Login / Signup

Branched DNA Architectures Produced by PCR-Based Assembly as Gene Compartments for Cell-Free Gene-Expression Reactions.

Xiaocui GuoLihui BaiFeng LiWilhelm T S HuckDayong Yang
Published in: Chembiochem : a European journal of chemical biology (2019)
The physical distance between genes plays important roles in controlling gene expression reactions in vivo. Herein, we report the design and synthesis of a branched gene architecture in which three transcription units are integrated into one framework through assembly based on the polymerase chain reaction (PCR), together with the exploitation of these constructs as "gene compartments" for cell-free gene expression reactions, probing the impact of this physical environment on gene transcription and translation. We find that the branched gene system enhances gene expression yields, in particular at low concentrations of DNA and RNA polymerase (RNAP); furthermore, in a crowded microenvironment that mimics the intracellular microenvironment, gene expression from branched genes maintains a relatively high level. We propose that the branched gene assembly forms a membrane-free gene compartment that resembles the nucleoid of prokaryotes and enables RNAP to shuttle more efficiently between neighboring transcription units, thus enhancing gene expression efficiency. Our branched DNA architecture provides a valuable platform for studying the influence of "cellular" physical environments on biochemical reactions in simplified cell-free systems.
Keyphrases