Zn2+ rather than Ca2+ or Mg2+ used as a cofactor in non-muscular actin from the oyster to control protein polymerization

The major cytoskeletal protein of most cells is actin, which polymerizes to form actin filaments (F-actin). Each actin monomer (G-actin) contains a divalent alkaline earth metal ion (in vivo Mg2+; in vitro usually Ca2+) as a cofactor that is crucial for protein polymerization. Prior to this study, h...

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Published inBiochimica et biophysica acta. General subjects Vol. 1830; no. 8; pp. 4179 - 4188
Main Authors Yang, Xiaowei, Lv, Chenyan, Zhang, Shengli, Zhao, Guanghua, Ma, Changwei
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.08.2013
Subjects
Actin
calcium
EDTA (chelating agent)
fluorescence
gills
High capacity
light scattering
magnesium
metal ions
microfilaments
Oyster
oysters
Polymerization
protein tertiary structure
purification methods
spectroscopy
transmission electron microscopy
Zinc
Zinc-binding protein
Polymerization
High capacity
Actin
Oyster
Zinc-binding protein
Zinc
Online AccessGet full text
ISSN0304-4165
1872-8006
DOI10.1016/j.bbagen.2013.04.030

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Abstract The major cytoskeletal protein of most cells is actin, which polymerizes to form actin filaments (F-actin). Each actin monomer (G-actin) contains a divalent alkaline earth metal ion (in vivo Mg2+; in vitro usually Ca2+) as a cofactor that is crucial for protein polymerization. Prior to this study, however, whether or not other types of metal ions can play the same role as Mg2+ or Ca2+ in actins remains unknown. A new actin from the gills of oyster (AGO) was prepared and characterized by protein purification techniques, SDS- and native-PAGE, and LC–MS\MS for the first time. The property of this protein was studied by CD, fluorescence and UV/vis spectroscopy, laser light scattering, and TEM. AGO is a monomer with a MW of ~42kDa. AGO is unique among all known actins in that Zn2+ is only a naturally binding metal in the protein, and that one native AGO molecule binds 8 zinc ions, which can be removed by EDTA treatment at pH7.2. The presence of zinc has a great effect on the secondary and tertiary structure of the protein. Correlated with such effect is that these zinc ions in native AGO facilitate protein polymerization, whereas removal of zinc ions from native AGO results in a loss of such polymerization property. The present work demonstrates that AGO is a novel zinc-binding protein with high capacity, and high selectivity. This work extends an understanding of the function of zinc and actin. •A new class actin from gills of oyster (AGO) was purified for the first time.•One native AGO molecule binds 8 zinc ions, which can be removed by EDTA.•These binding zinc ions have a great effect on protein structure.•These binding zinc ions can be transferred.
AbstractList The major cytoskeletal protein of most cells is actin, which polymerizes to form actin filaments (F-actin). Each actin monomer (G-actin) contains a divalent alkaline earth metal ion (in vivo Mg2+; in vitro usually Ca2+) as a cofactor that is crucial for protein polymerization. Prior to this study, however, whether or not other types of metal ions can play the same role as Mg2+ or Ca2+ in actins remains unknown. A new actin from the gills of oyster (AGO) was prepared and characterized by protein purification techniques, SDS- and native-PAGE, and LC–MS\MS for the first time. The property of this protein was studied by CD, fluorescence and UV/vis spectroscopy, laser light scattering, and TEM. AGO is a monomer with a MW of ~42kDa. AGO is unique among all known actins in that Zn2+ is only a naturally binding metal in the protein, and that one native AGO molecule binds 8 zinc ions, which can be removed by EDTA treatment at pH7.2. The presence of zinc has a great effect on the secondary and tertiary structure of the protein. Correlated with such effect is that these zinc ions in native AGO facilitate protein polymerization, whereas removal of zinc ions from native AGO results in a loss of such polymerization property. The present work demonstrates that AGO is a novel zinc-binding protein with high capacity, and high selectivity. This work extends an understanding of the function of zinc and actin. •A new class actin from gills of oyster (AGO) was purified for the first time.•One native AGO molecule binds 8 zinc ions, which can be removed by EDTA.•These binding zinc ions have a great effect on protein structure.•These binding zinc ions can be transferred.
The major cytoskeletal protein of most cells is actin, which polymerizes to form actin filaments (F-actin). Each actin monomer (G-actin) contains a divalent alkaline earth metal ion (in vivo Mg2+; in vitro usually Ca2+) as a cofactor that is crucial for protein polymerization. Prior to this study, however, whether or not other types of metal ions can play the same role as Mg2+ or Ca2+ in actins remains unknown.A new actin from the gills of oyster (AGO) was prepared and characterized by protein purification techniques, SDS- and native-PAGE, and LC–MS\MS for the first time. The property of this protein was studied by CD, fluorescence and UV/vis spectroscopy, laser light scattering, and TEM.AGO is a monomer with a MW of ~42kDa. AGO is unique among all known actins in that Zn2+ is only a naturally binding metal in the protein, and that one native AGO molecule binds 8 zinc ions, which can be removed by EDTA treatment at pH7.2. The presence of zinc has a great effect on the secondary and tertiary structure of the protein. Correlated with such effect is that these zinc ions in native AGO facilitate protein polymerization, whereas removal of zinc ions from native AGO results in a loss of such polymerization property.The present work demonstrates that AGO is a novel zinc-binding protein with high capacity, and high selectivity.This work extends an understanding of the function of zinc and actin.
Author Ma, Changwei
Zhao, Guanghua
Zhang, Shengli
Yang, Xiaowei
Lv, Chenyan
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  givenname: Changwei
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Issue 8
Keywords Polymerization
High capacity
Actin
Oyster
Zinc-binding protein
Zinc
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Snippet The major cytoskeletal protein of most cells is actin, which polymerizes to form actin filaments (F-actin). Each actin monomer (G-actin) contains a divalent...
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SubjectTerms Actin
calcium
EDTA (chelating agent)
fluorescence
gills
High capacity
light scattering
magnesium
metal ions
microfilaments
Oyster
oysters
Polymerization
protein tertiary structure
purification methods
spectroscopy
transmission electron microscopy
Zinc
Zinc-binding protein
Title Zn2+ rather than Ca2+ or Mg2+ used as a cofactor in non-muscular actin from the oyster to control protein polymerization
URI https://dx.doi.org/10.1016/j.bbagen.2013.04.030
https://www.proquest.com/docview/2000079650
Volume 1830
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