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Autoregulation of greA Expression Relies on GraL Rather than on greA Promoter Region.

Maciej DylewskiLlorenç Fernández-CollBożena Bruhn-OlszewskaCarlos BalsalobreKatarzyna Potrykus
Published in: International journal of molecular sciences (2019)
GreA is a well-characterized transcriptional factor that acts primarily by rescuing stalled RNA polymerase complexes, but has also been shown to be the major transcriptional fidelity and proofreading factor, while it inhibits DNA break repair. Regulation of greA gene expression itself is still not well understood. So far, it has been shown that its expression is driven by two overlapping promoters and that greA leader encodes a small RNA (GraL) that is acting in trans on nudE mRNA. It has been also shown that GreA autoinhibits its own expression in vivo. Here, we decided to investigate the inner workings of this autoregulatory loop. Transcriptional fusions with lacZ reporter carrying different modifications (made both to the greA promoter and leader regions) were made to pinpoint the sequences responsible for this autoregulation, while GraL levels were also monitored. Our data indicate that GreA mediated regulation of its own gene expression is dependent on GraL acting in cis (a rare example of dual-action sRNA), rather than on the promoter region. However, a yet unidentified, additional factor seems to participate in this regulation as well. Overall, the GreA/GraL regulatory loop seems to have unique but hard to classify properties.
Keyphrases
  • gene expression
  • transcription factor
  • dna methylation
  • poor prognosis
  • binding protein
  • machine learning
  • electronic health record
  • single molecule
  • heat shock
  • oxidative stress
  • circulating tumor
  • deep learning