Heliorhodopsin binds and regulates glutamine synthetase activity

Photoreceptors are light-sensitive proteins found in various organisms that respond to light and relay signals into the cells. Heliorhodopsin, a retinal-binding membrane protein, has been recently discovered, however its function remains unknown. Herein, we investigated the relationship between Acti...

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Published in:PLoS biology 2022-10, Vol.20 (10), p.e3001817-e3001817
Main Authors: Cho, Shin-Gyu, Song, Myungchul, Chuon, Kimleng, Shim, Jin-gon, Meas, Seanghun, Jung, Kwang-Hwan
Format: Article
Language:English
Subjects:
Actinobacteria
Actinomycetes
Amino acids
Ammonia
Assimilation
Bacteria
Binding sites
Biology and Life Sciences
Discovery Report
Enzymatic activity
Enzyme activity
Enzymes
Genetic aspects
Glutamate-ammonia ligase
Glutamine
Light
Medicine and Health Sciences
Membrane proteins
Nitrogen
Observations
Photoreceptors
Physical Sciences
Properties
Protein binding
Proteins
Regulation
Research and Analysis Methods
Rhodopsin
Signal transduction
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Summary:Photoreceptors are light-sensitive proteins found in various organisms that respond to light and relay signals into the cells. Heliorhodopsin, a retinal-binding membrane protein, has been recently discovered, however its function remains unknown. Herein, we investigated the relationship between Actinobacteria bacterium IMCC26103 heliorhodopsin (AbHeR) and an adjacent glutamine synthetase (AbGS) in the same operon. We demonstrate that AbHeR binds to AbGS and regulates AbGS activity. More specifically, the dissociation constant (K d ) value of the binding between AbHeR and AbGS is 6.06 μM. Moreover, the absence of positively charged residues within the intracellular loop of AbHeR impacted K d value as they serve as critical binding sites for AbGS. We also confirm that AbHeR up-regulates the biosynthetic enzyme activity of AbGS both in vitro and in vivo in the presence of light. GS is a key enzyme involved in nitrogen assimilation that catalyzes the conversion of glutamate and ammonia to glutamine. Hence, the interaction between AbHeR and AbGS may be critical for nitrogen assimilation in Actinobacteria bacterium IMCC26103 as it survives in low-nutrient environments. Overall, the findings of our study describe, for the first time, to the best of our knowledge, a novel function of heliorhodopsin as a regulatory rhodopsin with the capacity to bind and regulate enzyme activity required for nitrogen assimilation.
ISSN:1545-7885
1544-9173
1545-7885
DOI:10.1371/journal.pbio.3001817