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Computation-guided redesign of promoter specificity of a bacterial RNA polymerase
Computation-guided redesign of promoter specificity of a bacterial RNA polymerase
by Raman, Srivatsan , Sah, Balendra , Landick, Robert , Liu, Xiangyang , O'Mara Schwartz, Jonah , Meger, Anthony T , Gillis, Thomas
in Bacteria / Circuits / Computer applications / DNA-directed RNA polymerase / Gene expression / High-throughput screening / Metabolic engineering / Metabolic flux / Metabolism / Reporter gene / RNA polymerase / Synthetic Biology / Toxicity / Transcription factors
2025
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Computation-guided redesign of promoter specificity of a bacterial RNA polymerase
by Raman, Srivatsan , Sah, Balendra , Landick, Robert , Liu, Xiangyang , O'Mara Schwartz, Jonah , Meger, Anthony T , Gillis, Thomas
in Bacteria / Circuits / Computer applications / DNA-directed RNA polymerase / Gene expression / High-throughput screening / Metabolic engineering / Metabolic flux / Metabolism / Reporter gene / RNA polymerase / Synthetic Biology / Toxicity / Transcription factors
2025
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Computation-guided redesign of promoter specificity of a bacterial RNA polymerase
Computation-guided redesign of promoter specificity of a bacterial RNA polymerase
by Raman, Srivatsan , Sah, Balendra , Landick, Robert , Liu, Xiangyang , O'Mara Schwartz, Jonah , Meger, Anthony T , Gillis, Thomas
in Bacteria / Circuits / Computer applications / DNA-directed RNA polymerase / Gene expression / High-throughput screening / Metabolic engineering / Metabolic flux / Metabolism / Reporter gene / RNA polymerase / Synthetic Biology / Toxicity / Transcription factors
2025

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Computation-guided redesign of promoter specificity of a bacterial RNA polymerase
Computation-guided redesign of promoter specificity of a bacterial RNA polymerase
Journal Article

Computation-guided redesign of promoter specificity of a bacterial RNA polymerase

Raman, Srivatsan,
Sah, Balendra,
Landick, Robert,
Liu, Xiangyang,
O'Mara Schwartz, Jonah,
Meger, Anthony T,
Gillis, Thomas
2025
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Overview
The ability to regulate genetic circuits and metabolic pathways is central to cellular control. The existing toolkit is predominantly comprised of local transcription regulators that are unsuitable for exerting control at a global genome-wide scale. Bacterial sigma factors are ideal global regulators as together they direct the RNA polymerase to thousands of transcription sites. Here, we redesigned the promoter specificity of the housekeeping sigma factor, sigma-70, toward five orthogonal promoter targets not recognized by the native sigma-70. These orthogonal sigma-70 factors were developed by screening a pooled library of computationally designed variants of the -35 DNA recognition helix, each tailored to a specific target promoter. In the redesigned sigma factors new target-specific interactions facilitate new promoter recognition. Activity of the top performing redesigned sigma-70s varied across the promoter targets and ranged from 17% to 77% of native sigma-70 on its canonical active promoter. These orthogonal sigma factors represent a new suite of regulators for global transcriptional control.
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Publisher
Cold Spring Harbor Laboratory Press,Cold Spring Harbor Laboratory
Subject

Bacteria

/ Circuits

/ Computer applications

/ DNA-directed RNA polymerase

/ Gene expression

/ High-throughput screening

/ Metabolic engineering

/ Metabolic flux

/ Metabolism

/ Reporter gene

/ RNA polymerase

/ Synthetic Biology

/ Toxicity

/ Transcription factors

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