Yuki Moritani
Nippon Telegraph and Telephone
31 Papers
152 Citations
Yuki Moritani is an academic researcher from Nippon Telegraph and Telephone. The author has contributed to research in topics: Molecular communication & Molecular motor. The author has an hindex of 17, co-authored 31 publications. Previous affiliations of Yuki Moritani include Tokyo Medical and Dental University & NTT DoCoMo.
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Papers
Molecular communication: Harnessing biochemical materials to engineer biomimetic communication systems
Satoshi Hiyama,Yuki Moritani +1 more
TL;DR: This work describes an integrated system that combines a molecular communication interface, a molecular propagation system, and a sender/receiver (using giant lipid vesicles embedded with gemini-peptide lipids) and presents potential applications and the future outlook of molecular communication.
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Direct integration of cell-free-synthesized connexin-43 into liposomes and hemichannel formation.
TL;DR: Results indicate that the liposomes act in a chaperone‐like manner by preventing Cx43 from aggregating in solution, because of integration into the bilayer, and also by functionalization of the integrated Cx 43 in the membrane.
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•Posted Content
A Design of an Autonomous Molecule Loading/Transporting/Unloading System Using DNA Hybridization and Biomolecular Linear Motors
TL;DR: In this article, a molecular propagation system in molecular communication directionally transports molecules from a sender to a receiver by using DNA hybridization, which is used to load and unload the molecules onto and from the carriers at a sender and a receiver.
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A design of an autonomous molecule loading/transporting/unloading system using dna hybridization and biomolecular linear motors
Satoshi Hiyama,Y. Isogawa,Tatsuya Suda,Yuki Moritani,Kazuo Sutoh +4 more
- 01 Jan 2005
TL;DR: In this paper, a molecular propagation system in molecular communication directionally transports molecules from a sender to a receiver by using DNA hybridization, which is used to load and unload the molecules onto and from the carriers at a sender and a receiver.
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