Literature DB >> 24120288

Potential of proton-pumping rhodopsins: engineering photosystems into microorganisms.

Nico J Claassens1, Michael Volpers, Vitor A P Martins dos Santos, John van der Oost, Willem M de Vos.   

Abstract

A wide range of proton-pumping rhodopsins (PPRs) have been discovered in recent years. Using a synthetic biology approach, PPR photosystems with different features can be easily introduced in nonphotosynthetic microbial hosts. PPRs can provide hosts with the ability to harvest light and drive the sustainable production of biochemicals or biofuels. PPRs use light energy to generate an outward proton flux, and the resulting proton motive force can subsequently power cellular processes. Recently, the introduction of PPRs in microbial production hosts has successfully led to light-driven biotechnological conversions. In this review, we discuss relevant features of natural PPRs, evaluate reported biotechnological applications of microbial production hosts equipped with PPRs, and provide an outlook on future developments.
Copyright © 2013 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  metabolic engineering; proton-pumping rhodopsins; synthetic biology; synthetic phototrophy

Mesh:

Substances:

Year:  2013        PMID: 24120288     DOI: 10.1016/j.tibtech.2013.08.006

Source DB:  PubMed          Journal:  Trends Biotechnol        ISSN: 0167-7799            Impact factor:   19.536


  9 in total

1.  Fusion Domains Guide the Oriented Insertion of Light-Driven Proton Pumps into Liposomes.

Authors:  Noah Ritzmann; Johannes Thoma; Stephan Hirschi; David Kalbermatter; Dimitrios Fotiadis; Daniel J Müller
Journal:  Biophys J       Date:  2017-07-08       Impact factor: 4.033

Review 2.  Harnessing the power of microbial autotrophy.

Authors:  Nico J Claassens; Diana Z Sousa; Vitor A P Martins Dos Santos; Willem M de Vos; John van der Oost
Journal:  Nat Rev Microbiol       Date:  2016-09-26       Impact factor: 60.633

3.  Photoactive Nanomaterials Inspired by Nature: LTL Zeolite Doped with Laser Dyes as Artificial Light Harvesting Systems.

Authors:  Leire Gartzia-Rivero; Jorge Bañuelos; Iñigo López-Arbeloa
Journal:  Materials (Basel)       Date:  2017-05-04       Impact factor: 3.623

4.  An evolutionary optimization of a rhodopsin-based phototrophic metabolism in Escherichia coli.

Authors:  Hyun Aaron Kim; Hyun Ju Kim; Jihoon Park; Ah Reum Choi; Kyoo Heo; Haeyoung Jeong; Kwang-Hwan Jung; Yeong-Jae Seok; Pil Kim; Sang Jun Lee
Journal:  Microb Cell Fact       Date:  2017-06-15       Impact factor: 5.328

5.  Retinal-Based Proton Pumping in the Near Infrared.

Authors:  Srividya Ganapathy; Hanka Venselaar; Que Chen; Huub J M de Groot; Klaas J Hellingwerf; Willem J de Grip
Journal:  J Am Chem Soc       Date:  2017-02-02       Impact factor: 15.419

6.  Bicistronic Design-Based Continuous and High-Level Membrane Protein Production in Escherichia coli.

Authors:  Nico J Claassens; Max Finger-Bou; Bart Scholten; Frederieke Muis; Jonas J de Groot; Jan-Willem de Gier; Willem M de Vos; John van der Oost
Journal:  ACS Synth Biol       Date:  2019-07-02       Impact factor: 5.110

7.  Biosynthesis of soluble carotenoid holoproteins in Escherichia coli.

Authors:  Céline Bourcier de Carbon; Adrien Thurotte; Adjélé Wilson; François Perreau; Diana Kirilovsky
Journal:  Sci Rep       Date:  2015-03-13       Impact factor: 4.379

8.  Integrated In Silico Analysis of Pathway Designs for Synthetic Photo-Electro-Autotrophy.

Authors:  Michael Volpers; Nico J Claassens; Elad Noor; John van der Oost; Willem M de Vos; Servé W M Kengen; Vitor A P Martins Dos Santos
Journal:  PLoS One       Date:  2016-06-23       Impact factor: 3.240

9.  Improving heterologous membrane protein production in Escherichia coli by combining transcriptional tuning and codon usage algorithms.

Authors:  Nico J Claassens; Melvin F Siliakus; Sebastiaan K Spaans; Sjoerd C A Creutzburg; Bart Nijsse; Peter J Schaap; Tessa E F Quax; John van der Oost
Journal:  PLoS One       Date:  2017-09-13       Impact factor: 3.240
  9 in total

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