Team:Poznan-BioInf/Introduction

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Poznan-BioInf
Poznan-BioInf
iGEM

Introduction.

Overview.

Our project aims to construct a synthetic biological device based on a digital circuit called a multiplexer. Our system is designed to generate a response dependent solely on the provided input signals. As multiple input signals were needed, we had to test multiple inducible promoters. Activities of these promoters are induced by presence or absence of various monosaccharides: xylose, arabinose, rhamnose and disaccharide melibiose. Thus, their concentrations were equivalent to analog signals that could be converted to expression of serine recombinases (phage integrases) in an 'all-or-none' way, providing us with a digital control over the system.

Using the interases' ability to recognize nonidentical sites and invert or excise identified sequence, one may make DNA editable in vivo. One of the possible uses of such a sub-system is to create a biological equivalent of a transistor - dubbed a transcriptor - that uses DNA polimerase flow as an analogue of the electric current, while exploiting the integrase as a control signal. That suffices to build an SR-latch - the simplest memory cell, being one of the basic units of the Von Neumann computer architecture. The resultant DNA-based memory storage can be propagated when cells divide.

We envision that the abilities of integrases could allow switching expression on and off, targeting various genetic components.

02 03

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