical, environmental and agricultural research. Calcium ion (Ca2+), which is one of the most important universal second messengers in vivo cells, participates actively in the regulation of cellular activities. In this paper, we model the molecular communication system through gap junction channels. We present simulation results for patterned cells with different permeabilities. We analyze the propagation characteristics of intercellular calcium waves which are induced by the diffusion of inositol (l, 4, 5)-trisphosphate (IP3). 2013-10-10T04:36:27Z 2019-12-06T20:57:15Z 2013-10-10T04:36:27Z 2019-12-06T20:57:15Z 2012 2012 Conference Paper Yang, Y., & Yeo, C. K. (2012). Molecular communication model through gap junction channel with selective permeabilities. 2012 18th IEEE International Conference on Networks (ICON), pp.256-261. https://hdl.handle.net/10356/102589 http://hdl.handle.net/10220/16375 10.1109/ICON.2012.6506566 en |
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DRNTU::Engineering::Computer science and engineering Yang, Yiqun Yeo, Chai Kiat Molecular communication model through gap junction channel with selective permeabilities |
| description |
With rapid development in biological and nano areas, new communication methods promise novel solutions for various research issues. Due to the simple structure and the limited size of nanomachines, nanonetworks have conspicuous differences from traditional networks. Hence exploratory analysis and theory are expected. Molecular communication, which involves biological components in nanoscale, provides a more compatible approach to medical, environmental and agricultural research. Calcium ion (Ca2+), which is one of the most important universal second messengers in vivo cells, participates actively in the regulation of cellular activities. In this paper, we model the molecular communication system through gap junction channels. We present simulation results for patterned cells with different permeabilities. We analyze the propagation characteristics of intercellular calcium waves which are induced by the diffusion of inositol (l, 4, 5)-trisphosphate (IP3). |
| author2 |
School of Computer Engineering |
| author_facet |
School of Computer Engineering Yang, Yiqun Yeo, Chai Kiat |
| format |
Conference or Workshop Item |
| author |
Yang, Yiqun Yeo, Chai Kiat |
| author_sort |
Yang, Yiqun |
| title |
Molecular communication model through gap junction channel with selective permeabilities |
| title_short |
Molecular communication model through gap junction channel with selective permeabilities |
| title_full |
Molecular communication model through gap junction channel with selective permeabilities |
| title_fullStr |
Molecular communication model through gap junction channel with selective permeabilities |
| title_full_unstemmed |
Molecular communication model through gap junction channel with selective permeabilities |
| title_sort |
molecular communication model through gap junction channel with selective permeabilities |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/102589 http://hdl.handle.net/10220/16375 |
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1681057886739890176 |