Gary W. Slater
Gary W. Slater
Professor of Physics, University of Ottawa
Verified email at
Cited by
Cited by
Diffusing diffusivity: a model for anomalous, yet Brownian, diffusion
MV Chubynsky, GW Slater
Physical review letters 113 (9), 098302, 2014
Diffusion coefficient of DNA molecules during free solution electrophoresis
AE Nkodo, JM Garnier, B Tinland, H Ren, C Desruisseaux, LC McCormick, ...
Electrophoresis 22 (12), 2424-2432, 2001
On the reptation theory of gel electrophoresis
GW Slater, J Noolandi
Biopolymers: Original Research on Biomolecules 25 (3), 431-454, 1986
Quantitative analysis of the three regimes of DNA electrophoresis in agarose gels
GW Slater, J Rousseau, J Noolandi, C Turmel, M Lalande
Biopolymers: Original Research on Biomolecules 27 (3), 509-524, 1988
Self-trapping and anomalous dispersion of DNA in electrophoresis
J Noolandi, J Rousseau, GW Slater, C Turmel, M Lalande
Physical review letters 58 (23), 2428, 1987
New biased-reptation model for charged polymers
GW Slater, J Noolandi
Physical review letters 55 (15), 1579, 1985
Theory of DNA electrophoresis: A look at some current challenges
GW Slater, C Desruisseaux, SJ Hubert, JF Mercier, J Labrie, J Boileau, ...
ELECTROPHORESIS: An International Journal 21 (18), 3873-3887, 2000
Theory of DNA sequencing using free-solution electrophoresis of protein-DNA complexes
P Mayer, GW Slater, G Drouin
Analytical chemistry 66 (10), 1777-1780, 1994
Molecular detrapping and band narrowing with high frequency modulation of pulsed field electrophoresis
C Turmel, E Brassard, GW Slater, J Noolandi
Nucleic acids research 18 (3), 569-575, 1990
End‐labeled free‐solution electrophoresis of DNA
RJ Meagher, JI Won, LC McCormick, S Nedelcu, MM Bertrand, JL Bertram, ...
Electrophoresis 26 (2), 331-350, 2005
Modeling the separation of macromolecules: A review of current computer simulation methods
GW Slater, C Holm, MV Chubynsky, HW de Haan, A Dubé, K Grass, ...
Electrophoresis 30 (5), 792-818, 2009
The biased reptation model of DNA gel electrophoresis: mobility vs molecular size and gel concentration
GW Slater, J Noolandi
Biopolymers: Original Research on Biomolecules 28 (10), 1781-1791, 1989
Pulsed-field electrophoresis: application of a computer model to the separation of large DNA molecules.
M LaLande, J Noolandi, C Turmel, J Rousseau, GW Slater
Proceedings of the National Academy of Sciences 84 (22), 8011-8015, 1987
Free-solution electrophoresis of DNA
C Heller, GW Slater, P Mayer, N Dovichi, D Pinto, JL Viovy, G Drouin
Journal of Chromatography A 806 (1), 113-121, 1998
Generalized tube model of biased reptation for gel electrophoresis of DNA
J Noolandi, GW Slater, HA Lim, JL Viovy
Science 243 (4897), 1456-1458, 1989
Reptation, entropic trapping, percolation, and rouse dynamics of polymers in “random” environments
GW Slater, SY Wu
Physical review letters 75 (1), 164, 1995
Bidirectional transport of polyelectrolytes using self-modulating entropic ratchets
GW Slater, HL Guo, GI Nixon
Physical review letters 78 (6), 1170, 1997
Theory of DNA electrophoresis (∼ 1999–2002 ˝)
GW Slater, S Guillouzic, MG Gauthier, JF Mercier, M Kenward, ...
Electrophoresis 23 (22‐23), 3791-3816, 2002
Theory of band broadening for DNA gel electrophoresis and sequencing
GW Slater
Electrophoresis 14 (1), 1-7, 1993
Theory of capillary electrophoretic separation of DNA using ultradilute polymer solutions
SJ Hubert, GW Slater, JL Viovy
macromolecules 29 (3), 1006-1009, 1996
The system can't perform the operation now. Try again later.
Articles 1–20