Build to understand: synthetic approaches to biology | Zendy

Lezhi Wang | Zendy; Fuqing Wu | Zendy; Kevin Flores | Zendy; Ying–Cheng Lai | Zendy; Xiao Wang | Zendy

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Build to understand: synthetic approaches to biology

Author(s) -

Lezhi Wang,

Fuqing Wu,

Kevin Flores,

Ying–Cheng Lai,

Xiao Wang

Publication year - 2015

Publication title -

integrative biology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.853

H-Index - 70

eISSN - 1757-9708

pISSN - 1757-9694

DOI - 10.1039/c5ib00252d

Subject(s) - synthetic biology , biology , computational biology , systems biology , task (project management) , experimental biology , evolutionary biology , data science , computer science , engineering , systems engineering

In this review we discuss how synthetic biology facilitates the task of investigating genetic circuits that are observed in naturally occurring biological systems. Specifically, we give examples where experimentation with synthetic gene circuits has been used to understand four fundamental mechanisms intrinsic to development and disease: multistability, stochastic gene expression, oscillations, and cell-cell communication. Within each area, we also discuss how mathematical modeling has been employed as an essential tool to guide the design of novel gene circuits and as a theoretical basis for exploring circuit topologies exhibiting robust behaviors in the presence of noise.

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