Some older journal publications
Two-point heterogeneous connections in a continuum neural field model,
C. A. Brackley and M. S. Turner, Biol. Cybern., 100, 371 (2009).
Persistent fluctuations of activity in undriven continuum neural field models with power-law connections,
C. A. Brackley and M. S. Turner, Phys. Rev. E 79, 011918 (2009).
Fiber Depolymerization: Fracture, Fragments, Vanishing Times and Stochastics in Sickle Hemoglobin,
J. C. Wang , S. Kwong, F. A. Ferrone, M. S. Turner and R. W. Briehl, Biophys. J., 96, 655 (2009).
Random fluctuations of the firing rate function in a continuum neural field model,
C. A. Brackley and M. S. Turner, Phys. Rev. E 75, 041913 (2007)
Diffusion on membrane tubes: A highly discriminatory test of the Saffman-Delbruck theory,
D. R. Daniels, and M. S. Turner, Langmuir 23, 6667-6670 (2007).
Deforming biological membranes : How the cytoskeleton affects a polymerising fiber,
D. R. Daniels, J. C. Wang, R. W. Briehl and M. S. Turner, J. Chem. Phys., 124, 024903 (2006).
Anisotropy in Sickle Hemoglobin Fibers from Variations in Bending and Twist,
M. S. Turner, R. W. Briehl, J. C. Wang, F.A. Ferrone and R. Josephs, J. Mol. Biol., 357, 1422-1427, (2006).
Budded membrane microdomains as regulators for cellular tension,
P. Sens and M. S. Turner, Phys. Rev. E., 73, 031918, (2006).
Fiber depolymerization,
M. S. Turner, G. Agarwal, C. W. Jones, J. C. Wang, S. Kwong, F.A. Ferrone, R. Josephs and R. W. Briehl, Biophys. J., 91, 1008-1013, (2006).
A Kinetic Model Describing the Processivity of Myosin-V,
K. I. Skau, R. B. Hoyle and M. S. Turner, Biophys. J., 91, 2475-2489, (2006).
Stall, spiculate or runaway: The fate of fibers growing towards fluctuating membranes,
D. R. Daniels, D. Marenduzzo and M. S. Turner, Phys. Rev. Lett., 97, 098101 (2006).
Experimental validation of a predicted feedback loop in the multi-oscillator clock of Arabidopsis thaliana,
J. C. W. Locke, L. Kozma-Bognar, P.D Gould, B. Feher, E. Kevei, F. Nagy, M. S. Turner, A. Hall and A. J. Millar, Molecular Systems Biology doi:10.1038/msb4100102 (2006).
Semiflexible rod in a nematic environment with applications to biological polymers,
D. R. Daniels and M. S. Turner, Macromolecules, 38, 182, (2005).
Identifying genetic networks in noisy and varied experimental data: The circadian clock in Arabidopsis thaliana,
J. C. W. Locke, A. J. Millar and M. S. Turner, J. Theo. Biol. 234, 383, (2005).
Measuring Forces between Protein Fibers by Microscopy,
C. W. Jones, J. C. Wang, R. W. Briehl and M. S. Turner, Biophys. J., 88, 2433, (2005).
An interlocking feedback model for the circadian clock in Arabidopsis thaliana,
J. C. W. Locke, M. M. Southern, L. Kozma-Bognar, V. Hibberd, M. S. Turner, A. J. Millar,
Molecular Systems Biology doi: 10.1038/msb4100018 (2005). [featured article] [other reviews 1, 2]
Electronic Transport in DNA - the Disorder Perspective,
K. D. Klotsa, R. A. Roemer and M. S. Turner, Biophys. J., 89, 2187-2198, (2005).
Non-equilibrium raft-like membrane domains under continuous recycling
M. S. Turner, P. Sens and N. D. Socci, Phys. Rev. Lett. 95, 168301, (2005). [see also supporting movies]
Spicules and the effect of rigid rods on enclosing membrane tubes
D. R. Daniels and M. S. Turner, Phys. Rev. Lett., 95, 238101, (2005).
Theoretical model for the formation of caveolae and similar membrane invaginations,
P. Sens and M. S. Turner, Biophys. J. 86, 2049, (2004).
The wild type circadian period of Neurospora is encoded in the residual network of the null frq mutants,
E. L. Bain, A. J. Millar and M. S. Turner, J. Theo. Biol. 229, 413, (2004).
Gating-by-tilt of mechanically sensitive membrane channels,
M. S. Turner and P. Sens, Phys. Rev. Lett. 93, 118103, (2004).
The force generated by biological membranes on a polymer rod and its response: Statics and dynamics,
D. R. Daniels and M. S. Turner, J. Chem. Phys. 121, 7401, (2004).
Twisted protein aggregates and disease: The stability of sickle hemoglobin fibers,
M. S. Turner, R. W. Briehl, F.A. Ferrone and R. Josephs, Phys. Rev. Lett., 90, 128103, (2003).