Literature DB >> 31021593

Synthetic Bistability and Differentiation in Yeast.

Yaoyu Yang1, Jennifer L Nemhauser2, Eric Klavins1.   

Abstract

Engineered systems that control cellular differentiation and pattern formation are essential for applications like tissue engineering, biomaterial fabrication, and synthetic ecosystems. Synthetic circuits that can take on multiple states have been made to engineer multicellular systems. However, how to use these states to drive interesting cellular behavior remains challenging. Here, we present a cellular differentiation program involving a novel synthetic bistable switch coupled to an antibiotic resistance gene that affects growth in yeast ( S. cerevisiae). The switch is composed of a positive feedback loop involving a novel transcription factor and can be switched ON and OFF via two different transient inducer inputs. By further coupling the bistable switch with an antibiotic resistance gene, we obtained a growth differentiation circuit, where yeast cells can be switched to stable HIGH or LOW growth rate states via transient inducer inputs. This work demonstrates a rationally designed and experimentally validated cellular differentiation behavior in yeast.

Entities:  

Keywords:  antibiotic resistance; bistability; cellular differentiation; growth control; yeast

Mesh:

Substances:

Year:  2019        PMID: 31021593      PMCID: PMC6948009          DOI: 10.1021/acssynbio.8b00524

Source DB:  PubMed          Journal:  ACS Synth Biol        ISSN: 2161-5063            Impact factor:   5.110


  35 in total

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