Molecular mechanisms and evolutionary robustness of a color switch in proteorhodopsins
Molecular mechanisms and evolutionary robustness of a color switch in proteorhodopsins
Proteorhodopsins are widely distributed photoreceptors from marine bacteria. Their discovery revealed a high degree of evolutionary adaptation to ambient light, resulting in blue- and green-absorbing variants that correlate with a conserved glutamine/leucine at position 105. On the basis of an integrated approach combining sensitivity-enhanced solid-state nuclear magnetic resonance (ssNMR) spectroscopy and linear-scaling quantum mechanics/molecular mechanics (QM/MM) methods, this single residue is shown to be responsible for a variety of synergistically coupled structural and electrostatic changes along the retinal polyene chain, ionone ring, and within the binding pocket. They collectively explain the observed color shift. Furthermore, analysis of the differences in chemical shift between nuclei within the same residues in green and blue proteorhodopsins also reveals a correlation with the respective degree of conservation. Our data show that the highly conserved color change mainly affects other highly conserved residues, illustrating a high degree of robustness of the color phenotype to sequence variation.
Mao, Jiafei
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Jin, Xinsheng
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Shi, Man
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Heidenreich, David
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Brown, Lynda J.
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Brown, Richard C.D.
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Lelli, Moreno
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He, Xiao
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Glaubitz, Clemens
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26 January 2024
Mao, Jiafei
edacb8e9-ad60-4b98-8b95-d2069cf6590f
Jin, Xinsheng
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Shi, Man
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Heidenreich, David
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Brown, Lynda J.
75aa95fa-5d27-46a7-9dbe-0f465a664f5b
Brown, Richard C.D.
21ce697a-7c3a-480e-919f-429a3d8550f5
Lelli, Moreno
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He, Xiao
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Glaubitz, Clemens
99f5e847-e6fd-4783-bc60-054bf0e15661
Mao, Jiafei, Jin, Xinsheng, Shi, Man, Heidenreich, David, Brown, Lynda J., Brown, Richard C.D., Lelli, Moreno, He, Xiao and Glaubitz, Clemens
(2024)
Molecular mechanisms and evolutionary robustness of a color switch in proteorhodopsins.
Science Advances, 10 (4), [eadj0384].
(doi:10.1126/sciadv.adj0384).
Abstract
Proteorhodopsins are widely distributed photoreceptors from marine bacteria. Their discovery revealed a high degree of evolutionary adaptation to ambient light, resulting in blue- and green-absorbing variants that correlate with a conserved glutamine/leucine at position 105. On the basis of an integrated approach combining sensitivity-enhanced solid-state nuclear magnetic resonance (ssNMR) spectroscopy and linear-scaling quantum mechanics/molecular mechanics (QM/MM) methods, this single residue is shown to be responsible for a variety of synergistically coupled structural and electrostatic changes along the retinal polyene chain, ionone ring, and within the binding pocket. They collectively explain the observed color shift. Furthermore, analysis of the differences in chemical shift between nuclei within the same residues in green and blue proteorhodopsins also reveals a correlation with the respective degree of conservation. Our data show that the highly conserved color change mainly affects other highly conserved residues, illustrating a high degree of robustness of the color phenotype to sequence variation.
Text
sciadv.adj0384
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Accepted/In Press date: 5 December 2023
e-pub ahead of print date: 24 January 2024
Published date: 26 January 2024
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Copyright © 2024 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY).
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Local EPrints ID: 487617
URI: http://eprints.soton.ac.uk/id/eprint/487617
ISSN: 2375-2548
PURE UUID: 8a841c60-6896-4a73-b143-14f79099e950
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Date deposited: 29 Feb 2024 17:38
Last modified: 24 May 2024 01:35
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Author:
Jiafei Mao
Author:
Xinsheng Jin
Author:
Man Shi
Author:
David Heidenreich
Author:
Moreno Lelli
Author:
Xiao He
Author:
Clemens Glaubitz
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