Nucleic acid nanotechnology

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A clocked finite state machine built from DNA.

Chem Commun (Camb) 49:3 (2013) 237-239

Authors:

Cristina Costa Santini, Jonathan Bath, Andy M Tyrrell, Andrew J Turberfield

Abstract:

We implement a finite state machine by representing state, transition rules and input symbols with DNA components. Transitions between states are triggered by a clock signal which allows synchronized, parallel operation of two (or more) state machines. The state machine can be re-programmed by changing the input symbols.
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DNA Walker Circuits: Computational Potential, Design, and Verification

Lecture Notes in Computer Science Springer Nature 8141 (2013) 31-45

Authors:

Frits Dannenberg, Marta Kwiatkowska, Chris Thachuk, Andrew J Turberfield
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Molecular machinery built from DNA

NOBEL SYMPOSIUM 153: NANOSCALE ENERGY CONVERTERS 1519 (2013) 81-82

Authors:

Jonathan Bath, Andrew J Turberfield
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Probing GPCR-Gα interactions: A functional study by EM and SPR

EUROPEAN BIOPHYSICS JOURNAL WITH BIOPHYSICS LETTERS 42 (2013) S172-S172

Authors:

RJ Adamson, TH Sharp, DN Selmi, AD Goddard, RJ Gilbert, AJ Turberfield, A Watts
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Small molecule signals that direct the route of a molecular cargo.

Small 8:23 (2012) 3593-3597

Authors:

Richard A Muscat, Jonathan Bath, Andrew J Turberfield

Abstract:

The route taken by a DNA cargo on a branched track can be controlled by the small molecule adenosine using a pair of aptamers that reciprocally block and unblock branches of the track in response to adenosine binding.
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