An autonomous molecular transport system using DNAs and motor proteins in molecular communication

Author

Hiyama, S. ; Moritani, Y. ; Suda, T. ; Shima, T. ; Sutoh, K.

Author_Institution

Res. Labs., NTT DoCoMo, Inc., Kanagawa

fYear

2007

fDate

10-12 Dec. 2007

Firstpage

135

Lastpage

138

Abstract

This paper describes a molecular transport system in molecular communication that uses the machinery in living cells. The molecular transport system requires: 1) loading of the specified cargo molecules at a loading site (at a sender); 2) transport of the loaded cargoes to an unloading site (to a receiver); and 3) unloading of the transported cargoes at the unloading site, all without using external stimuli. Through the DNA strand exchange at a loading site and at an unloading site, and through motility of a biological motor system (kinesins and microtubules), the authors of this paper constructed a molecular transport system and demonstrated that kinesin-driven microtubules autonomously load, transport and unload cargoes to which a specified DNA strand is attached.

Keywords

DNA; molecular biophysics; transport processes; DNA; autonomous molecular transport system; biological motor system; cargo molecules; living cells; molecular communication; motor proteins; Biological information theory; Cells (biology); DNA; Electromagnetic scattering; In vitro; Machinery; Micromotors; Molecular communication; Optical receivers; Proteins; Autonomous operation; DNA; Molecular communication; Molecular transport system; Motor protein;

fLanguage

English

Publisher

ieee

Conference_Titel

Bio-Inspired Models of Network, Information and Computing Systems, 2007. Bionetics 2007. 2nd

Conference_Location

Budapest

Print_ISBN

978-963-9799-05-9

Electronic_ISBN

978-963-9799-05-9

Type

conf

DOI

10.1109/BIMNICS.2007.4610099

Filename

4610099