2017
DOI: 10.1038/nchembio.2299
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Evolution of a split RNA polymerase as a versatile biosensor platform

Abstract: Biosensors that transduce target chemical and biochemical inputs into genetic outputs are essential for bioengineering and synthetic biology. Current biosensor design strategies often suffer from a lack of signal-to-noise, requirements for extensive optimization for each new input, and poor performance in mammalian cells. Here we report the development of a proximity-dependent split RNA polymerase (RNAP) as a general platform for biosensor engineering. After discovering that interactions between fused proteins… Show more

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Cited by 133 publications
(206 citation statements)
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References 52 publications
(70 reference statements)
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“…We omitted the CGG variant used in the one-by-two interaction analysis because it showed crosstalk with both the CTGA and T3 promoters. Critically, all of the variants, especially those selected for further study, maintained very good dynamic range for PPI detection when paired with the evolved RNAP N and split isoleucine zipper peptides used previously 43,70 , displaying a 134-fold to 300-fold dynamic range (Figure 5C). …”
Section: Resultsmentioning
confidence: 92%
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“…We omitted the CGG variant used in the one-by-two interaction analysis because it showed crosstalk with both the CTGA and T3 promoters. Critically, all of the variants, especially those selected for further study, maintained very good dynamic range for PPI detection when paired with the evolved RNAP N and split isoleucine zipper peptides used previously 43,70 , displaying a 134-fold to 300-fold dynamic range (Figure 5C). …”
Section: Resultsmentioning
confidence: 92%
“…1A). To validate and optimize the protein sensors, we deployed an E. coli -based transcriptional reporter system 43,58 . We cloned expression vectors that constitutively express the BH3 binding domains of tBID and NOXA each fused to the evolved RNAP N tag through a flexible linker.…”
Section: Resultsmentioning
confidence: 99%
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