Computer simulation of flagellar movement. I. Demonstration of stable bend propagation and bend initiation by the sliding filament model.
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Analysis of unstable modes distinguishes mathematical models of flagellar motion.Spermatozoa scattering by a microchannel feature: an elastohydrodynamic modelAnomalies in the motion dynamics of long-flagella mutants of Chlamydomonas reinhardtii.Emergence of metachronal waves in cilia arraysMeasurement of the force produced by an intact bull sperm flagellum in isometric arrest and estimation of the dynein stall forceFlagellar hydrodynamics. A comparison between resistive-force theory and slender-body theory.Computer simulation of flagellar movement. VI. Simple curvature-controlled models are incompletely specifiedCreatine kinase-dependent energy transport in sea urchin spermatozoa. Flagellar wave attenuation and theoretical analysis of high energy phosphate diffusion.Computer simulation of movement-generating cross-bridges.Computer simulation of flagellar movement. IV. Properties of an oscillatory two-state cross-bridge model.Equations of interdoublet separation during flagella motion reveal mechanisms of wave propagation and instability.The counterbend phenomenon in dynein-disabled rat sperm flagella and what it reveals about the interdoublet elasticity.Digitized precision measurements of the movements of sea urchin sperm flagella.The equation of motion for sperm flagellaBend propagation in flagella. I. Derivation of equations of motion and their simulationAdenosine triphosphate-induced motility and sliding of filaments in mammalian sperm extracted with Triton X-100Molecular mechanism for oscillation in flagella and muscleStrategies for locating the female gamete: the importance of measuring sperm trajectories in three spatial dimensions.Movement of sea urchin sperm flagella.Calcium-induced asymmetrical beating of triton-demembranated sea urchin sperm flagellaRotation and twist of the central-pair microtubules in the cilia of Paramecium.A selective effect of Ni2+ on wave initiation in bull sperm flagella.Dynamic curvature regulation accounts for the symmetric and asymmetric beats of Chlamydomonas flagella.Coupling biochemistry and hydrodynamics captures hyperactivated sperm motility in a simple flagellar modelBiophysics of flagellar motility.Computation of the internal forces in cilia: application to ciliary motion, the effects of viscosity, and cilia interactions.Dynein regulation: going into circles can set things straight.Dynamics of filaments: modelling the dynamics of driven microfilaments.Steady dynein forces induce flutter instability and propagating waves in mathematical models of flagellaSimulations of three-dimensional ciliary beats and cilia interactionsCiliary motion modeling, and dynamic multicilia interactions.Computer simulation of flagellar movement VIII: coordination of dynein by local curvature control can generate helical bending waves.Emergence of flagellar beating from the collective behavior of individual ATP-powered dyneins.Geometry of ciliary dynamics.Metachronal waves for deterministic switching two-state oscillators with hydrodynamic interaction.Spontaneous oscillation and fluid-structure interaction of cilia.Fifty years of microtubule sliding in cilia.Human sperm accumulation near surfaces: a simulation study
P2860
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P2860
Computer simulation of flagellar movement. I. Demonstration of stable bend propagation and bend initiation by the sliding filament model.
description
1972 nî lūn-bûn
@nan
1972 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1972 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1972年の論文
@ja
1972年論文
@yue
1972年論文
@zh-hant
1972年論文
@zh-hk
1972年論文
@zh-mo
1972年論文
@zh-tw
1972年论文
@wuu
name
Computer simulation of flagell ...... by the sliding filament model.
@ast
Computer simulation of flagell ...... by the sliding filament model.
@en
Computer simulation of flagell ...... by the sliding filament model.
@nl
type
label
Computer simulation of flagell ...... by the sliding filament model.
@ast
Computer simulation of flagell ...... by the sliding filament model.
@en
Computer simulation of flagell ...... by the sliding filament model.
@nl
prefLabel
Computer simulation of flagell ...... by the sliding filament model.
@ast
Computer simulation of flagell ...... by the sliding filament model.
@en
Computer simulation of flagell ...... by the sliding filament model.
@nl
P1433
P1476
Computer simulation of flagell ...... by the sliding filament model.
@en
P2093
P304
P356
10.1016/S0006-3495(72)86104-6
P407
P577
1972-05-01T00:00:00Z