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Literature DB >> 25533487

Structural biochemistry of a fungal LOV domain photoreceptor reveals an evolutionarily conserved pathway integrating light and oxidative stress.

Jameela Lokhandwala¹, Hilary C Hopkins¹, Aroa Rodriguez-Iglesias², Christoph Dattenböck², Monika Schmoll², Brian D Zoltowski³.

Abstract

Fungal LOV proteins facilitate photoadaptation via blue light regulation of dimer formation. Despite considerable homology of these proteins in closely related fungi, deviations in signaling exist. Here we report the crystal structure of ENVOY (ENV1), a homolog of N. crassa VVD in the fungus T. reesei, a model organism for plant cell wall degradation. Structural studies contradict a model of reversible competitive dimerization. Rather, evolutionary pressures have facilitated a two-residue shift in the position of a key Cys residue (Cys96) that enables the integration of environmental stress and light responses. A Cys96Thr variant abolishes adaptive responses to light and oxidative stress in a carbon source-dependent manner in vivo. Phylogenetic analysis verifies an evolutionary relevance of the Cys residue shift in different orders within Sordariomycetes. In this manner, we identified a widespread oxidative stress signaling mechanism that couples metabolic sensing and blue light responses not previously identified in LOV proteins.

Entities: Chemical Species

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Year: 2014 PMID： 25533487 DOI： 10.1016/j.str.2014.10.020

Source DB: PubMed Journal: Structure ISSN： 0969-2126 Impact factor: 5.006

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Cited

16 in total

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6. Histone Deacetylase HDA-2 Regulates Trichoderma atroviride Growth, Conidiation, Blue Light Perception, and Oxidative Stress Responses.

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7. Essential Role of an Unusually Long-lived Tyrosyl Radical in the Response to Red Light of the Animal-like Cryptochrome aCRY.

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8. A Native Threonine Coordinates Ordered Water to Tune Light-Oxygen-Voltage (LOV) Domain Photocycle Kinetics and Osmotic Stress Signaling in Trichoderma reesei ENVOY.

Authors: Jameela Lokhandwala; Rafael I Silverman Y de la Vega; Hilary C Hopkins; Collin W Britton; Aroa Rodriguez-Iglesias; Roberto Bogomolni; Monika Schmoll; Brian D Zoltowski
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9. Short LOV Proteins in Methylocystis Reveal Insight into LOV Domain Photocycle Mechanisms.

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Review 10. LOV-based optogenetic devices: light-driven modules to impart photoregulated control of cellular signaling.

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