Logan A. Brand scite author profile

Logan A. Brand

2Publications

0Citation Statements Received

146Citation Statements Given

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University of Alberta

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Multiple Light-Dark Signals Regulate Expression of the DEAD-Box RNA Helicase CrhR in Synechocystis PCC 6803

Ritter

Brand

Vincent

et al. 2022

Cells

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Since oxygenic photosynthesis evolved in the common ancestor of cyanobacteria during the Archean, a range of sensing and response strategies evolved to allow efficient acclimation to the fluctuating light conditions experienced in the diverse environments they inhabit. However, how these regulatory mechanisms are assimilated at the molecular level to coordinate individual gene expression is still being elucidated. Here, we demonstrate that integration of a series of three distinct light signals generate an unexpectedly complex network regulating expression of the sole DEAD-box RNA helicase, CrhR, encoded in Synechocystis sp. PCC 6803. The mechanisms function at the transcriptional, translational and post-translation levels, fine-tuning CrhR abundance to permit rapid acclimation to fluctuating light and temperature regimes. CrhR abundance is enhanced 15-fold by low temperature stress. We initially confirmed that the primary mechanism controlling crhR transcript accumulation at 20 °C requires a light quantity-driven reduction of the redox poise in the vicinity of the plastoquinone pool. Once transcribed, a specific light quality cue, a red light signal, was required for crhR translation, far-red reversal of which indicates a phytochrome-mediated mechanism. Examination of CrhR repression at 30 °C revealed that a redox- and light quality-independent light signal was required to initiate CrhR degradation. The crucial role of light was further revealed by the observation that dark conditions superseded the light signals required to initiate each of these regulatory processes. The findings reveal an unexpected complexity of light-dark sensing and signaling that regulate expression of an individual gene in cyanobacteria, an integrated mechanism of environmental perception not previously reported.

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Cyanobacterial biofactories: combining evolved and synthetic genetic regulatory mechanisms to yield carbon-neutral bioproducts

Brand¹,

Owttrim²

2017

PDJ

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While cyanobacteria hold the promise of producing useful bioproducts from little more than sunlight and carbon dioxide, their economic feasibility hinges on developing better mechanisms to manipulate gene expression in order to divert photosynthate towards product formation. A recent report demonstrates how combining simple feedback loops can improve the dynamic range of target gene expression while utilizing progressively lower concentrations of chemical inducers. As an extension of this work, we propose that utilizing regulatory elements that respond to changing temperatures could circumvent the need for exogenous chemical inducers, maintaining low background expression under non-induced conditions, and enhancing dynamic range via temperature induction of cyanobacterial cultures on an industrial scale.

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Logan A. Brand

Multiple Light-Dark Signals Regulate Expression of the DEAD-Box RNA Helicase CrhR in Synechocystis PCC 6803

Cyanobacterial biofactories: combining evolved and synthetic genetic regulatory mechanisms to yield carbon-neutral bioproducts

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