Novel Ground-Up 3D Multicellular Simulators for Synthetic Biology CAD Integrating Stochastic Gillespie Simulations Benchmarked with Topologically Variable SBML Models.

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Tytuł:: Novel Ground-Up 3D Multicellular Simulators for Synthetic Biology CAD Integrating Stochastic Gillespie Simulations Benchmarked with Topologically Variable SBML Models.
Autorzy:: Matzko RO; Department of Computer Science, University of Bradford, Bradford BD7 1DP, UK.
Mierla L; Department of Computer Science, University of Bradford, Bradford BD7 1DP, UK.
Konur S; Department of Computer Science, University of Bradford, Bradford BD7 1DP, UK.
Źródło:: Genes [Genes (Basel)] 2023 Jan 06; Vol. 14 (1). Date of Electronic Publication: 2023 Jan 06.
Typ publikacji:: Journal Article; Research Support, Non-U.S. Gov't
Język:: English
Imprint Name(s):: Original Publication: Basel : MDPI
MeSH Terms:: Software*
Synthetic Biology*
Humans ; Systems Biology/methods ; Models, Biological ; Computer Simulation
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Contributed Indexing:: Keywords: CAD; SBML; automation; biophysics; chemical reaction networks; multicellular simulation; stochastic Gillespie; synthetic biology; systems biology; unreal engine
Entry Date(s):: Date Created: 20230121 Date Completed: 20230124 Latest Revision: 20230201
Update Code:: 20240104
PubMed Central ID:: PMC9859520
DOI:: 10.3390/genes14010154
PMID:: 36672895
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The elevation of Synthetic Biology from single cells to multicellular simulations would be a significant scale-up. The spatiotemporal behavior of cellular populations has the potential to be prototyped in silico for computer assisted design through ergonomic interfaces. Such a platform would have great practical potential across medicine, industry, research, education and accessible archiving in bioinformatics. Existing Synthetic Biology CAD systems are considered limited regarding population level behavior, and this work explored the in silico challenges posed from biological and computational perspectives. Retaining the connection to Synthetic Biology CAD, an extension of the Infobiotics Workbench Suite was considered, with potential for the integration of genetic regulatory models and/or chemical reaction networks through Next Generation Stochastic Simulator (NGSS) Gillespie algorithms. These were executed using SBML models generated by in-house SBML-Constructor over numerous topologies and benchmarked in association with multicellular simulation layers. Regarding multicellularity, two ground-up multicellular solutions were developed, including the use of Unreal Engine 4 contrasted with CPU multithreading and Blender visualization, resulting in a comparison of real-time versus batch-processed simulations. In conclusion, high-performance computing and client-server architectures could be considered for future works, along with the inclusion of numerous biologically and physically informed features, whilst still pursuing ergonomic solutions.

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