Synthetic transcription systems

Davidson, Eric Alan

14 June 2011

In this work, we seek to expand synthetic in vitro biological systems by using water-in-oil emulsions to provide an environment conducive to directed evolution. We approach this primarily by utilizing a model transcription system, the T7 RNA polymerase and promoter, which is orthogonal to both bacterial and eukaryotic transcription systems and is highly functional in vitro. First, we develop a method to identify functional promoter sequences completely in vitro. This method is tested using the T7 RNA polymerase-promoter model system. We then configure the T7 transcription system as an ‘autogene’ and investigate how this positive feedback circuit (whereby a T7 promoter expresses a T7 RNA polymerase gene) functions across various in vitro platforms, including while compartmentalized. The T7 autogene can be envisioned as a self-replicating system when compartmentalized, and its use for directed evolution is examined. Finally, we look towards future uses for these in vitro systems. One interesting application is to expand the utilization of unnatural base pairs within the context of a synthetic system. We investigate the ability of T7 RNA polymerase to recognize and utilize unnatural base pairs within the T7 promoter, complementing existing work on the utilization of unnatural base pairs for in vitro replication and transcription with an investigation of more complex protein-dependent regulatory function. We envision this work as a foundation for future in vitro synthetic biology efforts. / text

Synthetic biology

Compartmentalized self-replication

T7 RNA polymerase

T7 autogene

In vitro systems

Protein directed evolution

Laos, Roberto

25 September 2017

Evolución dirigida de proteínas: La evolución dirigida es una técnica que nos permite explorar funciones enzimáticas que no son requeridas en el ambiente natural. Esta técnica, simula procesos genéticos naturales y de selección. Esta estrategia se utiliza cuando un diseño racional es muy complicado. Consiste en una repetición de ciclos de diversificación y selección que llevan a la acumulación de mutaciones benéficas. Aquí se presenta dos ejemplos de evolución dirigida con los cuales se ha trabajado directamente: la ADN polimerasa del organismo  Thermus aquaticus usada comúnmente en PCR, y la proteína LacI que regula la expresión de genes usados para el metabolismo de lactosa en E. Coli. / Directed evolution allows us to explore protein functionalities not required in the natural environment. It mimics natural genetic processes and selective pressures. This approach is used when the molecular basis is not completely understood and rational design is a difficult task. This approach consists of serial cycles of consecutive diversification and selection which eventually lead to the accumulation of beneficial mutations. Here are presented two cases where directed evolution is used to modify two different proteins: Taq polymerase, enzyme used for DNA extension in PCR, and the LacI repressor protein which regulates gene expression on E.coli.

Directed Evolution

Water In Oil Emulsions

Taq Polymerase

Lac Repressor

Pcr

Error Prone Pcr

Compartmentalized Self Replication (csr)