Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain
© 2015 Elsevier Inc. The ends of coiled-coil tropomyosin molecules are joined together by nine to ten residue-long head-to-tail "overlapping domains". These short four-chained interconnections ensure formation of continuous tropomyosin cables that wrap around actin filaments. Molecular Dyn...
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th-mahidol.354792018-11-23T16:44:21Z Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain William Lehman Greg Medlock Xiaochuan Li Worawit Suphamungmee An Yue Tu Anja Schmidtmann Zoltán Ujfalusi Stefan Fischer Jeffrey R. Moore Michael A. Geeves Michael Regnier Boston University University of Washington, Seattle University of Kent Universitat Heidelberg University of Virginia Mahidol University University of Massachusetts Lowell Biochemistry, Genetics and Molecular Biology © 2015 Elsevier Inc. The ends of coiled-coil tropomyosin molecules are joined together by nine to ten residue-long head-to-tail "overlapping domains". These short four-chained interconnections ensure formation of continuous tropomyosin cables that wrap around actin filaments. Molecular Dynamics simulations indicate that the curvature and bending flexibility at the overlap is 10-20% greater than over the rest of the molecule, which might affect head-to-tail filament assembly on F-actin. Since the penultimate residue of striated muscle tropomyosin, Ser283, is a natural target of phosphorylating enzymes, we have assessed here if phosphorylation adjusts the mechanical properties of the tropomyosin overlap domain. MD simulations show that phosphorylation straightens the overlap to match the curvature of the remainder of tropomyosin while stiffening it to equal or exceed the rigidity of canonical coiled-coil regions. Corresponding EM data on phosphomimetic tropomyosin S283D corroborate these findings. The phosphorylation-induced change in mechanical properties of tropomyosin likely results from electrostatic interactions between C-terminal phosphoSer283 and N-terminal Lys12 in the four-chain overlap bundle, while promoting stronger interactions among surrounding residues and thus facilitating tropomyosin cable assembly. The stiffening effect of D283-tropomyosin noted correlates with previously observed enhanced actin-tropomyosin activation of myosin S1-ATPase, suggesting a role for the tropomyosin phosphorylation in potentiating muscle contraction. 2018-11-23T09:44:21Z 2018-11-23T09:44:21Z 2015-04-01 Article Archives of Biochemistry and Biophysics. Vol.571, (2015), 10-15 10.1016/j.abb.2015.02.026 10960384 00039861 2-s2.0-84924328297 https://repository.li.mahidol.ac.th/handle/123456789/35479 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84924328297&origin=inward |
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Biochemistry, Genetics and Molecular Biology William Lehman Greg Medlock Xiaochuan Li Worawit Suphamungmee An Yue Tu Anja Schmidtmann Zoltán Ujfalusi Stefan Fischer Jeffrey R. Moore Michael A. Geeves Michael Regnier Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain |
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© 2015 Elsevier Inc. The ends of coiled-coil tropomyosin molecules are joined together by nine to ten residue-long head-to-tail "overlapping domains". These short four-chained interconnections ensure formation of continuous tropomyosin cables that wrap around actin filaments. Molecular Dynamics simulations indicate that the curvature and bending flexibility at the overlap is 10-20% greater than over the rest of the molecule, which might affect head-to-tail filament assembly on F-actin. Since the penultimate residue of striated muscle tropomyosin, Ser283, is a natural target of phosphorylating enzymes, we have assessed here if phosphorylation adjusts the mechanical properties of the tropomyosin overlap domain. MD simulations show that phosphorylation straightens the overlap to match the curvature of the remainder of tropomyosin while stiffening it to equal or exceed the rigidity of canonical coiled-coil regions. Corresponding EM data on phosphomimetic tropomyosin S283D corroborate these findings. The phosphorylation-induced change in mechanical properties of tropomyosin likely results from electrostatic interactions between C-terminal phosphoSer283 and N-terminal Lys12 in the four-chain overlap bundle, while promoting stronger interactions among surrounding residues and thus facilitating tropomyosin cable assembly. The stiffening effect of D283-tropomyosin noted correlates with previously observed enhanced actin-tropomyosin activation of myosin S1-ATPase, suggesting a role for the tropomyosin phosphorylation in potentiating muscle contraction. |
| author2 |
Boston University |
| author_facet |
Boston University William Lehman Greg Medlock Xiaochuan Li Worawit Suphamungmee An Yue Tu Anja Schmidtmann Zoltán Ujfalusi Stefan Fischer Jeffrey R. Moore Michael A. Geeves Michael Regnier |
| format |
Article |
| author |
William Lehman Greg Medlock Xiaochuan Li Worawit Suphamungmee An Yue Tu Anja Schmidtmann Zoltán Ujfalusi Stefan Fischer Jeffrey R. Moore Michael A. Geeves Michael Regnier |
| author_sort |
William Lehman |
| title |
Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain |
| title_short |
Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain |
| title_full |
Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain |
| title_fullStr |
Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain |
| title_full_unstemmed |
Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain |
| title_sort |
phosphorylation of ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/35479 |
| _version_ |
1763490055362445312 |