David G. Miguez

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Personal Info

Current position: Marie Curie fellow at Elisa Martí's Lab. Instituto de Biologia Molecular de Barcelona, CISC.

Background: Nonlinear Dynamics, reaction-diffusion, autocatalitic and bistable systems, feedback, pH oscillators, Turing Patterns, Enzyme kinetics, Systems Biology in Cancer, Signaling pathways.

Interest: Development of Central Nervous System in Vertebrates

Contact

David G. Míguez

e-mail: david_miguez AT hms DOT harvard DOT edu

Personal Web: http://silver.med.harvard.edu/david/

Blog: http://www.hacheintercalada.com

Systems Biology

Harvard Medical School

200 Longwood Ave, Alpert 536

Boston, MA 02115

Phone:(+01) 617 432 6406

Cell phone: (+01) 617 777 3264

Fax: 617-432-5012

Publications

  1. D. G. Míguez, P. McGraw, A. P. Muñuzuri and M. Menzinger, "Selection of Flow-Distributed Oscillation and Turing Patterns by Boundary Forcing in a Linearly Growing, Oscillating Medium", Submitted.
  2. I. A. Swinburne, D. G. Míguez, D. Landgraf, and P. A. Silver, "Intron length increases oscillatory periods of gene expression in animal cells", Genes & Dev., (2008) in press.
  3. S. Alonso, D. G. Míguez, F. Sagués, “Differential susceptibility to noise of mixed Turing and Hopf modes in a photosensitive chemical medium”, Europhys. Lett, 81, 30006 (2008).
  4. D. G. Míguez, V. K. Vanag, I. R. Epstein, “Fronts and pulses in an enzymatic reaction with glucose oxidase" P.N.A.S. 104, 6992 (2007).
  5. V. K. Vanag, D.G. Míguez, I. R. Epstein, “Designing an Enzymatic Oscillator: Bistability and Feedback Control led Oscillations with Glucose Oxidase in a CSTR”, J. Phys. Chem. 125, 194515 (2006).
  6. D.G. Míguez, S. Alonso, A.P. Muñuzuri, F. Sagués, “Turing patterns of oscillating spots”, Phys. Rev. Lett, 97, 178301 (2006).
  7. D. G. Míguez, A. P. Muñuzuri,“On the orientation of stripes in fish skin patterning”, Biophys. Chem. 124, 161 (2006).
  8. D. G. Míguez, R. A. Satnoianu, A. P. Muñuzuri, "Experimental steady pattern formation in reaction-diffusion-advection systems", Phys. Rev. E 73, 025201 (R) (2006).
  9. D. G. Míguez, M. Dolnik, A. P. Muñuzuri, L. Kramer, "Effect of Axial Growth on Turing Pattern Formation". Phys. Rev. Lett 96, 048304 (2006).
  10. D. G. Míguez, G. Izús, A. P. Muñuzuri, "Robustness and Stability of Flow-and-Diffusion Structures", Phys. Rev. E 73, 016207 (2006).
  11. D. G. Miguez, V. Perez-Villar, and A. P. Munuzuri, "Turing instability controlled by spatiotemporal imposed dynamics", Phys. Rev. E 71, 066217 (2005).
  12. F. Sagués, D. G. Míguez, E. M. Nicola, A. P. Muñuzuri, J. Casademunt, L. Kramer, "Spatio-Temporal Forcing of Turing Patterns", Physica D 199, 235 (2004) .
  13. D. G. Míguez, E. M. Nicola, A. P. Muñuzuri, J. Casademunt, F. Sagués, L. Kramer, "Traveling-Stripe Forcing Generates Hexagonal Patterns", Phys. Rev. Lett. 93, 048303 (2004) .
  14. M. Kærn, D. G. Míguez, A. P. Muñuzuri, M. Menzinger, "Control of chemical pattern formation by a clock-and-wavefront type mechanism", Biophys. Chem. 110, 231 (2004). Shared 1st authorship.
  15. B. Peña, C. Pérez-García, A. Sanz-Anchelergues, "Transverse instabilities in chemical Turing patterns of stripes", D. G. Míguez, A. P. Muñuzuri, Phys. Rev. E 68, 056206 (2003) .
  16. S. Rüdiger, D. G. Míguez, A. P. Muñuzuri, F. Sagués, J. Casademunt, "Dynamics of Turing Patterns under Spatiotemporal Forcing", Phys. Rev. Lett 90, 128301 (2003).

Updated by: David 15:24, 8 August 2008 (UTC)

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