Brokaw, Charles

Article from CaltechAUTHORS

• Brokaw, Charles J. (2014) Computer simulation of flagellar movement X: Doublet pair splitting and bend propagation modeled using stochastic dynein kinetics; Cytoskeleton; Vol. 71; No. 4; 273-284; 10.1002/cm.21168
• Brokaw, Charles J. (2014) Computer Simulation of Flagellar Movement X. Doublet pair splitting and bend propagation modeled using stochastic dynein kinetics; Cytoskeleton; 10.1002/cm.21168
• Brokaw, Charles J. (2009) Simulation of Cyclic Dynein-Driven Sliding, Splitting, and Reassociation in an Outer Doublet Pair; Biophysical Journal; Vol. 97; No. 11; 2939-2947; 10.1016/j.bpj.2009.09.022
• Pelle, Dominic W. and Brokaw, Charles J., et el. (2009) Mechanical properties of the passive sea urchin sperm flagellum; Cell Motility and the Cytoskeleton; Vol. 66; No. 9; 721-735; 10.1002/cm.20401
• Brokaw, Charles J. (2009) Thinking about flagellar oscillation; Cell Motility and the Cytoskeleton; Vol. 66; No. 8; 425-436; 10.1002/cm.20313
• Brokaw, Charles J. (2006) Flagellar propulsion; Journal of Experimental Biology; Vol. 209; No. 6; 985-986; 10.1242/jeb.02120
• Brokaw, Charles J. (2005) Computer Simulation of Flagellar Movement IX. Oscillation and Symmetry Breaking in a Model for Short Flagella and Nodal Cilia; Cell Motility and the Cytoskeleton; Vol. 60; No. 1; 35-47; 10.1002/cm.20046
• Brokaw, Charles J. (2002) Computer Simulation of Flagellar Movement VIII: Coordination of Dynein by Local Curvature Control Can Generate Helical Bending Waves; Cell Motility and the Cytoskeleton; Vol. 53; No. 2; 103-124; 10.1002/cm.10067
• Leopold, A. Carl and Jaffe, Mordecai J., et el. (2000) Many Modes of Movement; Science; Vol. 288; No. 5474; 2131-2132; 10.1126/science.288.5474.2131e
• Dey, Chinmoy S. and Brokaw, Charles J. (1991) Activation of Ciona sperm motility: phosphorylation of dynein polypeptides and effects of a tyrosine kinase inhibitor; Journal of Cell Science; Vol. 100; No. 4; 815-824
• Brokaw, Charles J. (1991) Microtubule sliding in swimming sperm flagella: direct and indirect measurements on sea urchin and tunicate spermatozoa; Journal of Cell Biology; Vol. 114; No. 6; 1201-1215; PMCID PMC2289132; 10.1083/jcb.114.6.1201
• Brokaw, Charles J. (1990) Flagellar oscillation: new vibes from beads; Journal of Cell Science; Vol. 95; No. 4; 527-530
• Brokaw, Charles J. (1989) Direct measurements of sliding between outer doublet microtubules in swimming sperm flagella; Science; Vol. 243; No. 4898; 1593-1596; 10.1126/science.2928796
• Brokaw, Charles J. (1987) A Lithium-sensitive Regulator of Sperm Flagellar Oscillation Is Activated by cAMP-dependent Phosphorylation; Journal of Cell Biology; Vol. 105; No. 4; 1789-1798; PMCID PMC2114665; 10.1083/jcb.105.4.1789
• Ward, Gary E. and Brokaw, Charles J., et el. (1985) Chemotaxis of Arbacia punctulata spermatozoa to resact, a peptide from the egg jelly layer; Journal of Cell Biology; Vol. 101; No. 6; 2324-2329; PMCID PMC2113998; 10.1083/jcb.101.6.2324
• Brokaw, C. J. and Nagayama, S. M. (1985) Modulation of the asymmetry of sea urchin sperm flagellar bending by calmodulin; Journal of Cell Biology; Vol. 100; No. 6; 1875-1883; PMCID PMC2113586; 10.1083/jcb.100.6.1875
• Omoto, C. K. and Brokaw, C. J. (1982) Structure and behaviour of the sperm terminal filament; Journal of Cell Science; Vol. 58; 385-409
• Brokaw, C. J. and Luck, D. J. L, et el. (1982) Analysis of the Movement of Chlamydomonas Flagella: The Function of the Radial-spoke System Is Revealed by Comparison of Wild-type and Mutant Flagella; Journal of Cell Biology; Vol. 92; No. 3; 722-732; PMCID PMC2112047; 10.1083/jcb.92.3.722
• Okuno, M. and Asai, D. J., et el. (1981) Effects of antibodies against dynein and tubulin on the stiffness of flagellar axonemes; Journal of Cell Biology; Vol. 91; No. 3; 689-694; PMCID PMC2112789; 10.1083/jcb.91.3.689
• Asai, David J. and Brokaw, Charles J. (1980) Effects of antibodies against tubulin on the movement of reactivated sea urchin sperm flagella; Journal of Cell Biology; Vol. 87; No. 1; 114-123; PMCID PMC2110717; 10.1083/jcb.87.1.114
• Pate, E. F. and Brokaw, C. J. (1980) Movement of Spermatozoa in Viscous Environments; Journal of Experimental Biology; Vol. 88; 395-397
• Okuno, Makoto and Brokaw, C. J. (1979) Inhibition of movement of trition-demembranated sea-urchin sperm flagella by Mg2+, ATP4-, ADP and P1; Journal of Cell Science; Vol. 38; 105-123
• Brokaw, C. J. (1979) Calcium-induced asymmetrical beating of triton-demembranated sea urchin sperm flagella; Journal of Cell Biology; Vol. 82; No. 2; 401-411; PMCID PMC2110463; 10.1083/jcb.82.2.401
• Brokaw, C. J. (1977) CO_2-inhibition of the amplitude of bending of triton-demembranated sea urchin sperm flagella; Journal of Experimental Biology; Vol. 71; No. 1; 229-240
• Brokaw, C. J. and Simonick, T. F. (1977) Motility of triton-demembranated sea urchin sperm flagella during digestion by trypsin; Journal of Cell Biology; Vol. 75; No. 3; 650-665; PMCID PMC2111580; 10.1083/jcb.75.3.650
• Ogawa, K. and Asai, D. J., et el. (1977) Properties of an antiserum against native dynein 1 from sea urchin sperm flagella; Journal of Cell Biology; Vol. 73; No. 1; 182-192; PMCID PMC2109894; 10.1083/jcb.73.1.182
• Brokaw, C. J. and Simonick, T. F. (1977) Mechanochemical coupling in flagella. V. Effects of viscosity on movement and ATP-dephosphorylation of Triton-demembranated sea-urchin spermatozoa; Journal of Cell Science; Vol. 23; No. 1; 227-241
• Brokaw, Charles J. (1975) Molecular mechanism for oscillation in flagella and muscle; Proceedings of the National Academy of Sciences of the United States of America; Vol. 72; No. 8; 3102-3106
• Brokaw, C. J. (1975) Effects of viscosity and ATP concentration on the movement of reactivated sea-urchin sperm flagella; Journal of Experimental Biology; Vol. 62; No. 3; 701-719
• Brokaw, C. J. and Josslin, R. (1973) Maintenance of Constant Wave Parameters by Sperm Flagella at Reduced Frequencies of Beat; Journal of Experimental Biology; Vol. 59; No. 3; 617-628
• Brokaw, C. J. and Gibbons, I. R. (1973) Localized Activation of Bending in Proximal, Medial and Distal Regions of Sea-Urchin Sperm Flagella; Journal of Cell Science; Vol. 13; No. 1; 1-10
• Brokaw, Charles J. (1972) Flagellar Movement: A Sliding Filament Model: An explanation is suggested for the spontaneous propagation of bending waves by flagella; Science; Vol. 178; No. 4060; 455-462; 10.1126/science.178.4060.455
• Brokaw, C. J. (1971) Bend Propagation by a Sliding Filament Model for Flagella; Journal of Experimental Biology; Vol. 55; No. 2; 289-304
• Brokaw, C. J. (1970) Bending Moments in Free-Swimming Flagella; Journal of Experimental Biology; Vol. 53; No. 2; 445-464
• Miller, R. L. and Brokaw, C. J. (1970) Chemotactic Turning Behaviour of Tubularia Spermatozoa; Journal of Experimental Biology; Vol. 52; No. 3; 699-706
• Brokaw, C. J. and Benedict, B. (1968) Mechanochemical Coupling in Flagella. II. Effects of viscosity and thiourea on metabolism and motility of Ciona spermatozoa; Journal of General Physiology; Vol. 52; No. 2; 283-299; PMCID PMC2225809; 10.1085/jgp.52.2.283
• Brokaw, C. J. (1967) Adenosine Triphosphate Usage by Flagella; Science; Vol. 156; No. 3771; 76-78; 10.1126/science.156.3771.76
• Brokaw, C. J. (1966) Effects of Increased Viscosity on the Movements of Some Invertebrate Spermatozoa; Journal of Experimental Biology; Vol. 45; No. 1; 113-139
• Brokaw, C. J. (1965) Non-Sinusoidal Bending Waves of Sperm Flagella; Journal of Experimental Biology; Vol. 43; No. 1; 155-169
• Brokaw, C. J. and Wright, Leigh (1963) Bending Waves of the Posterior Flagellum of Ceratium; Science; Vol. 142; No. 3596; 1169-1170; 10.1126/science.142.3596.1169
• Brokaw, C. J. (1963) Movement of the Flagella of Polytoma Uvella; Journal of Experimental Biology; Vol. 40; No. 1; 149-156
• Brokaw, C. J. (1958) Chemotaxis of Bracken Spermatozoids : The Role of Bimalate Ions; Journal of Experimental Biology; Vol. 35; No. 1; 192-196
• Brokaw, C. J. (1958) Chemotaxis of Bracken Spermatozoids : Implications of Electrochemical Orientation; Journal of Experimental Biology; Vol. 35; No. 1; 197-212