Polymer Physics at uOttawa       ||       Physique des Polymeres uOttawa
 

Published Papers


2014

Chubynsky, M.V., Slater, G.W. Theory of end-labeled free-solution electrophoresis: Is the end effect important? ; Electrophoresis; 2014 35 5 596-604

D. Sean, G.W. Slater, Can gel concentration gradients improve two-dimensional DNA displays? ; Electrophoresis; 2014 35 5 736-745


2013

Shendruk, T.N., Tahvildari, R., Catafard, N.M., Andrzejewski, L., Gigault, C., Todd, A., Gagne-Dumais, L., Slater, G.W., Godin, M Field-flow fractionation and hydrodynamic chromatography on a microfluidic chip ; Analytical Chemistry; 2013; 85 (12) 5981-5988

de Haan, H.W., Slater, G.W. Translocation of a polymer through a nanopore across a viscosity gradient ; Physical Review E; 2013; 87 (4)

de Haan, H.W., Slater, G.W. Translocation of a polymer through a nanopore modulated by a sticky site ; Journal of Chemical Physics; 2013; 138 (9)

Ho, Y.-F., Shendruk, T.N., Slater, G.W., Hsiao, P.-Y. Structure of polyelectrolyte brushes subject to normal electric fields ; Langmuir 2013; 29 (7) PP. 2359-2370

de Haan, H.W., Slater, G.W. Translocation of "rod-coil" polymers: Probing the structure of single molecules within nanopores ; Physical Review Letters 2013; 110 (4)

Blanchard, A.P., McDowell, G.S.V., Valenzuela, N., Xu, H., Gelbard, S., Bertrand, M., Slater, G.W., Figeys, D., Fai, S., Bennett, S.A.L. Visualization and Phospholipid Identification (VaLID): Online integrated search engine capable of identifying and visualizing glycerophospholipids with given mass ; Bioinformatics 2013 29 (2) PP. 284-285

Sean, D., Slater, G.W., Gel electrophoresis of DNA partially denatured at the ends: What are the dominant conformations? ; 2013; 34 (5) , pp. 745-752

Suo, T., Shendruk, T.N., Hickey, O.A., Slater, G.W., Whitmore, M.D., Controlling grafted polymers inside cylindrical tubes ; 2012; 1256 , pp. 206-212


2012

G.W. Slater, T.N. Shendruk, Can slip walls improve FFF? Journal of Chromatography A; 2012;

O.A. Hickey, T.N. Shendruk, J.L. Harden, G.W. Slater, Simulations of the free-solution electrophoresis of polyelectrolytes with a finite debye length using the Debye-Huckel approximation Physical Review Letters 2012; 109 (9)

T.N. Shendruk, G.W. Slater, Operational-Modes of Field-Flow Fractionation in Microfluidic Channels Journal of Chromatography A; 2012; 1233:100-108

Owen A. Hickey, James L. Harden and Gary W. Slater, Computer simulations of time-dependent suppression of EOF by polymer coatings. Microfluidics and Nanofluidics 2012; 13 (1) , pp. 91-97

de Haan, H.W., Slater, G.W Using an incremental mean first passage approach to explore the viscosity dependent dynamics of the unbiased translocation of a polymer through a nanopore Journal of Chemical Physics 2012; 136 (20)

David Sean, Gary W. Slater, Electrophoretic mobility of partially denatured DNA in a gel: Qualitative and semiquantitative differences between bubbles and split ends Electrophoresis 2012; 33:1341-1348

de Haan, H.W., Slater, G.W. Memory effects during the unbiased translocation of a polymer through a nanopore Journal of Chemical Physics 2012; 136 (15)

TN Shendruk, OA Hickey, GW Slater, JL Harden. Electrophoresis: When hydrodynamics matter. COCIS 2012; 17:74-82

Chubynsky, M.V., Slater, G.W Optimizing the accuracy of lattice Monte Carlo algorithms for simulating diffusion. Physical Review E 2012; 85 (1)


2011

Owen A. Hickey, Christian Holm, James L. Harden, and Gary W. Slater, Influence of Charged Polymer Coatings on Electro-Osmotic Flow: Molecular Dynamics Simulations. Macromolecules 2011; 44(23): 9455-9463

Tao Y-G, Slater GW, A simulation model of biofilms with autonomous cells, 2 - Explicit representation of the extracellular polymeric substance. Macromol Theor Sim 2011;20(7):571-583

Hendrick W. de Haan and Gary W. Slater. An Incremental mean first passage analysis for a quasistatic model of polymer translocation through a nanopore. Journal of Chemical Physics, 2011;134:154905.

de Haan HW, Gauthier MG, Chubynsky MV, Slater GW. The importance of introducing a waiting time for lattice monte carlo simulations of a polymer translocation process. Comput Phys Commun 2011;182(1):29-32


2010

Dube, A., Slater, G.W., Detrapping particles in gel electrophoresis: A numerical study of different pulsed field sequences Electrophoresis 2010; 31 (19) , pp. 3233-3246

Sean D, Slater GW. Physical interpretation of the Lr parameter in the theory for the gel electrophoresis of partially denatured DNA. Electrophoresis 2010;31(20):3446-9.

Hickey OA, Holm C, Harden JL, Slater GW. Implicit method for simulating electrohydrodynamics of polyelectrolytes. Phys Rev Lett 2010;105(14).

de Haan HW, Slater GW. Mapping the variation of the translocation . scaling exponent with nanopore width. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 2010;81(5).

Slater GW, Tessier F, Kopecka K. The electroosmotic flow (EOF). Methods Mol Biol 2010;583:121-34.


2009

Kingsburry C, Slater GW. The effective diffusion coefficient of a small molecule in a two-phase gel medium. J Chem Phys 2009;131(23).

Grass K, Holm C, Slater GW. Optimizing end-labeled free-solution electrophoresis by increasing the hydrodynamic friction of the drag tag. Macromolecules 2009; 42 (14) :5352-9.

Slater GW. DNA gel electrophoresis: The reptation model (s). Electrophoresis 2009; 30 (SUPPL. 1) :S181-7.

Slater GW, Holm C, Chubynsky MV, de Haan HW, Dube, Grass K, Hickey OA, Kingsburry C, Sean D, Shendruk TN, Zhan L. Modeling the separation of macromolecules: A review of current computer simulation methods. Electrophoresis 2009; 30 (5) :792-818.

Hickey OA, Harden JL, Slater GW. Molecular dynamics simulations of optimal dynamic uncharged polymer coatings for quenching electro-osmotic flow. Phys Rev Lett 2009; 102 (10) .

Gauthier MG, Slater GW. Nondriven polymer translocation through a nanopore: Computational evidence that the escape and relaxation processes are coupled. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 2009; 79 (2) .

Casault S, Slater GW. Comments concerning: Monte carlo simulations for the study of drug release from matrices with high and low diffusivity areas. Int J Pharm 2009; 365 (1-2) :214-5.


2008

Torres FA, Gauthier MG, Slater GW. Biased random walks on a lattice: Exact numerical method to study the effect of alternating fields in disordered and asymmetric systems of obstacles. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 2008; 78 (6) .

Kenward M, Slater GW. Polymer deformation in brownian ratchets: Theory and molecular dynamics simulations. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 2008; 78 (5) .

Casault S, Slater GW. Systematic characterization of drug release profiles from finite-sized hydrogels. Physica A: Statistical Mechanics and its Applications 2008; 387 (22) :5387-402.

Gauthier MG, Slater GW. A monte carlo algorithm to study polymer translocation through nanopores. II. scaling laws. J Chem Phys 2008; 128 (20) .

Gauthier MG, Slater GW. Sequence effects on the forced translocation of heteropolymers through a small channel. J Chem Phys 2008; 128 (17) .

Mercier J-, Kingsburry C, Slater GW, Lafay B. Quantitative predictions for DNA two-dimensional display according to size and nucleotide sequence composition. Electrophoresis 2008; 29 (6) :1264-72.

Gauthier MG, Slater GW. A monte carlo algorithm to study polymer translocation through nanopores. I. theory and numerical approach. J Chem Phys 2008; 128 (6) .

Gauthier MG, Slater GW. Molecular dynamics simulation of a polymer chain translocating through a nanoscopic pore : Hydrodynamic interactions versus pore radius. European Physical Journal E 2008; 25 (1) :17-23.


2007

McCormick LC, Slater GW. Molecular deformation and free-solution electrophoresis of DNA-uncharged polymer conjugates at high field strengths: Theoretical predictions part 2: Stretching. Electrophoresis 2007; 28 (21) :3837-44.

Casault S, Kenward M, Slater GW. Combinatorial design of passive drug delivery platforms. Int J Pharm 2007; 339 (1-2) :91-102.

Hickey OA, Slater GW. The diffusion coefficient of a polymer in an array of obstacles is a non-monotonic function of the degree of disorder in the medium. Physics Letters, Section A: General, Atomic and Solid State Physics 2007; 364 (6) :448-52.

Nedelcu S, Meagher RJ, Barron AE, Slater GW. Electric and hydrodynamic stretching of DNA-polymer conjugates in free-solution electrophoresis. J Chem Phys 2007; 126 (17) .

Bertrand M, Slater GW. Tethered polyelectrolytes under the action of an electrical field : A molecular-dynamics study. European Physical Journal E 2007; 23 (1) :83-9.

McCormick LC, Slater GW. Molecular deformation and free-solution electrophoresis of DNA-uncharged polymer conjugates at high field strengths: Theoretical predictions. part 1: Hydrodynamic segregation. Electrophoresis 2007; 28 (4) :674-82.


2006

Guillouzic S, Slater GW. Polymer translocation in the presence of excluded volume and explicit hydrodynamic interactions. Physics Letters, Section A: General, Atomic and Solid State Physics 2006; 359 (4) :261-4.

Kenward M, Slater GW. Molecular-dynamics simulations with explicit hydrodynamics II: On the collision of polymers with molecular obstacles. European Physical Journal E 2006; 20 (2) :125-41.

Hickey OA, Mercier J-, Gauthier MG, Tessier F, Bekhechi S, Slater GW. Effective molecular diffusion coefficient in a two-phase gel medium. J Chem Phys 2006; 124 (20) .

Meagher RJ, McCormick LC, Haynes RD, Won J-, Lin JS, Slater GW, Barron AE. Free-solution electrophoresis of DNA modified with drag-tags at both ends. Electrophoresis 2006; 27 (9) :1702-12.

McCormick LC, Slater GW. A theoretical study of the possible use of electroosmotic flow to extend the read length of DNA sequencing by end-labeled free solution electrophoresis. Electrophoresis 2006; 27 (9) :1693-701.

Mercier J-, Slater GW. Universal interpolating function for the dispersion coefficient of DNA fragments in sieving matrices. Electrophoresis 2006; 27 (8) :1453-61.

Tatek YB, Slater GW. A simulation model of biofilms with autonomous cells: I. analysis of a two-dimensional version. Physica A: Statistical Mechanics and its Applications 2006; 362 (2) :382-402.

Tessier F, Slater GW. Modulation of electroosmotic flow strength with end-grafted polymer chains. Macromolecules 2006; 39 (3) :1250-60.

Tessier F, Slater GW. Effective debye length in closed nanoscopic systems: A competition between two length scales. Electrophoresis 2006; 27 (3) :686-93.


2005

Nedelcu S, Slater GW. Branched polymeric labels used as drag-tags in free-solution electrophoresis of ssDNA. Electrophoresis 2005; 26 (21) :4003-15.

Gauthier MG, Slater GW. A new set of monte carlo moves for lattice random-walk models of biased diffusion. Physica A: Statistical Mechanics and its Applications 2005; 355 (2-4) :283-96.

Tessier F, Slater GW. Control and quenching of electroosmotic flow with end-grafted polymer chains. Macromolecules 2005; 38 (16) :6752-4.

Gratton Y, Slater GW. Molecular dynamics study of tethered polymers in shear flow. European Physical Journal E 2005; 17 (4) :455-65.

Mercier J-, Slater GW. Solid phase DNA amplification: A brownian dynamics study of crowding effects. Biophys J 2005; 89 (1) :32-42.

McCormick LC, Slater GW. The molecular end effect and its critical impact on the behavior of charged-uncharged polymer conjugates during free-solution electrophoresis. Electrophoresis 2005; 26 (9) :1659-67.

Meagher RJ, Won J-, McCormick LC, Nedelcu S, Bertrand MM, Bertram JL, Drouin G, Barron AE, Slater GW. End-labeled free-solution electrophoresis of DNA. Electrophoresis 2005; 26 (2) :331-50.


2004

Slater GW, Gratton Y, Kenward M, McCormick L, Tessier F. Deformation, stretching, and relaxation of single-polymer chains: Fundamentals and examples. Soft Materials 2004; 2 (2-3) :155-82.

Gauthier MG, Slater GW, Dorfman KD. Exact lattice calculations of dispersion coefficients in the presence of external fields and obstacles. European Physical Journal E 2004; 15 (1) :71-82.

Gauthier MG, Slater GW. Building reliable lattice monte carlo models for real drift and diffusion problems. Physical Review E - Statistical, Nonlinear, and Soft Matter Physics 2004; 70 (1 2) :015103,1-015103-4.

Kopecka K, Drouin G, Slater GW. Capillary electrophoresis sequencing of small ssDNA molecules versus the ogston regime: Fitting data and interpreting parameters. Electrophoresis 2004; 25 (14) :2177-85.

Kenward M, Slater GW. Molecular-dynamics simulations with explicit hydrodynamics I: On the friction coefficients of deformed polymers. European Physical Journal E 2004; 14 (1) :55-65.

Buchholz BA, Zahn JM, Kenward M, Slater GW, Barron AE. Flow-induced chain scission as a physical route to narrowly distributed, high molar mass polymers. Polymer 2004; 45 (4) :1223-34.


2003

Zhou H, Slater GW. A metric to search for relevant words. Physica A: Statistical Mechanics and its Applications 2003; 329 (1-2) :309-27.

Mercier J-, Slater GW, Mayer P. Solid phase DNA amplification: A simple monte carlo lattice model. Biophys J 2003; 85 (4) :2075-86.

Dorfman KD, Slater GW, Gauthier MG. Generalized taylor-aris dispersion analysis of spatially periodic lattice monte carlo models: Effect of discrete time. J Chem Phys 2003; 119 (13) :6979-80.

Slater GW, Kenward M, McCormick LC, Gauthier MG. The theory of DNA separation by capillary electrophoresis. Curr Opin Biotechnol 2003; 14 (1) :58-64.

Gauthier MG, Slater GW. An exactly solvable ogston model of gel electrophoresis: X. application to high-field separation techniques. Electrophoresis 2003; 24 (3) :441-51.


2002

AnonymousSeparation of long polyelectrolytes in a microfluidic channel with constrictions: A monte carlo study. ; 2002. 99 p.

Slater GW, Guillouzic S, Gauthier MG, Mercier J-, Kenward M, McCormick LC, Tessier F. Theory of DNA electrophoresis ( 1999-2002 1/2) . Electrophoresis 2002; 23 (22-23) :3791-816.

Gauthier MG, Slater GW. Exactly solvable ogston model of gel electrophoresis. IX. generalizing the lattice model to treat high field intensities. J Chem Phys 2002; 117 (14) :6745-56.

Nixon GI, Slater GW. Saturation and entropic trapping of monodisperse polymers in porous media. J Chem Phys 2002; 117 (8) :4042-6.

Tessier F, Slater GW. Strategies for the separation of polyelectrolytes based on non-linear dynamics and entropic ratchets in a simple microfluidic device. Applied Physics A: Materials Science and Processing 2002; 75 (2) :285-91.

Guillouzic S, McCormick LC, Slater GW. Electrophoresis in the presence of gradients: I. viscosity gradients. Electrophoresis 2002; 23 (12) :1822-32.

Slater GW. A theoretical study of an empirical function for the mobility of DNA fragments in sieving matrices. Electrophoresis 2002; 23 (10) :1410-6.

Tessier F, Labrie J, Slater GW. Electrophoretic separation of long polyelectrolytes in submolecular-size constrictions: A monte carlo study. Macromolecules 2002; 35 (12) :4791-800.

Vreeland WN, Slater GW, Barron AE. Profiling solid-phase synthesis products by free-solution conjugate capillary electrophoresis. Bioconjug Chem 2002; 13 (3) :663-70.


2001

Mercier J-, Tessier F, Slater GW. An exactly solvable ogston model of gel electrophoresis: VIII. nonconducting gel fibers, curved field lines, and the nernst-einstein relation. Electrophoresis 2001; 22 (13) :2631-8.

Nkodo AE, Garnier JM, Tinland B, Ren H, Desruisseaux C, McCormick LC, Drouin G, Slater GW. Diffusion coefficient of DNA molecules during free solution electrophoresis. Electrophoresis 2001; 22 (12) :2424-32.

McCormick LC, Slater GW, Karger AE, Vreeland WN, Barron AE, Desruisseaux C, Drouin G. Capillary electrophoretic separation of uncharged polymers using polyelectrolyte engines: Theoretical model. Journal of Chromatography A 2001; 924 (1-2) :43-52.

Desruisseaux C, Drouin G, Slater GW. Electrophoresis of composite molecular objects. 2. competition between sieving and frictional effects in polymer solutions. Macromolecules 2001; 34 (15) :5280-6.

Mercier J-, Slater GW. An exactly solvable ogston model of gel electrophoresis. 7. diffusion and mobility of hard spherical particles in three-dimensional gels. Macromolecules 2001; 34 (10) :3437-45.

Vreeland WN, Desruisseaux C, Karger AE, Drouin G, Slater GW, Barron AE. Molar mass profiling of synthetic polymers by free-solution capillary electrophoresis of DNA-polymer conjugates. Anal Chem 2001; 73 (8) :1795-803.

Boileau J, Slater GW. An exactly solvable ogston model of gel electrophoresis VI. towards a theory for macromolecules. Electrophoresis 2001; 22 (4) :673-83.

Slater GW, Desruisseaux C, Hubert SJ. DNA separation mechanisms during electrophoresis. Methods Mol Biol 2001; 162:27-41.

Desruisseaux C, Long D, Drouin G, Slater GW. Electrophoresis of composite molecular objects. 1. relation between friction, charge, and ionic strength in free solution. Macromolecules 2001; 34 (1) :44-52.


2000

Slater GW, Desruisseaux C, Hubert SJ, Mercier J-, Labrie J, Boileau J, Tessier F, P├ępin MP. Theory of DNA electrophoresis: A look at some current challenges. Electrophoresis 2000; 21 (18) :3873-87.

Mercier J-, Slater GW. Random walk and diffusion of hard spherical particles in quenched systems: Reaching the continuum limit on a lattice. J Chem Phys 2000; 113 (20) :9109-12.

Rousseau J, Drouin G, Slater GW. Gel electrophoretic mobility of single-stranded DNA: The two reptation field-dependent factors. Electrophoresis 2000; 21 (8) :1464-70.

Labrie J, Mercier J-, Slater GW. An exactly solvable ogston model of gel electrophoresis. V. attractive gel-analyte interactions and their effects on the ferguson plot. Electrophoresis 2000; 21 (5) :823-33.


1999

Barsky S, Slater GW. A nonequilibrium molecular dynamics simulation of the time-dependent orientational coupling between long and short chains in a bimodal polymer melt upon uniaxial stretching. Macromolecules 1999; 32 (19) :6348-58.

Nixon GI, Slater GW. Relaxation length of a polymer chain in a quenched disordered medium. Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics 1999; 60 (3) :3170-3.

Ren H, Karger AE, Oaks F, Menchen S, Slater GW, Drouin G. Separating DNA sequencing fragments without a sieving matrix. Electrophoresis 1999; 20 (12) :2501-9.

Davies S, Eizenman M, Pasupathy S, Muller W, Slater G. Models of local behavior of DNA electrophoresis peak parameters. Electrophoresis 1999; 20 (7) :1443-54.

Mercier J-, Slater GW, Guo HL. Numerically exact diffusion coefficients for lattice systems with periodic boundary conditions. I. theory. J Chem Phys 1999; 110 (12) :6050-6.

Mercier J-, Slater GW. Numerically exact diffusion coefficients for lattice systems with periodic boundary conditions. II. numerical approach and applications. J Chem Phys 1999; 110 (12) :6057-65.


1998

Desruisseaux C, Slater GW, Drouin G. On using DNA-trapping electrophoresis to increase the resolution of DNA sequencing gels. Macromolecules 1998; 31 (19) :6499-505.

Desruisseaux C, Slater GW, Kist TBL. Trapping electrophoresis and ratchets: A theoretical study for DNA- protein complexes. Biophys J 1998; 75 (3) :1228-36.

Slater GW, Kist TBL, Ren H, Drouin G. Recent developments in DNA electrophoretic separations. Electrophoresis 1998; 19 (10) :1525-41.

Mercier J-, Slater GW. An exactly solvable ogston model of gel electrophoresis IV: Sieving through periodic three-dimensional gels. Electrophoresis 1998; 19 (10) :1560-5.

Heller C, Slater GW, Mayer P, Dovichi N, Pinto D, Viovy J-, Drouin G. Free-solution electrophoresis of DNA. Journal of Chromatography A 1998; 806 (1) :113-21.

Desruisseaux C, Slater GW, Drouin G. The gel edge electric field gradients in denaturing polyacrylamide gel electrophoresis. Electrophoresis 1998; 19 (5) :627-34.

Hubert SJ, Krzywinski M, L' Heureux I, Slater GW. Reptation dynamics with random local interactions. Macromolecules 1998; 31 (1) :181-92.


1997

Rousseau J, Drouin G, Slater GW. Entropic trapping of DNA during gel electrophoresis: Effect of field intensity and gel concentration. Phys Rev Lett 1997; 79 (10) :1945-8.

Slater GW, Guo HL, Nixon GI. Bidirectional transport of polyelectrolytes using self-modulating entropic ratchets. Phys Rev Lett 1997; 78 (6) :1170-3.

Chacron MJ, Slater GW. Particle trapping and self-focusing in temporally asymmetric ratchets with strong field gradients. Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics 1997; 56 (3 B) :3446-50.

Slater GW, Treurniet JR. Exactly solvable ogston model of gel electrophoresis III. percolation and sieving through two-dimensional gels. Journal of Chromatography A 1997; 772 (1-2) :39-48.


1996

Slater GW, Mayer P, Drouin G. Migration of DNA through gels. Methods in Enzymology 1996; 270:272-95.

Slater GW, Guo HL. An exactly solvable ogston model of gel electrophoresis. II. sieving through periodic gels. Electrophoresis 1996; 17 (9) :1407-15.

Slater G, Viovy JL. Theory of electrophoresis. Electrophoresis 1996; 17 (6) :A68-71.

Slater GW, Guo HL. An exactly solvable ogston model of gel electrophoresis: I. the role of the symmetry and randomness of the gel structure. Electrophoresis 1996; 17 (6) :977-88.

Nixon GI, Slater GW. Entropic trapping and electrophoretic drift of a polyelectrolyte down a channel with a periodically oscillating width. Physical Review E - Statistical Physics, Plasmas, Fluids, and Related Interdisciplinary Topics 1996; 53 (5 SUPPL. B) :4969-80.

Desruisseaux C, Slater GW. Pulsed-field trapping electrophoresis: A computer simulation study. Electrophoresis 1996; 17 (4) :623-32.

Hubert SJ, Slater GW, Viovy J-. Theory of capillary electrophoretic separation of DNA using ultradilute polymer solutions. Macromolecules 1996; 29 (3) :1006-9.


1995

Slater GW, Yan Wu S. Reptation, entropic trapping, percolation, and rouse dynamics of polymers in " random" environments. Phys Rev Lett 1995; 75 (1) :164-7.

Slater GW, Guo HL. Ogston gel electrophoretic sieving: How is the fractional volume available to a particle related to its mobility and diffusion coefficient (s) ? Electrophoresis 1995; 16 (1) :11-5.

Slater GW, Mayer P, Grossman PD. Diffusion, joule heating, and band broadening in capillary gel electrophoresis of DNA. Electrophoresis 1995; 16 (1) :75-83.

Hubert SJ, Slater GW. Theory of capillary electrophoretic separations of DNA-polymer complexes. Electrophoresis 1995; 16 (11) :2137-42.

Slater GW, Desruisseaux C, Villeneuve C, Guo HL, Drouin G. Trapping gel electrophoresis of end-labeled DNA: An analytical model for mobility and diffusion. Electrophoresis 1995; 16 (5) :704-12.

Slater GW, Mayer P. Electrophoretic resolution versus fluctuations of the lateral dimensions of a capillary. Electrophoresis 1995; 16 (5) :771-9.

Slater GW, Mayer P, Hubert SJ, Drouin G. The biased reptation model of DNA gel electrophoresis: A user guide for constant field mobilities. Appl Theor Electrophor 1994; 4 (2) :71-9.


1994

Nixon GI, Slater GW. DNA electrophoretic collisions with single obstacles. Physical Review E 1994; 50 (6) :5033-8.

Desruisseaux C, Slater GW. Simple model of trapping electrophoresis with complicated transient dynamics. Physical Review E 1994; 49 (6) :5885-8.

Mayer P, Slater GW, Drouin G. Theory of DMA sequencing using free-solution electrophoresis of protein-DNA complexes. Anal Chem 1994; 66 (10) :1777-80.

Mayer P, Slater GW, Drouin G. Simulation of reduced band broadening during single-stranded DNA pulsed field electrophoresis in polyacrylamide gels. Electrophoresis 1994; 15 (2) :120-7.


1993

Wu SY, Slater GW. Static structure factor and shape of reptating telehelic ionomers in electric fields. Macromolecules 1993; 26 (8) :1905-13.

Mayer P, Slater GW, Drouin G. Exact behaviour of single-stranded DNA electrophoretic mobilities in polyacrylamide gels. Appl Theor Electrophor 1993; 3 (3-4) :147-55.

Slater GW, Mayer P, Drouin G. On the limits of near-equilibrium DNA gel electrophoretic sequencing. Electrophoresis 1993; 14 (10) :961-6.

Slater GW. Theory of band broadening for DNA gel electrophoresis and sequencing. Electrophoresis 1993; 14 (1-2) :1-7.


1992

Slater GW, Villeneuve C. Computer simulation of trapping electrophoresis. J Polym Sci Part B 1992; 30 (13) :1451-7.

Slater GW, Drouin G. Why can we not sequence thousands of DNA bases on a polyacrylamide gel? Electrophoresis 1992; 13 (8) :574-82.


1991

Slater GW, Noolandi J, Eisenberg A. Radius of gyration of charged reptating chains in electric fields. Macromolecules 1991; 24 (25) :6715-20.

Doi M, Kobayashi T, Makino Y, Ogawa M, Slater GW, Noolandi J. Band inversion in gel electrophoresis of DNA. Fuji Film Research & Development 1991 (36) :106-9.


1990

Lim HA, Noolandi J, Slater GW. Generalized tube model of biased reptation for DNA-gel electrophoresis. Math Comput Model 1990; 14 (C) :494-9.

Lim HA, Slater GW, Noolandi J. A model of the DNA transient orientation overshoot during gel electrophoresis. J Chem Phys 1990; 92 (1) :709-21.

Turmel C, Brassard E, Slater GW, Noolandi J. Molecular detrapping and band narrowing with high frequency modulation of pulsed field electrophoresis. Nucleic Acids Res 1990; 18 (3) :569-75.


1989

Noolandi J, Slater GW, Lim HA, Viovy JL. Generalized tube model of biased reptation for gel electrophoresis of DNA. Science 1989; 243 (4897) :1456-8.

Slater GW, Noolandi J. Effect of nonparallel alternating fields on the mobility of DNA in the biased reptation model of gel electrophoresis. Electrophoresis 1989; 10 (5-6) :413-28.

Slater GW, Turmel C, Lalande M, Noolandi J. DNA gel electrophoresis: Effect of field intensity and agarose concentration on band inversion. Biopolymers 1989; 28 (10) :1793-9.

Slater GW, Noolandi J. The biased reptation model of DNA gel electrophoresis: Mobility vs molecular size and gel concentration. Biopolymers 1989; 28 (10) :1781-91.


1988

Doi M, Kobayashi T, Makino Y, Ogawa M, Slater GW, Noolandi J. Band inversion in gel electrophoresis of DNA. Phys Rev Lett 1988; 61 (16) :1893-6.

Slater GW, Noolandi J. Electric field gradients and band sharpening in DNA gel electrophoresis. Electrophoresis 1988; 9 (10) :643-6.

Slater GW, Rousseau J, Noolandi J, Turmel C, Lalande M. Quantitative analysis of the three regimes of DNA electrophoresis in agarose gels. Biopolymers 1988; 27 (3) :509-24.

Lalande M, Noolandi J, Turmel C, Brousseau R, Rousseau J, Slater GW. Scrambling of bands in gel electrophoresis of DNA. Nucleic Acids Res 1988; 16 (12) :5427-37.


1987

Noolandi J, Rousseau J, Slater GW, Turmel C, Lalande M. Self-trapping and anomalous dispersion of DNA in electrophoresis. Phys Rev Lett 1987; 58 (23) :2428-31.

Lalande M, Noolandi J, Turmel C, Rousseau J, Slater GW. Pulsed-field electrophoresis: Application of a computer model to the separation of large DNA molecules. Proc Natl Acad Sci U S A 1987; 84 (22) :8011-5.

Slater GW, Rousseau J, Noolandi J. On the stretching of DNA in the reptation theories of gel electrophoresis. Biopolymers - Peptide Science Section 1987; 26 (6) :863-72.


1986

Slater GW, Noolandi J. Static structure factor of charged reptating polymer chains. Macromolecules 1986; 19 (9) :2356-66.

Slater GW, Noolandi J. Reptating charged polymer chains in electric fields. Europhys Lett 1986; 1 (7) :347-53.


1985

Slater GW, Noolandi J. New biased-reptation model for charged polymers. Phys Rev Lett 1985; 55 (15) :1579-82.

Slater GW, Noolandi J. Prediction of chain elongation in the reptation theory of DNA gel electrophoresis. Biopolymers 1985; 24 (12) :2181-4.

Contact       ||       Gary Slater : gslater@uottawa.ca       ||