Abstract
Engineered synthetic biological devices have been designed to perform a variety of functions from sensing molecules and bioremediation to energy production and biomedicine. Notwithstanding, a major limitation of in vivo circuit implementation is the constraint associated to the use of standard methodologies for circuit design. Thus, future success of these devices depends on obtaining circuits with scalable complexity and reusable parts. Here we show how to build complex computational devices using multicellular consortia and space as key computational elements. This spatial modular design grants scalability since its general architecture is independent of the circuit’s complexity, minimizes wiring requirements and allows component reusability with minimal genetic engineering. The potential use of this approach is demonstrated by implementation of complex logical functions with up to six inputs, thus demonstrating the scalability and flexibility of this method. The potential implications of our results are outlined.
Highlights
Synthetic biological devices have been built to perform a variety of functions [1,2,3]
Synthetic biological circuits have been built for different purposes
We proposed to distribute the computation in several cellular consortia that are physically separated, ensuring implementation of circuits independently of their complexity and using reusable components with minimal genetic engineering
Summary
Synthetic biological devices have been built to perform a variety of functions [1,2,3]. Dedicated efforts have been oriented towards the exploration of such combinatorial scheme within synthetic biology [25,26] In accordance with this standard architecture, the functional complexity of a circuit will scale up with both the number of different logic gates and the number of wires that connect them While wiring is not a major problem in standard electronics, in biological systems is a key limiting factor This limitation arises from the fact that each connection (wire) requires a different biochemical entity and that crosstalk needs to be prevented [27]
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