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Dimerization of the Head–Rod Junction of Scallop Myosin

We have compared the dimerization properties and coiled-coil stability of various recombinant fragments of scallop myosin around the head–rod junction. The heavy-chain peptide of the regulatory domain and its various extensions toward the α-helical rod region were expressed inEscherichia coli, purif...

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Published in:	Biochemical and biophysical research communications 1998-11, Vol.252 (3), p.595-601
Main Authors:	Málnási-Csizmadia, András, Shimony, Ethan, Hegyi, György, Szent-Györgyi, Andrew G., Nyitray, László
Format:	Article
Language:	English
Subjects:	Animals Circular Dichroism Crustacea Dimerization Marine Microscopy, Electron Mollusca Myosins - chemistry Myosins - ultrastructure Pectinidae Protein Conformation Recombinant Proteins - chemistry Space life sciences
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cited_by	cdi_FETCH-LOGICAL-c370t-f08c137a113e02ee3b38ffa6659fded320d37d17b49fe3494db66c675f5df0653
cites	cdi_FETCH-LOGICAL-c370t-f08c137a113e02ee3b38ffa6659fded320d37d17b49fe3494db66c675f5df0653
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container_title	Biochemical and biophysical research communications
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creator	Málnási-Csizmadia, András Shimony, Ethan Hegyi, György Szent-Györgyi, Andrew G. Nyitray, László
description	We have compared the dimerization properties and coiled-coil stability of various recombinant fragments of scallop myosin around the head–rod junction. The heavy-chain peptide of the regulatory domain and its various extensions toward the α-helical rod region were expressed inEscherichia coli, purified, and reconstituted with the light chains. Rod fragments of the same length but without the light-chain binding domain were also expressed. Electron micrographs show that the regulatory domain complex containing 340 residues of the rod forms dimers with two knobs (two regulatory domains) at one end attached to an ∼50-nm coiled coil. These parallel dimers are in equilibrium with monomers (Kd= 10.6 μM). By contrast, complexes with shorter rod extensions remain predominantly monomeric. Dimers are present, accounting for ca. 5% of the molecules containing a rod fragment of 87 residues and ca. 30% of those with a 180-residue peptide. These dimers appear to be antiparallel coiled coils, as judged by their length and the knobs observed at the two ends. The rod fragments alone do not dimerize and form a coiled-coil structure unless covalently linked by disulfide bridges. Our results suggest that the N-terminal end of the coiled-coil rod is stabilized by interactions with the regulatory domain, most likely with residues of the regulatory light chain. This labile nature of the coiled coil at the head–rod junction might be a structural prerequisite for regulation of scallop myosin by Ca2+-ions.
doi_str_mv	10.1006/bbrc.1998.9603
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The heavy-chain peptide of the regulatory domain and its various extensions toward the α-helical rod region were expressed inEscherichia coli, purified, and reconstituted with the light chains. Rod fragments of the same length but without the light-chain binding domain were also expressed. Electron micrographs show that the regulatory domain complex containing 340 residues of the rod forms dimers with two knobs (two regulatory domains) at one end attached to an ∼50-nm coiled coil. These parallel dimers are in equilibrium with monomers (Kd= 10.6 μM). By contrast, complexes with shorter rod extensions remain predominantly monomeric. Dimers are present, accounting for ca. 5% of the molecules containing a rod fragment of 87 residues and ca. 30% of those with a 180-residue peptide. These dimers appear to be antiparallel coiled coils, as judged by their length and the knobs observed at the two ends. The rod fragments alone do not dimerize and form a coiled-coil structure unless covalently linked by disulfide bridges. Our results suggest that the N-terminal end of the coiled-coil rod is stabilized by interactions with the regulatory domain, most likely with residues of the regulatory light chain. 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The heavy-chain peptide of the regulatory domain and its various extensions toward the α-helical rod region were expressed inEscherichia coli, purified, and reconstituted with the light chains. Rod fragments of the same length but without the light-chain binding domain were also expressed. Electron micrographs show that the regulatory domain complex containing 340 residues of the rod forms dimers with two knobs (two regulatory domains) at one end attached to an ∼50-nm coiled coil. These parallel dimers are in equilibrium with monomers (Kd= 10.6 μM). By contrast, complexes with shorter rod extensions remain predominantly monomeric. Dimers are present, accounting for ca. 5% of the molecules containing a rod fragment of 87 residues and ca. 30% of those with a 180-residue peptide. These dimers appear to be antiparallel coiled coils, as judged by their length and the knobs observed at the two ends. The rod fragments alone do not dimerize and form a coiled-coil structure unless covalently linked by disulfide bridges. Our results suggest that the N-terminal end of the coiled-coil rod is stabilized by interactions with the regulatory domain, most likely with residues of the regulatory light chain. 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subjects	Animals Circular Dichroism Crustacea Dimerization Marine Microscopy, Electron Mollusca Myosins - chemistry Myosins - ultrastructure Pectinidae Protein Conformation Recombinant Proteins - chemistry Space life sciences
title	Dimerization of the Head–Rod Junction of Scallop Myosin
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