Literature DB >> 31788779

A yeast optogenetic toolkit (yOTK) for gene expression control in Saccharomyces cerevisiae.

Jidapas My An-Adirekkun1, Cameron J Stewart1, Stephanie H Geller1, Michael T Patel2, Justin Melendez2, Benjamin L Oakes2, Marcus B Noyes3, Megan N McClean1.   

Abstract

Optogenetic tools for controlling gene expression are ideal for tuning synthetic biological networks due to the exquisite spatiotemporal control available with light. Here we develop an optogenetic system for gene expression control integrated with an existing yeast toolkit allowing for rapid, modular assembly of light-controlled circuits in the important chassis organism Saccharomyces cerevisiae. We reconstitute activity of a split synthetic zinc-finger transcription factor (TF) using light-induced dimerization mediated by the proteins CRY2 and CIB1. We optimize function of this split TF and demonstrate the utility of the toolkit workflow by assembling cassettes expressing the TF activation domain and DNA-binding domain at different levels. Utilizing this TF and a synthetic promoter we demonstrate that light intensity and duty cycle can be used to modulate gene expression over the range currently available from natural yeast promoters. This study allows for rapid generation and prototyping of optogenetic circuits to control gene expression in S. cerevisiae.
© 2019 Wiley Periodicals, Inc.

Entities:  

Keywords:  MoClo; Saccharomyces cerevisiae; light-inducible promoter; optogenetics; yeast

Mesh:

Substances:

Year:  2019        PMID: 31788779      PMCID: PMC7015765          DOI: 10.1002/bit.27234

Source DB:  PubMed          Journal:  Biotechnol Bioeng        ISSN: 0006-3592            Impact factor:   4.530


  26 in total

1.  A Highly Characterized Yeast Toolkit for Modular, Multipart Assembly.

Authors:  Michael E Lee; William C DeLoache; Bernardo Cervantes; John E Dueber
Journal:  ACS Synth Biol       Date:  2015-05-01       Impact factor: 5.110

Review 2.  Optogenetic switches for light-controlled gene expression in yeast.

Authors:  Francisco Salinas; Vicente Rojas; Verónica Delgado; Eduardo Agosin; Luis F Larrondo
Journal:  Appl Microbiol Biotechnol       Date:  2017-02-16       Impact factor: 4.813

3.  High-efficiency yeast transformation using the LiAc/SS carrier DNA/PEG method.

Authors:  R Daniel Gietz; Robert H Schiestl
Journal:  Nat Protoc       Date:  2007       Impact factor: 13.491

Review 4.  How to train your microbe: methods for dynamically characterizing gene networks.

Authors:  Sebastian M Castillo-Hair; Oleg A Igoshin; Jeffrey J Tabor
Journal:  Curr Opin Microbiol       Date:  2015-02-10       Impact factor: 7.934

5.  Real-Time Genetic Compensation Defines the Dynamic Demands of Feedback Control.

Authors:  Patrick Harrigan; Hiten D Madhani; Hana El-Samad
Journal:  Cell       Date:  2018-10-18       Impact factor: 41.582

6.  Rapid blue-light-mediated induction of protein interactions in living cells.

Authors:  Matthew J Kennedy; Robert M Hughes; Leslie A Peteya; Joel W Schwartz; Michael D Ehlers; Chandra L Tucker
Journal:  Nat Methods       Date:  2010-10-31       Impact factor: 28.547

7.  Fast-acting and nearly gratuitous induction of gene expression and protein depletion in Saccharomyces cerevisiae.

Authors:  R Scott McIsaac; Sanford J Silverman; Megan N McClean; Patrick A Gibney; Joanna Macinskas; Mark J Hickman; Allegra A Petti; David Botstein
Journal:  Mol Biol Cell       Date:  2011-09-30       Impact factor: 4.138

8.  Light-based feedback for controlling intracellular signaling dynamics.

Authors:  Jared E Toettcher; Delquin Gong; Wendell A Lim; Orion D Weiner
Journal:  Nat Methods       Date:  2011-09-11       Impact factor: 28.547

9.  Easy calibration of the Light Plate Apparatus for optogenetic experiments.

Authors:  Kieran Sweeney; Neydis Moreno Morales; Zachary Burmeister; Amit J Nimunkar; Megan N McClean
Journal:  MethodsX       Date:  2019-06-13

10.  An Optogenetic Platform for Real-Time, Single-Cell Interrogation of Stochastic Transcriptional Regulation.

Authors:  Marc Rullan; Dirk Benzinger; Gregor W Schmidt; Andreas Milias-Argeitis; Mustafa Khammash
Journal:  Mol Cell       Date:  2018-05-17       Impact factor: 17.970
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  7 in total

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3.  Optogenetic control of NOTCH1 signaling.

Authors:  Joanna Kałafut; Jakub Czapiński; Alicja Przybyszewska-Podstawka; Arkadiusz Czerwonka; Adrian Odrzywolski; Cecilia Sahlgren; Adolfo Rivero-Müller
Journal:  Cell Commun Signal       Date:  2022-05-18       Impact factor: 7.525

4.  Optogenetic Tools for Control of Public Goods in Saccharomyces cerevisiae.

Authors:  Michael T Patel; Cameron J Stewart; Neydis Moreno Morales; Kieran Sweeney; Megan N McClean
Journal:  mSphere       Date:  2021-08-25       Impact factor: 4.389

5.  Engineering eukaryote-like regulatory circuits to expand artificial control mechanisms for metabolic engineering in Saccharomyces cerevisiae.

Authors:  Bingyin Peng; Naga Chandra Bandari; Zeyu Lu; Christopher B Howard; Colin Scott; Matt Trau; Geoff Dumsday; Claudia E Vickers
Journal:  Commun Biol       Date:  2022-02-16

Review 6.  Standardization of Synthetic Biology Tools and Assembly Methods for Saccharomyces cerevisiae and Emerging Yeast Species.

Authors:  Koray Malcı; Emma Watts; Tania Michelle Roberts; Jamie Yam Auxillos; Behnaz Nowrouzi; Heloísa Oss Boll; Cibele Zolnier Sousa do Nascimento; Andreas Andreou; Peter Vegh; Sophie Donovan; Rennos Fragkoudis; Sven Panke; Edward Wallace; Alistair Elfick; Leonardo Rios-Solis
Journal:  ACS Synth Biol       Date:  2022-08-08       Impact factor: 5.249

Review 7.  Controlling gene expression with light: a multidisciplinary endeavour.

Authors:  Denis Hartmann; Jefferson M Smith; Giacomo Mazzotti; Razia Chowdhry; Michael J Booth
Journal:  Biochem Soc Trans       Date:  2020-08-28       Impact factor: 5.407
  7 in total

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