Published in J Struct Biol on February 01, 2017
Determination of the fold of the core protein of hepatitis B virus by electron cryomicroscopy. Nature (1997) 7.32
Flexible fitting of atomic structures into electron microscopy maps using molecular dynamics. Structure (2008) 5.97
Regulation of the interaction between actin and myosin subfragment 1: evidence for three states of the thin filament. Biophys J (1993) 5.66
X-ray evidence for radial cross-bridge movement and for the sliding filament model in actively contracting skeletal muscle. J Mol Biol (1973) 4.86
Structure of the core domain of human cardiac troponin in the Ca(2+)-saturated form. Nature (2003) 4.71
Structural role of tropomyosin in muscle regulation: analysis of the x-ray diffraction patterns from relaxed and contracting muscles. J Mol Biol (1973) 4.10
Steric-model for activation of muscle thin filaments. J Mol Biol (1997) 3.70
Direct visualization of secondary structures of F-actin by electron cryomicroscopy. Nature (2010) 2.93
Ca(2+)-regulated structural changes in troponin. Proc Natl Acad Sci U S A (2005) 2.56
Ca(2+)-induced tropomyosin movement in Limulus thin filaments revealed by three-dimensional reconstruction. Nature (1994) 2.34
Structure of the rigor actin-tropomyosin-myosin complex. Cell (2012) 2.14
An atomic model of the thin filament in the relaxed and Ca2+-activated states. J Mol Biol (2006) 1.89
Tropomyosin position on F-actin revealed by EM reconstruction and computational chemistry. Biophys J (2011) 1.76
The muscle thin filament as a classical cooperative/allosteric regulatory system. J Mol Biol (1998) 1.75
Single particle analysis of relaxed and activated muscle thin filaments. J Mol Biol (2005) 1.68
Tropomyosin positions in regulated thin filaments revealed by cryoelectron microscopy. Biophys J (1999) 1.68
Regulation of muscle contraction by tropomyosin and troponin: how structure illuminates function. Adv Protein Chem (2005) 1.66
Steric-blocking by tropomyosin visualized in relaxed vertebrate muscle thin filaments. J Mol Biol (1995) 1.63
Mapping of a second actin-tropomyosin and a second troponin C binding site within the C terminus of troponin I, and their importance in the Ca2+-dependent regulation of muscle contraction. J Mol Biol (1997) 1.57
Thin filament mutations: developing an integrative approach to a complex disorder. Circ Res (2011) 1.55
Structural basis for Ca2+-regulated muscle relaxation at interaction sites of troponin with actin and tropomyosin. J Mol Biol (2005) 1.49
Troponin and its interactions with tropomyosin. An electron microscope study. J Mol Biol (1982) 1.48
A new look at thin filament regulation in vertebrate skeletal muscle. FASEB J (1998) 1.46
A model of calcium activation of the cardiac thin filament. Biochemistry (2011) 1.07
Inhibitory region of troponin I: Ca(2+)-dependent structural and environmental changes in the troponin-tropomyosin complex and in reconstituted thin filaments. Biochemistry (2000) 1.02
Single particle analysis of filamentous and highly elongated macromolecular assemblies. J Struct Biol (2004) 0.94
Three-dimensional organization of troponin on cardiac muscle thin filaments in the relaxed state. Biophys J (2014) 0.94
Structure and orientation of troponin in the thin filament. J Biol Chem (2009) 0.93
An atomic model of the tropomyosin cable on F-actin. Biophys J (2014) 0.91
Proximity relationships between residue 117 of rabbit skeletal troponin-I and residues in troponin-C and actin. Biophys J (2001) 0.87
Regulatory domain of troponin moves dynamically during activation of cardiac muscle. J Mol Cell Cardiol (2014) 0.83
Ca(2+)-dependent, myosin subfragment 1-induced proximity changes between actin and the inhibitory region of troponin I. Biochim Biophys Acta (2001) 0.78
Myosin and Actin Filaments in Muscle: Structures and Interactions. Subcell Biochem (2017) 0.78
A novel approach to the structural analysis of partially decorated actin based filaments. J Struct Biol (2009) 0.77