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Literature DB >> 29390154

Bacterial gene control by DNA looping using engineered dimeric transcription activator like effector (TALE) proteins.

Nicole A Becker¹, Tanya L Schwab¹, Karl J Clark¹, L James Maher¹.

Abstract

Genetic switches must alternate between states whose probabilities are dependent on regulatory signals. Classical examples of transcriptional control in bacteria depend on repressive DNA loops anchored by proteins whose structures are sensitive to small molecule inducers or co-repressors. We are interested in exploiting these natural principles to engineer artificial switches for transcriptional control of bacterial genes. Here, we implement designed homodimeric DNA looping proteins ('Transcription Activator-Like Effector Dimers'; TALEDs) for this purpose in living bacteria. Using well-studied FKBP dimerization domains, we build switches that mimic regulatory characteristics of classical Escherichia coli lactose, galactose and tryptophan operon promoters, including induction or co-repression by small molecules. Engineered DNA looping using TALEDs is thus a new approach to tuning gene expression in bacteria. Similar principles may also be applicable for gene control in eukaryotes.

Entities: Chemical Disease Gene Mutation Species

Mesh：

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Year: 2018 PMID： 29390154 PMCID： PMC5861415 DOI： 10.1093/nar/gky047

Source DB: PubMed Journal: Nucleic Acids Res ISSN： 0305-1048 Impact factor: 16.971

34 in total

6. An operator-based expression toolkit for Bacillus subtilis enables fine-tuning of gene expression and biosynthetic pathway regulation.

Authors: Gang Fu; Jie Yue; Dandan Li; Yixin Li; Sang Yup Lee; Dawei Zhang
Journal: Proc Natl Acad Sci U S A Date: 2022-03-09 Impact factor: 12.779

6 in total

Bacterial gene control by DNA looping using engineered dimeric transcription activator like effector (TALE) proteins.

Review 1. Agents that increase the permeability of the outer membrane.

2. DNA-looping by RXR tetramers permits transcriptional regulation "at a distance".

3. Redesigning an FKBP-ligand interface to generate chemical dimerizers with novel specificity.

4. DNA looping in cellular repression of transcription of the galactose operon.

5. Self-assembly of genetically encoded DNA-protein hybrid nanoscale shapes.

Review 6. Multipartite genetic control elements: communication by DNA loop.

7. Susceptibility of gram-negative bacteria to polymyxin B nonapeptide.

8. Quantitative methods for measuring DNA flexibility in vitro and in vivo.

9. Genetic analysis of prokaryotic and eukaryotic DNA-binding proteins in Escherichia coli.

10. Control of gene expression by modulated self-assembly.

1. Coarse-grained modeling reveals the impact of supercoiling and loop length in DNA looping kinetics.

2. Determinants of cyclization-decyclization kinetics of short DNA with sticky ends.

3. Designed architectural proteins that tune DNA looping in bacteria.

Review 4. Tuning up Transcription Factors for Therapy.

5. Characterization of Gene Repression by Designed Transcription Activator-like Effector Dimer Proteins.

6. An operator-based expression toolkit for Bacillus subtilis enables fine-tuning of gene expression and biosynthetic pathway regulation.