Denaturation and partial renaturation of a tightly tetramerized DsRed protein under mildly acidic conditions

Peter V. Vrzheshch; Nina A. Akovbian; Sergey D. Varfolomeyev; Vladislav V. Verkhusha

doi:10.1016/S0014-5793(00)02344-9

Denaturation and partial renaturation of a tightly tetramerized DsRed protein under mildly acidic conditions

Peter V. Vrzheshch, Nina A. Akovbian, Sergey D. Varfolomeyev, Vladislav V. Verkhusha

Research output: Contribution to journal › Article › peer-review

52 Scopus citations

Abstract

The red fluorescent protein, DsRed, recently cloned from coral Discosoma sp. has one of the longest fluorescence waves and one of the most complex absorbance spectra among the family of fluorescent proteins. In this work we found that with time DsRed fluorescence decreases under mildly acidic conditions (pH 4.0-4.8) in a pH-dependent manner, and this fluorescence inactivation could be partially recovered by subsequent re-alkalization. The DsRed absorbance and circular dichroism spectra under these conditions revealed that the fluorescence changes were caused by denaturation followed by partial renaturation of the protein. Further, analytical ultracentrifugation determined that native DsRed formed a tight tetramer under various native conditions. Quantitative analysis of the data showed that several distinct states of protein exist during the fluorescence inactivation and recovery, and the inactivation of fluorescence can be caused by protonation of a single ionogenic group in each monomer of DsRed tetramer.

Original language	English (US)
Pages (from-to)	203-208
Number of pages	6
Journal	FEBS Letters
Volume	487
Issue number	2
DOIs	https://doi.org/10.1016/S0014-5793(00)02344-9
State	Published - Dec 29 2000
Externally published	Yes

Keywords

Denaturation
Kinetics
Red fluorescent protein
Renaturation
Tetramer
pH dependence

ASJC Scopus subject areas

Biophysics
Structural Biology
Biochemistry
Molecular Biology
Genetics
Cell Biology

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10.1016/S0014-5793(00)02344-9

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title = "Denaturation and partial renaturation of a tightly tetramerized DsRed protein under mildly acidic conditions",

abstract = "The red fluorescent protein, DsRed, recently cloned from coral Discosoma sp. has one of the longest fluorescence waves and one of the most complex absorbance spectra among the family of fluorescent proteins. In this work we found that with time DsRed fluorescence decreases under mildly acidic conditions (pH 4.0-4.8) in a pH-dependent manner, and this fluorescence inactivation could be partially recovered by subsequent re-alkalization. The DsRed absorbance and circular dichroism spectra under these conditions revealed that the fluorescence changes were caused by denaturation followed by partial renaturation of the protein. Further, analytical ultracentrifugation determined that native DsRed formed a tight tetramer under various native conditions. Quantitative analysis of the data showed that several distinct states of protein exist during the fluorescence inactivation and recovery, and the inactivation of fluorescence can be caused by protonation of a single ionogenic group in each monomer of DsRed tetramer.",

keywords = "Denaturation, Kinetics, Red fluorescent protein, Renaturation, Tetramer, pH dependence",

author = "Vrzheshch, {Peter V.} and Akovbian, {Nina A.} and Varfolomeyev, {Sergey D.} and Verkhusha, {Vladislav V.}",

note = "Funding Information: We thank T. Mizukoshi and S. Takahashi for helpful suggestions and discussions, and E.N. Efremenko and A. Pozhytkov for discussions of initial stages of this work. V.V.V. also thanks S. Tsukita and the JST Corporation for the possibility to do part of this work participating in Tsukita Cell Axis Project. This work was supported by the Russian Foundation for Fundamental Research, grant 00-04-48777.",

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doi = "10.1016/S0014-5793(00)02344-9",

language = "English (US)",

volume = "487",

pages = "203--208",

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T1 - Denaturation and partial renaturation of a tightly tetramerized DsRed protein under mildly acidic conditions

AU - Vrzheshch, Peter V.

AU - Akovbian, Nina A.

AU - Varfolomeyev, Sergey D.

AU - Verkhusha, Vladislav V.

N1 - Funding Information: We thank T. Mizukoshi and S. Takahashi for helpful suggestions and discussions, and E.N. Efremenko and A. Pozhytkov for discussions of initial stages of this work. V.V.V. also thanks S. Tsukita and the JST Corporation for the possibility to do part of this work participating in Tsukita Cell Axis Project. This work was supported by the Russian Foundation for Fundamental Research, grant 00-04-48777.

PY - 2000/12/29

Y1 - 2000/12/29

N2 - The red fluorescent protein, DsRed, recently cloned from coral Discosoma sp. has one of the longest fluorescence waves and one of the most complex absorbance spectra among the family of fluorescent proteins. In this work we found that with time DsRed fluorescence decreases under mildly acidic conditions (pH 4.0-4.8) in a pH-dependent manner, and this fluorescence inactivation could be partially recovered by subsequent re-alkalization. The DsRed absorbance and circular dichroism spectra under these conditions revealed that the fluorescence changes were caused by denaturation followed by partial renaturation of the protein. Further, analytical ultracentrifugation determined that native DsRed formed a tight tetramer under various native conditions. Quantitative analysis of the data showed that several distinct states of protein exist during the fluorescence inactivation and recovery, and the inactivation of fluorescence can be caused by protonation of a single ionogenic group in each monomer of DsRed tetramer.

AB - The red fluorescent protein, DsRed, recently cloned from coral Discosoma sp. has one of the longest fluorescence waves and one of the most complex absorbance spectra among the family of fluorescent proteins. In this work we found that with time DsRed fluorescence decreases under mildly acidic conditions (pH 4.0-4.8) in a pH-dependent manner, and this fluorescence inactivation could be partially recovered by subsequent re-alkalization. The DsRed absorbance and circular dichroism spectra under these conditions revealed that the fluorescence changes were caused by denaturation followed by partial renaturation of the protein. Further, analytical ultracentrifugation determined that native DsRed formed a tight tetramer under various native conditions. Quantitative analysis of the data showed that several distinct states of protein exist during the fluorescence inactivation and recovery, and the inactivation of fluorescence can be caused by protonation of a single ionogenic group in each monomer of DsRed tetramer.

KW - Denaturation

KW - Kinetics

KW - Red fluorescent protein

KW - Renaturation

KW - Tetramer

KW - pH dependence

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Denaturation and partial renaturation of a tightly tetramerized DsRed protein under mildly acidic conditions

Abstract

Keywords

ASJC Scopus subject areas

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