Publications

Goyal S, Lillian T, Wilson D, Meyhöfer E, Meiners J-C, Perkins N. Sensitivity of DNA looping to sequence-dependent stiffness. In: BIOPHYSICAL JOURNAL. BIOPHYSICAL SOCIETY 9650 ROCKVILLE PIKE, BETHESDA, MD 20814-3998 USA; 2007. p. 415A–415A.

Wilson DP, Lillian TD, Goyal S, Perkins NC, Tkachenko A, Meiners JC. Modeling the entropic cost of DNA looping. In: Biophysical Journal. BIOPHYSICAL SOCIETY 9650 ROCKVILLE PIKE, BETHESDA, MD 20814-3998 USA; 2007. p. 540A–540A.

Goyal S, Perkins NC. Nonlinear dynamic strand model with coupled tension and torsion. Arxiv preprint physics/0702201. 2007.

Goyal S, Perkins NC. Modeling of Cables with High and Low Tension Zones using a Hybrid Rod-Catenary Formulation. arXiv preprint physics/0702224. 2007.

Goyal S, Lillian T, Blumberg S, Meiners J-C, Meyhöfer E, Perkins N. Intrinsic curvature of DNA influences LacR-mediated looping. Biophysical Journal. 2007;93(12):4342–4359.

Goyal S, Gramada A, Bishop TC. Development of a coarse grain model of the nucleosome. In: JOURNAL OF BIOMOLECULAR STRUCTURE & DYNAMICS. Vols. 24. ADENINE PRESS 2066 CENTRAL AVE, SCHENECTADY, NY 12304 USA; 2007. pp. 623–623.

Lillian TD, Goyal S, Perkins NC, Meiners J-C, Kahn JD. Computational rod theory predicts experimental characteristics of DNA looping by the Lac repressor. Biophysical Journal. 2007.

Lillian TD, Perkins N, Goyal S. Computational elastic rod model applied to DNA looping. In: International Design Engineering Technical Conferences and Computers and Information in Engineering Conference. Vols. 4806. 2007. pp. 1449–1456.

Goyal S, Lillian T, Perkins NC, Meyhöfer E. Cable dynamics applied to long-length scale mechanics of DNA. arXiv preprint physics/0702197. 2007.

Goyal S. A dynamic rod model to simulate mechanics of cables and DNA. 2006.