Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology

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Zeitschriftentitel:	FEBS Letters
Personen und Körperschaften:	Fukuto, Jon M., Ignarro, Louis J., Nagy, Peter, Wink, David A., Kevil, Christopher G., Feelisch, Martin, Cortese‐Krott, Miriam M., Bianco, Christopher L., Kumagai, Yoshito, Hobbs, Adrian J., Lin, Joseph, Ida, Tomoaki, Akaike, Takaaki
In:	FEBS Letters, 592, 2018, 12, S. 2140-2152
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	Wiley
Schlagwörter:	Cell Biology Genetics Molecular Biology Biochemistry Structural Biology Biophysics

author_facet	Fukuto, Jon M. Ignarro, Louis J. Nagy, Peter Wink, David A. Kevil, Christopher G. Feelisch, Martin Cortese‐Krott, Miriam M. Bianco, Christopher L. Kumagai, Yoshito Hobbs, Adrian J. Lin, Joseph Ida, Tomoaki Akaike, Takaaki Fukuto, Jon M. Ignarro, Louis J. Nagy, Peter Wink, David A. Kevil, Christopher G. Feelisch, Martin Cortese‐Krott, Miriam M. Bianco, Christopher L. Kumagai, Yoshito Hobbs, Adrian J. Lin, Joseph Ida, Tomoaki Akaike, Takaaki
author	Fukuto, Jon M. Ignarro, Louis J. Nagy, Peter Wink, David A. Kevil, Christopher G. Feelisch, Martin Cortese‐Krott, Miriam M. Bianco, Christopher L. Kumagai, Yoshito Hobbs, Adrian J. Lin, Joseph Ida, Tomoaki Akaike, Takaaki
spellingShingle	Fukuto, Jon M. Ignarro, Louis J. Nagy, Peter Wink, David A. Kevil, Christopher G. Feelisch, Martin Cortese‐Krott, Miriam M. Bianco, Christopher L. Kumagai, Yoshito Hobbs, Adrian J. Lin, Joseph Ida, Tomoaki Akaike, Takaaki FEBS Letters Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology Cell Biology Genetics Molecular Biology Biochemistry Structural Biology Biophysics
author_sort	fukuto, jon m.
spelling	Fukuto, Jon M. Ignarro, Louis J. Nagy, Peter Wink, David A. Kevil, Christopher G. Feelisch, Martin Cortese‐Krott, Miriam M. Bianco, Christopher L. Kumagai, Yoshito Hobbs, Adrian J. Lin, Joseph Ida, Tomoaki Akaike, Takaaki 0014-5793 1873-3468 Wiley Cell Biology Genetics Molecular Biology Biochemistry Structural Biology Biophysics http://dx.doi.org/10.1002/1873-3468.13090 <jats:p>The chemical biology of thiols (RSH, e.g., cysteine and cysteine‐containing proteins/peptides) has been a topic of extreme interest for many decades due to their reported roles in protein structure/folding, redox signaling, metal ligation, cellular protection, and enzymology. While many of the studies on thiol/sulfur biochemistry have focused on thiols, relatively ignored have been hydropersulfides (RSSH) and higher order polysulfur species (RSS<jats:sub>n</jats:sub>H, RSS<jats:sub>n</jats:sub>R, <jats:italic>n</jats:italic> > 1). Recent and provocative work has alluded to the prevalence and likely physiological importance of RSSH and related RSS<jats:sub>n</jats:sub>H. RSSH of cysteine (Cys‐SSH) has been found to be prevalent in mammalian systems along with Cys‐SSH‐containing proteins. The RSSH functionality has not been examined to the extent of other biologically relevant sulfur derivatives (e.g., sulfenic acids, disulfides, etc.), whose roles in cell signaling are strongly indicated. The recent finding of Cys‐SSH biosynthesis and translational incorporation into proteins is an unequivocal indication of its fundamental importance and necessitates a more profound look into the physiology of RSSH. In this Review, we discuss the currently reported chemical biology of RSSH (and related species) as a prelude to discussing their possible physiological roles.</jats:p> Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology FEBS Letters
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title	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_unstemmed	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_full	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_fullStr	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_full_unstemmed	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_short	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_sort	biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
topic	Cell Biology Genetics Molecular Biology Biochemistry Structural Biology Biophysics
url	http://dx.doi.org/10.1002/1873-3468.13090
publishDate	2018
physical	2140-2152
description	<jats:p>The chemical biology of thiols (RSH, e.g., cysteine and cysteine‐containing proteins/peptides) has been a topic of extreme interest for many decades due to their reported roles in protein structure/folding, redox signaling, metal ligation, cellular protection, and enzymology. While many of the studies on thiol/sulfur biochemistry have focused on thiols, relatively ignored have been hydropersulfides (RSSH) and higher order polysulfur species (RSS<jats:sub>n</jats:sub>H, RSS<jats:sub>n</jats:sub>R, <jats:italic>n</jats:italic> > 1). Recent and provocative work has alluded to the prevalence and likely physiological importance of RSSH and related RSS<jats:sub>n</jats:sub>H. RSSH of cysteine (Cys‐SSH) has been found to be prevalent in mammalian systems along with Cys‐SSH‐containing proteins. The RSSH functionality has not been examined to the extent of other biologically relevant sulfur derivatives (e.g., sulfenic acids, disulfides, etc.), whose roles in cell signaling are strongly indicated. The recent finding of Cys‐SSH biosynthesis and translational incorporation into proteins is an unequivocal indication of its fundamental importance and necessitates a more profound look into the physiology of RSSH. In this Review, we discuss the currently reported chemical biology of RSSH (and related species) as a prelude to discussing their possible physiological roles.</jats:p>
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author	Fukuto, Jon M., Ignarro, Louis J., Nagy, Peter, Wink, David A., Kevil, Christopher G., Feelisch, Martin, Cortese‐Krott, Miriam M., Bianco, Christopher L., Kumagai, Yoshito, Hobbs, Adrian J., Lin, Joseph, Ida, Tomoaki, Akaike, Takaaki
author_facet	Fukuto, Jon M., Ignarro, Louis J., Nagy, Peter, Wink, David A., Kevil, Christopher G., Feelisch, Martin, Cortese‐Krott, Miriam M., Bianco, Christopher L., Kumagai, Yoshito, Hobbs, Adrian J., Lin, Joseph, Ida, Tomoaki, Akaike, Takaaki, Fukuto, Jon M., Ignarro, Louis J., Nagy, Peter, Wink, David A., Kevil, Christopher G., Feelisch, Martin, Cortese‐Krott, Miriam M., Bianco, Christopher L., Kumagai, Yoshito, Hobbs, Adrian J., Lin, Joseph, Ida, Tomoaki, Akaike, Takaaki
author_sort	fukuto, jon m.
container_issue	12
container_start_page	2140
container_title	FEBS Letters
container_volume	592
description	<jats:p>The chemical biology of thiols (RSH, e.g., cysteine and cysteine‐containing proteins/peptides) has been a topic of extreme interest for many decades due to their reported roles in protein structure/folding, redox signaling, metal ligation, cellular protection, and enzymology. While many of the studies on thiol/sulfur biochemistry have focused on thiols, relatively ignored have been hydropersulfides (RSSH) and higher order polysulfur species (RSS<jats:sub>n</jats:sub>H, RSS<jats:sub>n</jats:sub>R, <jats:italic>n</jats:italic> > 1). Recent and provocative work has alluded to the prevalence and likely physiological importance of RSSH and related RSS<jats:sub>n</jats:sub>H. RSSH of cysteine (Cys‐SSH) has been found to be prevalent in mammalian systems along with Cys‐SSH‐containing proteins. The RSSH functionality has not been examined to the extent of other biologically relevant sulfur derivatives (e.g., sulfenic acids, disulfides, etc.), whose roles in cell signaling are strongly indicated. The recent finding of Cys‐SSH biosynthesis and translational incorporation into proteins is an unequivocal indication of its fundamental importance and necessitates a more profound look into the physiology of RSSH. In this Review, we discuss the currently reported chemical biology of RSSH (and related species) as a prelude to discussing their possible physiological roles.</jats:p>
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spelling	Fukuto, Jon M. Ignarro, Louis J. Nagy, Peter Wink, David A. Kevil, Christopher G. Feelisch, Martin Cortese‐Krott, Miriam M. Bianco, Christopher L. Kumagai, Yoshito Hobbs, Adrian J. Lin, Joseph Ida, Tomoaki Akaike, Takaaki 0014-5793 1873-3468 Wiley Cell Biology Genetics Molecular Biology Biochemistry Structural Biology Biophysics http://dx.doi.org/10.1002/1873-3468.13090 <jats:p>The chemical biology of thiols (RSH, e.g., cysteine and cysteine‐containing proteins/peptides) has been a topic of extreme interest for many decades due to their reported roles in protein structure/folding, redox signaling, metal ligation, cellular protection, and enzymology. While many of the studies on thiol/sulfur biochemistry have focused on thiols, relatively ignored have been hydropersulfides (RSSH) and higher order polysulfur species (RSS<jats:sub>n</jats:sub>H, RSS<jats:sub>n</jats:sub>R, <jats:italic>n</jats:italic> > 1). Recent and provocative work has alluded to the prevalence and likely physiological importance of RSSH and related RSS<jats:sub>n</jats:sub>H. RSSH of cysteine (Cys‐SSH) has been found to be prevalent in mammalian systems along with Cys‐SSH‐containing proteins. The RSSH functionality has not been examined to the extent of other biologically relevant sulfur derivatives (e.g., sulfenic acids, disulfides, etc.), whose roles in cell signaling are strongly indicated. The recent finding of Cys‐SSH biosynthesis and translational incorporation into proteins is an unequivocal indication of its fundamental importance and necessitates a more profound look into the physiology of RSSH. In this Review, we discuss the currently reported chemical biology of RSSH (and related species) as a prelude to discussing their possible physiological roles.</jats:p> Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology FEBS Letters
spellingShingle	Fukuto, Jon M., Ignarro, Louis J., Nagy, Peter, Wink, David A., Kevil, Christopher G., Feelisch, Martin, Cortese‐Krott, Miriam M., Bianco, Christopher L., Kumagai, Yoshito, Hobbs, Adrian J., Lin, Joseph, Ida, Tomoaki, Akaike, Takaaki, FEBS Letters, Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology, Cell Biology, Genetics, Molecular Biology, Biochemistry, Structural Biology, Biophysics
title	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_full	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_fullStr	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_full_unstemmed	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_short	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_sort	biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
title_unstemmed	Biological hydropersulfides and related polysulfides – a new concept and perspective in redox biology
topic	Cell Biology, Genetics, Molecular Biology, Biochemistry, Structural Biology, Biophysics
url	http://dx.doi.org/10.1002/1873-3468.13090