| review article | Q7318358 |
| scholarly article | Q13442814 |
| P2093 | author name string | Charles J Brokaw | |
| P2860 | cites work | Rotation of the central pair microtubules in eukaryotic flagella | Q24645098 |
| Cyclical interactions between two outer doublet microtubules in split flagellar axonemes | Q30476788 | ||
| Clockwise translocation of microtubules by flagellar inner-arm dyneins in vitro | Q30481853 | ||
| Analysis of three-dimensional ciliary beating by means of high-speed stereomicroscopy | Q34018274 | ||
| 3D structure of eukaryotic flagella in a quiescent state revealed by cryo-electron tomography | Q34116156 | ||
| Functional state of the axonemal dyneins during flagellar bend propagation | Q34178932 | ||
| Computer simulation of flagellar movement. VI. Simple curvature-controlled models are incompletely specified | Q34256976 | ||
| Computer simulation of flagellar movement. IV. Properties of an oscillatory two-state cross-bridge model | Q34271736 | ||
| The counterbend phenomenon in dynein-disabled rat sperm flagella and what it reveals about the interdoublet elasticity | Q34350747 | ||
| The tail movement of bull spermatozoa. Observations and model calculations | Q34356300 | ||
| On the contribution of dynein-like activity to twisting in a three-dimensional sliding filament model | Q34535808 | ||
| Bend propagation in flagella. I. Derivation of equations of motion and their simulation | Q34656698 | ||
| Computer simulation of flagellar movement. I. Demonstration of stable bend propagation and bend initiation by the sliding filament model | Q34701527 | ||
| Direction of active sliding of microtubules in Tetrahymena cilia | Q35027413 | ||
| Molecular mechanism for oscillation in flagella and muscle | Q35085854 | ||
| The radial spokes and central apparatus: mechano-chemical transducers that regulate flagellar motility | Q35597367 | ||
| Properties of flagellar "rigor waves" formed by abrupt removal of adenosine triphosphate from actively swimming sea urchin sperm | Q36196718 | ||
| Bending moments and elastic constants in cilia | Q71573379 | ||
| Novel mode of hyper‐oscillation in the paralyzed axoneme of a chlamydomonas mutant lacking the central‐pair microtubules | Q71806605 | ||
| Rigor and Relaxed Outer Dynein Arms in Replicas of Cryofixed Motile Flagella | Q71849874 | ||
| Elastase digestion of demembranated sperm flagella | Q71868344 | ||
| Induction of temporary beating in paralyzed flagella of Chlamydomonas mutants by application of external force | Q73520513 | ||
| Reactivation at low ATP distinguishes among classes of paralyzed flagella mutants | Q73691947 | ||
| Three-dimensional motion of avian spermatozoa | Q77362127 | ||
| Evidence for axonemal distortion during the flagellar beat of Chlamydomonas | Q80179943 | ||
| Effects of imposed bending on microtubule sliding in sperm flagella | Q81119939 | ||
| Coordination of outer arm dynein activity along axonemal doublet microtubules | Q81258799 | ||
| Movement of sea urchin sperm flagella | Q36198959 | ||
| Starting transients in sea urchin sperm flagella | Q36200237 | ||
| Calcium-induced asymmetrical beating of triton-demembranated sea urchin sperm flagella | Q36200853 | ||
| Effects of antibodies against tubulin on the movement of reactivated sea urchin sperm flagella | Q36201817 | ||
| Inhibition and relaxation of sea urchin sperm flagella by vanadate | Q36203488 | ||
| Motility of triton-demembranated sea urchin sperm flagella during digestion by trypsin | Q36204029 | ||
| Analysis of the movement of Chlamydomonas flagella:" the function of the radial-spoke system is revealed by comparison of wild-type and mutant flagella | Q36205806 | ||
| Substructure of the outer dynein arm | Q36209285 | ||
| The axonemal axis and Ca2+-induced asymmetry of active microtubule sliding in sea urchin sperm tails | Q36215188 | ||
| Direction of force generated by the inner row of dynein arms on flagellar microtubules | Q36216845 | ||
| Effect of vanadate on gill cilia: Switching mechanism in ciliary beat | Q39717310 | ||
| Computation of the internal forces in cilia: application to ciliary motion, the effects of viscosity, and cilia interactions | Q40118008 | ||
| Dynein-ADP as a force-generating intermediate revealed by a rapid reactivation of flagellar axoneme | Q40149559 | ||
| Studies on cilia. 3. Further studies on the cilium tip and a "sliding filament" model of ciliary motility | Q41103738 | ||
| Motility and mechanosensitivity of macrocilia in the ctenophore Beroë. | Q41587303 | ||
| Computer simulation of flagellar movement: VII. Conventional but functionally different cross-bridge models for inner and outer arm dyneins can explain the effects of outer arm dynein removal | Q41647831 | ||
| High-frequency vibration in flagellar axonemes with amplitudes reflecting the size of tubulin | Q41840371 | ||
| Robust, tunable biological oscillations from interlinked positive and negative feedback loops. | Q41905730 | ||
| How molecular motors shape the flagellar beat. | Q42452993 | ||
| Excitable dynein model with multiple active sites for large-amplitude oscillations and bend propagation in flagella | Q42470445 | ||
| Mechanical stimulation activates beating in calcium-arrested lateral cilia of Mytilus edulis gill | Q42511292 | ||
| One-dimensional diffusion of microtubules bound to flagellar dynein | Q44242504 | ||
| Rotation and translocation of microtubules in vitro induced by dyneins from Tetrahymena cilia | Q45104274 | ||
| Twenty-five dyneins in Tetrahymena: A re-examination of the multidynein hypothesis. | Q46024773 | ||
| Computer simulation of flagellar movement VIII: coordination of dynein by local curvature control can generate helical bending waves | Q46059494 | ||
| Computer simulation of flagellar movement IX. Oscillation and symmetry breaking in a model for short flagella and nodal cilia | Q46070869 | ||
| Bending patterns of Chlamydomonas flagella: IV. Mutants with defects in inner and outer dynein arms indicate differences in dynein arm function | Q46254183 | ||
| Engineering cooperativity in biomotor-protein assemblies | Q46673255 | ||
| Microtubule sliding in reduced-amplitude bending waves of Ciona sperm flagella: resolution of metachronous and synchronous sliding components of stable bending waves | Q46686482 | ||
| A novel motility pattern in quail spermatozoa with implications for the mechanism of flagellar beating | Q47574759 | ||
| Dynein arms are oscillating force generators | Q47924190 | ||
| A self-organized vortex array of hydrodynamically entrained sperm cells. | Q51969831 | ||
| Geometric Clutch model version 3: the role of the inner and outer arm dyneins in the ciliary beat. | Q52036931 | ||
| Orientation of the central pair complex during flagellar bend formation in Chlamydomonas. | Q52100023 | ||
| A model of flagellar and ciliary functioning which uses the forces transverse to the axoneme as the regulator of dynein activation. | Q52386177 | ||
| A study of bend formation in locally reactivated hamster sperm flagella. | Q52699719 | ||
| Flagellar movement of human spermatozoa | Q55885168 | ||
| The chirality of ciliary beats | Q57252561 | ||
| Generic aspects of axonemal beating | Q57252593 | ||
| Spontaneous recovery after experimental manipulation of the plane of beat in sperm flagella | Q59060758 | ||
| High-frequency nanometre-scale vibration in 'quiescent' flagellar axonemes | Q59075975 | ||
| Local reactivation of Triton-extracted flagella by iontophoretic application of ATP | Q59095766 | ||
| Simulated cross-bridge patterns corresponding to ciliary beating in Paramecium | Q59097045 | ||
| Tails of Tetrahymena | Q67053967 | ||
| Transient flagellar waveforms in reactivated sea urchin sperm | Q70007398 | ||
| Study of the properties of MgATP2--induced stationary bends in demembranated sea urchin sperm | Q70089385 | ||
| Ability of paralyzed flagella mutants of Chlamydomonas to move | Q71089341 | ||
| P433 | issue | 8 | |
| P304 | page(s) | 425-436 | |
| P577 | publication date | 2009-08-01 | |
| P1433 | published in | Cytoskeleton | Q2196987 |
| P1476 | title | Thinking about flagellar oscillation | |
| P478 | volume | 66 |
| Q36647205 | A Structural Basis for How Motile Cilia Beat |
| Q30376431 | A computational model of dynein activation patterns that can explain nodal cilia rotation |
| Q36426472 | ATP Consumption of Eukaryotic Flagella Measured at a Single-Cell Level |
| Q35153262 | An axonemal PP2A B-subunit is required for PP2A localization and flagellar motility |
| Q37280412 | An outer arm dynein light chain acts in a conformational switch for flagellar motility |
| Q43090123 | Analysis of the ciliary/flagellar beating of Chlamydomonas |
| Q27342489 | Analysis of unstable modes distinguishes mathematical models of flagellar motion |
| Q36060051 | Axonemal radial spokes: 3D structure, function and assembly. |
| Q34052215 | Calcium channels in the development, maturation, and function of spermatozoa |
| Q30504288 | Cilia-like beating of active microtubule bundles |
| Q52553226 | Ciliary Motility: Regulation of Axonemal Dynein Motors. |
| Q52814393 | Curvature regulation of the ciliary beat through axonemal twist. |
| Q27330175 | Discrete dynamics model for the speract-activated Ca2+ signaling network relevant to sperm motility |
| Q30498049 | Distinct roles of 1alpha and 1beta heavy chains of the inner arm dynein I1 of Chlamydomonas flagella. |
| Q30499773 | Drosophila sperm motility in the reproductive tract |
| Q37047252 | Dynamic curvature regulation accounts for the symmetric and asymmetric beats of Chlamydomonas flagella. |
| Q83969854 | Effects of iodide on the coupling between ATP hydrolysis and motile activity in axonemal dynein |
| Q51066435 | Emergence of flagellar beating from the collective behavior of individual ATP-powered dyneins. |
| Q42577892 | Emergence of polar order and cooperativity in hydrodynamically coupled model cilia. |
| Q28238533 | Emergent complexity of the cytoskeleton: from single filaments to tissue |
| Q34310307 | Equations of interdoublet separation during flagella motion reveal mechanisms of wave propagation and instability |
| Q92484211 | Flagellar ultrastructure suppresses buckling instabilities and enables mammalian sperm navigation in high-viscosity media |
| Q55451827 | Four-dimensional analysis by high-speed holographic imaging reveals a chiral memory of sperm flagella. |
| Q35728133 | Functional architecture of the outer arm dynein conformational switch |
| Q28299219 | Functions and mechanics of dynein motor proteins |
| Q30557752 | High-speed holographic microscopy of malaria parasites reveals ambidextrous flagellar waveforms |
| Q74441828 | How cilia beat |
| Q30488535 | IC138 defines a subdomain at the base of the I1 dynein that regulates microtubule sliding and flagellar motility |
| Q37246309 | IC97 is a novel intermediate chain of I1 dynein that interacts with tubulin and regulates interdoublet sliding. |
| Q92924327 | Instability-driven oscillations of elastic microfilaments |
| Q38594390 | Lag, lock, sync, slip: the many 'phases' of coupled flagella |
| Q40537514 | Motor regulation results in distal forces that bend partially disintegrated Chlamydomonas axonemes into circular arcs |
| Q38257788 | Multiciliated cells |
| Q30741119 | Nerve growth factor promotes reorganization of the axonal microtubule array at sites of axon collateral branching |
| Q30844433 | Nonlinear amplitude dynamics in flagellar beating. |
| Q30497413 | Nonlinear instability in flagellar dynamics: a novel modulation mechanism in sperm migration? |
| Q30491791 | Propulsion of African trypanosomes is driven by bihelical waves with alternating chirality separated by kinks. |
| Q84088667 | Purification of axonemal dyneins and dynein-associated components from Chlamydomonas |
| Q35043160 | Regulation of ciliary motility: conserved protein kinases and phosphatases are targeted and anchored in the ciliary axoneme |
| Q37365410 | Regulation of dynein-driven microtubule sliding by the axonemal protein kinase CK1 in Chlamydomonas flagella |
| Q33809670 | Sensing the mechanical state of the axoneme and integration of Ca2+ signaling by outer arm dynein |
| Q42677334 | Simulation of cyclic dynein-driven sliding, splitting, and reassociation in an outer doublet pair |
| Q33736612 | Slow axonemal dynein e facilitates the motility of faster dynein c. |
| Q38234230 | Soluble adenylyl cyclase of sea urchin spermatozoa |
| Q37876572 | Sperm flagella: comparative and phylogenetic perspectives of protein components |
| Q39190167 | Spermatozoa as Functional Components of Robotic Microswimmers |
| Q28646682 | Spermatozoa scattering by a microchannel feature: an elastohydrodynamic model |
| Q41651699 | Steady dynein forces induce flutter instability and propagating waves in mathematical models of flagella |
| Q35104901 | Strategies for locating the female gamete: the importance of measuring sperm trajectories in three spatial dimensions |
| Q30538934 | The MIA complex is a conserved and novel dynein regulator essential for normal ciliary motility |
| Q30538731 | The N-DRC forms a conserved biochemical complex that maintains outer doublet alignment and limits microtubule sliding in motile axonemes |
| Q37291693 | The Trypanosoma brucei flagellum: moving parasites in new directions. |
| Q37735474 | The regulation of dynein-driven microtubule sliding in Chlamydomonas flagella by axonemal kinases and phosphatases |
| Q34327840 | Three-dimensional structure of the bovine sperm connecting piece revealed by electron cryotomography |
| Q91271273 | Turning dyneins off bends cilia |
Search more.