Automation will be a necessary step for the success of molecular computing. Here we have applied microfluidic technology to DNA computers, with a sample application towards solving Boolean logic problems.
BenensonY.GilB.Ben-DorU.AdarR.ShapiroE.An Autonomous Molecular Computer for Logical Control of Gene Expression. Nature2004, 429, 423–429.
5.
van NoortD. In A programmable molecular computer in microreactors. Preliminary Proceedings, Tenth International Meeting on DNA Based Computers, Italy, June 7–10, 2004.
6.
SuyamaA. In Programmable DNA computer with application to mathematical and biological problems. Preliminary Proceedings, Eighth International Meeting on DNA Based Computers, Japan, June 10–13, 2002, p. 91.
7.
UngerM. A.ChouH.-P.ThorsenT.SchererA.QuakeS. R.Monolithic Microfabricated Valves and Pumps by Multilayer Soft Lithography. Science2000, 288, 113–116.
8.
McCaskillJ. S.Optically Programming DNA Computing in Microflow Reactors. Biosystems2001, 59, 125–138.
9.
van NoortD.GastF.-U.McCaskillJ. S.DNA Computing in Microreactors. Lecture Notes in Computer Science2001, 2340, 33–45.
10.
van NoortD.LandweberL. F. L.Towards a re-programmable DNA computer. Lecture Notes in Computer Science2004, 2943, 190–197.
11.
van NoortD.LandweberL. F. L.Towards a Re-Programmable DNA Computer. J. Nat. Computing (in press).
12.
LeeJ.-Y.van NoortD.ParkT.-H.ZhangB.-T.DNA Computational Medical Diagnostics in Microfluidics. Smart Materials, Nano-, and MicroSmart Systems (in press).
