Abstract
Published in 2008, Parts & Pools represents one of the first attempts to conceptualize the modular design of bacterial synthetic gene circuits with Standard Biological Parts (DNA segments) and Pools of molecules referred to as common signal carriers (e.g., RNA polymerases and ribosomes). The original framework for modeling bacterial components and designing prokaryotic circuits evolved over the last years and brought, first, to the development of an algorithm for the automatic design of Boolean gene circuits. This is a remarkable achievement since gene digital circuits have a broad range of applications that goes from biosensors for health and environment care to computational devices. More recently, Parts & Pools was enabled to give a proper formal description of eukaryotic biological circuit components. This was possible by employing a rule-based modeling approach, a technique that permits a faithful calculation of all the species and reactions involved in complex systems such as eukaryotic cells and compartments. In this way, Parts & Pools is currently suitable for the visual and modular design of synthetic gene circuits in yeast and mammalian cells too.
Highlights
Works in Synthetic Biology are small circuits engineered mainly in E. coli (Andrianantoandro et al, 2006)
This review paper is organized as follows: Section 1 presents Parts & Pools foundational ideas and its application to bacterial gene circuit design; Section 2 introduces the algorithm for the automatic design of gene digital circuits that we developed starting from Parts & Pools; Section 3 shows how the rule-based modeling approach (Faeder et al, 2009) realized by the software BioNetGen (Blinov et al, 2004) was integrated into Parts & Pools in order to design eukaryotic modules and networks
Parts & Pools is a framework for the modular design and modeling of synthetic gene circuits both in bacterial and eukaryotic cells
Summary
Parts & Pools was enabled to give a proper formal description of eukaryotic biological circuit components.This was possible by employing a rule-based modeling approach, a technique that permits a faithful calculation of all the species and reactions involved in complex systems such as eukaryotic cells and compartments. In this way, Parts & Pools is currently suitable for the visual and modular design of synthetic gene circuits in yeast and mammalian cells too
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
