Transcription attenuation in synthetic promoters in nonoverlapping tandem formation

Tietoaineisto

Kuvaus

Closely spaced promoters are ubiquitous in prokaryotic and eukaryotic genomes. How their structure and dynamics relate remains unclear, particularly for tandem formations. To study their transcriptional interference, we engineered two pairs and one trio of synthetic promoters in nonoverlapping, tandem formation, in single-copy plasmids transformed into Escherichia coli cells. From in vivo measurements, we found that these promoters in tandem formation can have attenuated transcription rates. The attenuation strength can be widely fine-tuned by the promoters’ positioning, natural regulatory mechanisms, and other factors, including the antibiotic rifampicin, which is known to hamper RNAP promoter escape. From this, and supported by in silico models, we concluded that the attenuation in these constructs emerges from premature terminations generated by collisions between RNAPs elongating from upstream promoters and RNAPs occupying downstream promoters. Moreover, we found that these collisions can cause one or both RNAPs to falloff. Finally, the broad spectrum of possible, externally regulated, attenuation strengths observed in our synthetic tandem promoters suggests that they could become useful as externally controllable regulators of future synthetic circuits.
Koska saatavilla25 elok. 2024
JulkaisijaDryad

Rahoitus

RahoittajatRahoittajan numero
Jane and Aatos Erkko Foundation10-10524-38
Tampereen yliopisto
Finnish Cultural Foundation00232457
Finnish National Agency for EducationTM-21-11655
Finnish Academy of Science and Letters
Sigrid Jusélius Foundation
Finnish National Agency for EducationTM-23-11984

    Field of science, Statistics Finland

    • 3111 Biolääketieteet

    Siteeraa tätä