| scholarly article | Q13442814 |
| P2093 | author name string | J E Corrie | |
| Y E Goldman | |||
| M Irving | |||
| S C Hopkins | |||
| C Sabido-David | |||
| P2860 | cites work | Structure of the regulatory domain of scallop myosin at 2.8 A resolution | Q27731231 |
| Three-dimensional structure of myosin subfragment-1: a molecular motor | Q27731679 | ||
| Structure of the actin-myosin complex and its implications for muscle contraction | Q28259888 | ||
| Polarization of fluorescence from single skinned glycerinated rabbit psoas fibers in rigor and relaxation | Q28331138 | ||
| Measurement of sarcomere shortening in skinned fibers from frog muscle by white light diffraction | Q30503149 | ||
| Transients in orientation of a fluorescent cross-bridge probe following photolysis of caged nucleotides in skeletal muscle fibres | Q33205954 | ||
| Fluorescence polarization of skeletal muscle fibers labeled with rhodamine isomers on the myosin heavy chain | Q34041327 | ||
| Resolution of three structural states of spin-labeled myosin in contracting muscle | Q34046859 | ||
| Faster force transient kinetics at submaximal Ca2+ activation of skinned psoas fibers from rabbit | Q34128358 | ||
| Orientational dynamics of indane dione spin-labeled myosin heads in relaxed and contracting skeletal muscle fibers | Q34129193 | ||
| Steady-state fluorescence polarization studies of the orientation of myosin regulatory light chains in single skeletal muscle fibers using pure isomers of iodoacetamidotetramethylrhodamine | Q34168138 | ||
| Proposed mechanism of force generation in striated muscle | Q34223986 | ||
| Effects of pH on contraction of rabbit fast and slow skeletal muscle fibers. | Q34260355 | ||
| Polarization from a helix of fluorophores and its relation to that obtained from muscle | Q34271104 | ||
| Movement and force produced by a single myosin head. | Q34288654 | ||
| Single myosin molecule mechanics: piconewton forces and nanometre steps | Q34338098 | ||
| X-ray diffraction evidence for cross-bridge formation in relaxed muscle fibers at various ionic strengths | Q34534953 | ||
| The essential light chain is required for full force production by skeletal muscle myosin | Q35981300 | ||
| Evidence for cross-bridge attachment in relaxed muscle at low ionic strength | Q36323294 | ||
| Probes bound to myosin Cys-707 rotate during length transients in contraction | Q36572036 | ||
| Relaxation of rabbit psoas muscle fibres from rigor by photochemical generation of adenosine-5'-triphosphate | Q36607716 | ||
| Initiation of active contraction by photogeneration of adenosine-5'-triphosphate in rabbit psoas muscle fibres | Q36607720 | ||
| Control of sarcomere length in skinned muscle fibres of Rana temporaria during mechanical transients | Q36616796 | ||
| The neck region of the myosin motor domain acts as a lever arm to generate movement | Q37640558 | ||
| Mechanical and structural approaches to correlation of cross-bridge action in muscle with actomyosin ATPase in solution | Q39481579 | ||
| Steady-state polarization from cylindrically symmetric fluorophores undergoing rapid restricted motion | Q41774797 | ||
| Fluorescent probes of the orientation of myosin regulatory light chains in relaxed, rigor, and contracting muscle | Q41819947 | ||
| Orientation changes in myosin regulatory light chains following photorelease of ATP in skinned muscle fibers | Q42258881 | ||
| Synthesis and properties of caged nucleotides | Q43673670 | ||
| The contractile response during steady lengthening of stimulated frog muscle fibres | Q44197386 | ||
| A 35-A movement of smooth muscle myosin on ADP release. | Q46023129 | ||
| A loudspeaker servo system for determination of mechanical characteristics of isolated muscle fibres | Q46188785 | ||
| ADP release produces a rotation of the neck region of smooth myosin but not skeletal myosin | Q46771440 | ||
| Orientation changes of fluorescent probes at five sites on the myosin regulatory light chain during contraction of single skeletal muscle fibres | Q47923635 | ||
| Myosin head movements are synchronous with the elementary force-generating process in muscle. | Q52421169 | ||
| Skeletal muscle myosin light chains are essential for physiological speeds of shortening. | Q54650986 | ||
| Smoothing and Differentiation of Data by Simplified Least Squares Procedures | Q56769732 | ||
| Elastic distortion of myosin heads and repriming of the working stroke in muscle | Q59052011 | ||
| Tilting of the light-chain region of myosin during step length changes and active force generation in skeletal muscle | Q59064492 | ||
| Orientation of spin labels attached to cross-bridges in contracting muscle fibres | Q59097356 | ||
| The mechanism of muscle contraction | Q68889133 | ||
| Muscle Cross-Bridges: Do They Rotate? | Q70221183 | ||
| Temperature dependence of ATP release from "caged" ATP | Q70808993 | ||
| Biophysical Society 41st annual meeting. New Orleans, Louisiana, 2-6 March 1997. Abstracts | Q73028922 | ||
| FLUORESCENCE POLARIZATION: MEASUREMENT WITH ULTRAVIOLET-POLARIZING FILTERS IN A SPECTROPHOTOFLUOROMETER | Q77129438 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 3093-3110 | |
| P577 | publication date | 1998-06-01 | |
| P1433 | published in | Biophysical Journal | Q2032955 |
| P1476 | title | Fluorescence polarization transients from rhodamine isomers on the myosin regulatory light chain in skeletal muscle fibers | |
| P478 | volume | 74 |
| Q36351116 | A Novel Method of Determining the Functional Effects of a Minor Genetic Modification of a Protein |
| Q30326430 | A maximum entropy analysis of protein orientations using fluorescence polarization data from multiple probes. |
| Q35021358 | Application of surface plasmon coupled emission to study of muscle |
| Q34185326 | Bifunctional rhodamine probes of Myosin regulatory light chain orientation in relaxed skeletal muscle fibers |
| Q34172666 | CaATP as a substrate to investigate the myosin lever arm hypothesis of force generation |
| Q33200122 | Changes in orientation of actin during contraction of muscle |
| Q36666155 | Comparison of orientation and rotational motion of skeletal muscle cross-bridges containing phosphorylated and dephosphorylated myosin regulatory light chain |
| Q33580312 | Conformational changes between the active-site and regulatory light chain of myosin as determined by luminescence resonance energy transfer: the effect of nucleotides and actin |
| Q28577567 | Control of myosin-I force sensing by alternative splicing |
| Q34379645 | Coordination of the two heads of myosin during muscle contraction |
| Q33949012 | Cross-bridge kinetics in myofibrils containing familial hypertrophic cardiomyopathy R58Q mutation in the regulatory light chain of myosin |
| Q37381473 | Detection of electrophile-sensitive proteins. |
| Q46446121 | Dual-polarization imaging of a dual-fluorophore ion sensor: a single-molecule study |
| Q30322844 | Dynamic measurement of myosin light-chain-domain tilt and twist in muscle contraction. |
| Q35622407 | Effect of a myosin regulatory light chain mutation K104E on actin-myosin interactions |
| Q28360342 | Effect of active shortening on the rate of ATP utilisation by rabbit psoas muscle fibres |
| Q43203448 | Effects of the number of actin-bound S1 and axial force on X-ray patterns of intact skeletal muscle |
| Q34568053 | Evidence for pre- and post-power stroke of cross-bridges of contracting skeletal myofibrils. |
| Q33942133 | Familial hypertrophic cardiomyopathy can be characterized by a specific pattern of orientation fluctuations of actin molecules . |
| Q34354132 | Force generation in single conventional actomyosin complexes under high dynamic load |
| Q34027659 | Holding two heads together: stability of the myosin II rod measured by resonance energy transfer between the heads |
| Q80838066 | Impact of temperature on cross-bridge cycling kinetics in rat myocardium |
| Q40165349 | Influence of ionic strength on the actomyosin reaction steps in contracting skeletal muscle fibers |
| Q33226260 | Kinetics of cardiac thin-filament activation probed by fluorescence polarization of rhodamine-labeled troponin C in skinned guinea pig trabeculae |
| Q42554416 | Membrane-bound myo1c powers asymmetric motility of actin filaments |
| Q39310881 | Mesoscopic analysis of motion and conformation of cross-bridges |
| Q34170059 | Model-independent analysis of the orientation of fluorescent probes with restricted mobility in muscle fibers |
| Q41836543 | Myosin cross-bridges do not form precise rigor bonds in hypertrophic heart muscle carrying troponin T mutations. |
| Q34185659 | Myosin regulatory domain orientation in skeletal muscle fibers: application of novel electron paramagnetic resonance spectral decomposition and molecular modeling methods |
| Q42683197 | No Difference in Myosin Kinetics and Spatial Distribution of the Lever Arm in the Left and Right Ventricles of Human Hearts |
| Q41809936 | Observing cycling of a few cross-bridges during isometric contraction of skeletal muscle |
| Q44040786 | Orientation changes of the myosin light chain domain during filament sliding in active and rigor muscle |
| Q41550785 | Orientation of the N- and C-terminal lobes of the myosin regulatory light chain in cardiac muscle |
| Q42124824 | Orientation of the myosin light chain region by single molecule total internal reflection fluorescence polarization microscopy |
| Q33932488 | Past, present and future experiments on muscle |
| Q37578155 | Phosphorylation of myosin regulatory light chain has minimal effect on kinetics and distribution of orientations of cross bridges of rabbit skeletal muscle |
| Q30539061 | Polarized fluorescence depletion reports orientation distribution and rotational dynamics of muscle cross-bridges |
| Q35214249 | Recent X-ray diffraction studies of muscle contraction and their implications |
| Q31060465 | Regulatory and essential light chains of myosin rotate equally during contraction of skeletal muscle |
| Q34428851 | Revealingly odd couples |
| Q34188096 | Rotation of the lever arm of Myosin in contracting skeletal muscle fiber measured by two-photon anisotropy |
| Q37470689 | Site-directed spectroscopic probes of actomyosin structural dynamics. |
| Q34168138 | Steady-state fluorescence polarization studies of the orientation of myosin regulatory light chains in single skeletal muscle fibers using pure isomers of iodoacetamidotetramethylrhodamine |
| Q35095797 | Strain-dependent kinetics of the myosin working stroke, and how they could be probed with optical-trap experiments |
| Q27300827 | Structural changes in isometrically contracting insect flight muscle trapped following a mechanical perturbation |
| Q34170868 | Structural changes in the actin-myosin cross-bridges associated with force generation induced by temperature jump in permeabilized frog muscle fibers |
| Q33577618 | Structure and dynamics of the kinesin-microtubule interaction revealed by fluorescence polarization microscopy |
| Q34187343 | The force exerted by a muscle cross-bridge depends directly on the strength of the actomyosin bond |
| Q28305925 | The significance of regulatory light chain phosphorylation in cardiac physiology |
| Q34676134 | The spatial distribution of actin and mechanical cycle of myosin are different in right and left ventricles of healthy mouse hearts |
| Q52574548 | Tomographic 3D reconstruction of quick-frozen, Ca2+-activated contracting insect flight muscle. |
| Q36007509 | Using optical tweezers to relate the chemical and mechanical cross-bridge cycles |
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