Exploring chromophore-protein interactions in fluorescent protein cmFP512 from Cerianthus membranaceus: X-ray structure analysis and optical spectroscopy
Exploring chromophore-protein interactions in fluorescent protein cmFP512 from Cerianthus membranaceus: X-ray structure analysis and optical spectroscopy
Autofluorescent proteins of the GFP family all share the same three-dimensional -can fold; yet they exhibit widely different optical properties, arising either from chemical modification of the chromophore itself or from specific interactions of the chromophore with the surrounding protein moiety. Here we present a structural and spectroscopic characterization of the green fluorescent protein cmFP512 from Cerianthus membranaceus, a nonbioluminescent, azooxanthellate cnidarian, which has only ~22% sequence identity with Aequorea victoria GFP. The X-ray structure, obtained by molecular replacement at a resolution of 1. 35 Å, shows the chromophore, formed from the tripeptide Gln-Tyr-Gly, in a hydrogen-bonded cage in the center of an 11-stranded -barrel, tightly restrained by adjacent residues and structural water molecules. It exists in a neutral (A) and an anionic (B) species, with absorption/emission maxima at 392/460 (pH 5) and 503/512 nm (pH 7). Their fractional populations and peak positions depend sensitively on pH, reflecting protonation of groups adjacent to the chromophore. The pH dependence of the spectra is explained by a protonation mechanism involving a hydrogen-bonded cluster of charged/polar groups. Cryospectroscopy at 12 K was also performed to analyze the vibronic coupling of the electronic transitions.
12942-12953
Nienhaus, K.
ff9b0d42-5cd8-49a7-8ed4-24db20289091
Renzi, F.
b7d74b0e-8e4a-4b66-ab5d-14d71d99a0ca
Vallone, B.
ca28a752-e121-4143-b47d-e8aa6f38fae5
Wiedenmann, J.
ad445af2-680f-4927-90b3-589ac9d538f7
Nienhaus, G.U.
8f2b40ea-be57-4b32-880f-8a0e5c1585aa
10 October 2006
Nienhaus, K.
ff9b0d42-5cd8-49a7-8ed4-24db20289091
Renzi, F.
b7d74b0e-8e4a-4b66-ab5d-14d71d99a0ca
Vallone, B.
ca28a752-e121-4143-b47d-e8aa6f38fae5
Wiedenmann, J.
ad445af2-680f-4927-90b3-589ac9d538f7
Nienhaus, G.U.
8f2b40ea-be57-4b32-880f-8a0e5c1585aa
Nienhaus, K., Renzi, F., Vallone, B., Wiedenmann, J. and Nienhaus, G.U.
(2006)
Exploring chromophore-protein interactions in fluorescent protein cmFP512 from Cerianthus membranaceus: X-ray structure analysis and optical spectroscopy.
Biochemistry, 45 (43), .
(doi:10.1021/bi060885c S0006-2960(06)00885-3).
Abstract
Autofluorescent proteins of the GFP family all share the same three-dimensional -can fold; yet they exhibit widely different optical properties, arising either from chemical modification of the chromophore itself or from specific interactions of the chromophore with the surrounding protein moiety. Here we present a structural and spectroscopic characterization of the green fluorescent protein cmFP512 from Cerianthus membranaceus, a nonbioluminescent, azooxanthellate cnidarian, which has only ~22% sequence identity with Aequorea victoria GFP. The X-ray structure, obtained by molecular replacement at a resolution of 1. 35 Å, shows the chromophore, formed from the tripeptide Gln-Tyr-Gly, in a hydrogen-bonded cage in the center of an 11-stranded -barrel, tightly restrained by adjacent residues and structural water molecules. It exists in a neutral (A) and an anionic (B) species, with absorption/emission maxima at 392/460 (pH 5) and 503/512 nm (pH 7). Their fractional populations and peak positions depend sensitively on pH, reflecting protonation of groups adjacent to the chromophore. The pH dependence of the spectra is explained by a protonation mechanism involving a hydrogen-bonded cluster of charged/polar groups. Cryospectroscopy at 12 K was also performed to analyze the vibronic coupling of the electronic transitions.
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Published date: 10 October 2006
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Local EPrints ID: 51175
URI: http://eprints.soton.ac.uk/id/eprint/51175
ISSN: 0006-2960
PURE UUID: 17af0ea6-06cd-4dd7-825c-8efeb47ec02a
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Date deposited: 08 May 2008
Last modified: 16 Mar 2024 03:53
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Author:
K. Nienhaus
Author:
F. Renzi
Author:
B. Vallone
Author:
G.U. Nienhaus
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