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Journal Abstract Search

190 related items for PubMed ID: 29278453

  • 1. Functional role of the core gap in the middle part of tropomyosin.
    Matyushenko AM, Shchepkin DV, Kopylova GV, Bershitsky SY, Koubassova NA, Tsaturyan AK, Levitsky DI.
    FEBS J; 2018 Mar; 285(5):871-886. PubMed ID: 29278453
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  • 2. Structural and functional effects of two stabilizing substitutions, D137L and G126R, in the middle part of α-tropomyosin molecule.
    Matyushenko AM, Artemova NV, Shchepkin DV, Kopylova GV, Bershitsky SY, Tsaturyan AK, Sluchanko NN, Levitsky DI.
    FEBS J; 2014 Apr; 281(8):2004-16. PubMed ID: 24548721
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  • 7. Cooperativity of myosin interaction with thin filaments is enhanced by stabilizing substitutions in tropomyosin.
    Shchepkin DV, Nabiev SR, Kopylova GV, Matyushenko AM, Levitsky DI, Bershitsky SY, Tsaturyan AK.
    J Muscle Res Cell Motil; 2017 Apr; 38(2):183-191. PubMed ID: 28540577
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  • 9. The impact of tropomyosins on actin filament assembly is isoform specific.
    Janco M, Bonello TT, Byun A, Coster AC, Lebhar H, Dedova I, Gunning PW, Böcking T.
    Bioarchitecture; 2016 Jul 03; 6(4):61-75. PubMed ID: 27420374
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  • 12. Novel Mutation Glu98Lys in Cardiac Tropomyosin Alters Its Structure and Impairs Myocardial Relaxation.
    Matyushenko AM, Nefedova VV, Kochurova AM, Kopylova GV, Koubassova NA, Shestak AG, Yampolskaya DS, Shchepkin DV, Kleymenov SY, Ryabkova NS, Katrukha IA, Bershitsky SY, Zaklyazminskaya EV, Tsaturyan AK, Levitsky DI.
    Int J Mol Sci; 2023 Aug 02; 24(15):. PubMed ID: 37569730
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  • 13. Thermal unfolding of various human non-muscle isoforms of tropomyosin.
    Nefedova VV, Marchenko MA, Kleymenov SY, Datskevich PN, Levitsky DI, Matyushenko AM.
    Biochem Biophys Res Commun; 2019 Jun 30; 514(3):613-617. PubMed ID: 31072616
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  • 14. Structural and functional properties of αβ-heterodimers of tropomyosin with myopathic mutations Q147P and K49del in the β-chain.
    Matyushenko AM, Shchepkin DV, Susorov DS, Nefedova VV, Kopylova GV, Berg VY, Kleymenov SY, Levitsky DI.
    Biochem Biophys Res Commun; 2019 Jan 15; 508(3):934-939. PubMed ID: 30545627
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  • 15. Myopathic mutations in the β-chain of tropomyosin differently affect the structural and functional properties of ββ- and αβ-dimers.
    Bershitsky SY, Logvinova DS, Shchepkin DV, Kopylova GV, Matyushenko AM.
    FASEB J; 2019 Feb 15; 33(2):1963-1971. PubMed ID: 30199282
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  • 16. Conserved Asp-137 is important for both structure and regulatory functions of cardiac α-tropomyosin (α-TM) in a novel transgenic mouse model expressing α-TM-D137L.
    Yar S, Chowdhury SAK, Davis RT, Kobayashi M, Monasky MM, Rajan S, Wolska BM, Gaponenko V, Kobayashi T, Wieczorek DF, Solaro RJ.
    J Biol Chem; 2013 Jun 07; 288(23):16235-16246. PubMed ID: 23609439
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  • 18. Investigating the effects of tropomyosin mutations on its flexibility and interactions with filamentous actin using molecular dynamics simulation.
    Zheng W, Hitchcock-DeGregori SE, Barua B.
    J Muscle Res Cell Motil; 2016 Oct 07; 37(4-5):131-147. PubMed ID: 27376658
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  • 19. Cardiomyopathy Mutation Alters End-to-End Junction of Tropomyosin and Reduces Calcium Sensitivity.
    Sundar S, Rynkiewicz MJ, Ghosh A, Lehman W, Moore JR.
    Biophys J; 2020 Jan 21; 118(2):303-312. PubMed ID: 31882250
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  • 20. Effect of Cardiomyopathic Mutations in Tropomyosin on Calcium Regulation of the Actin-Myosin Interaction in Skeletal Muscle.
    Kopylova GV, Shchepkin DV, Borovkov DI, Matyushenko AM.
    Bull Exp Biol Med; 2016 Nov 21; 162(1):42-44. PubMed ID: 27878731
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