TCB Publications - Search
10161. Combining in vitro and in silico single molecule force spectroscopy to characterize and tune cellulosomal scaffoldin mechanics. Tobias Verdorfer, Rafael C. Bernardi, Aylin Meinhold, Wolfgang Ott, Zaida Luthey-Schulten, Michael A. Nash, and Hermann E. Gaub. Journal of the American Chemical Society, 2017. In Press.
10155. Challenges of integrating stochastic dynamics and cryo-electron tomograms in whole-cell simulations. Tyler M. Earnest, Reika Watanabe, John E. Stone, Julia Mahamid, Wolfgang Baumeister, Elizabeth Villa, and Zaida Luthey-Schulten. Journal of Physical Chemistry B, 121:3871-3881, 2017.
10145. Genome-wide gene expression and RNA half-life measurements allow predictions of regulation and metabolic behavior in Methanosarcina acetivorans. Joseph R Peterson, ShengShee Thor, Lars Kohler, Petra RA Kohler, William W Metcalf, and Zaida Luthey-Schulten. BMC Genomics, 17:924, 2016.
10139. Noise contributions in an inducible genetic switch: a whole-cell simulation study. Elijah Roberts, Andrew Magis, Julio O Ortiz, Wolfgang Baumeister, and Zaida Luthey-Schulten. PLoS Computational Biology, 7:e1002010, 2011.
10138. Dna looping increases the range of bistability in a stochastic model of the lac genetic switch. Tyler M Earnest, Elijah Roberts, Michael Assaf, Karin Dahmen, and Zaida Luthey-Schulten. Physical Biology, 10:026002, 2013.
10137. Heterogeneity in protein expression induces metabolic variability in a modeled Escherichia coli population. Piyush Labhsetwar, John Andrew Cole, Elijah Roberts, Nathan D Price, and Zaida A Luthey-Schulten. Proceedings of the National Academy of Sciences, USA, 110:14006-14011, 2013.
10136. Towards a whole-cell model of ribosome biogenesis: Kinetic modeling of SSU assembly. Tyler M Earnest, Jonathan Lai, Ke Chen, Michael J Hallock, James R Williamson, and Zaida Luthey-Schulten. Biophysical Journal, 109:1117-1135, 2015. (DNA P41).
10135. Spatially-resolved metabolic cooperativity within dense bacterial colonies. John A Cole, Lars Kohler, Jamila Hedhli, and Zaida Luthey-Schulten. BMC Systems Biology, 9:15, 2015.
10133. Improving reaction kernel performance in lattice microbes: particle-wise propensities and run-time generated code. Michael J. Hallock and Zaida Luthey-Schulten. pp. 428-434. IEEE, 2016.
10124. Towards a computational model of a methane producing archaeum. Joseph R Peterson, Piyush Labhsetwar, Jeremy R Ellermeier, Petra R A Kohler, Ankur Jain, Taekjip Ha, William W Metcalf, and Zaida Luthey-Schulten. Archaea, 2014, 2014. (18 pages).
10123. Effects of dna replication on mrna noise. Joseph R. Peterson, John A. Cole, Jingyi Fei, Taekjip Ha, and Zaida A. Luthey-Schulten. Proceedings of the National Academy of Sciences, USA, 112:15886-15891, 2015.
10082. Simulation of reaction diffusion processes over biologically relevant size and time scales using multi-GPU workstations. Michael J. Hallock, John E. Stone, Elijah Roberts, Corey Fry, and Zaida Luthey-Schulten. Parallel Computing, 40:86-99, 2014.
10078. Lattice microbes: High-performance stochastic simulation method for the reaction-diffusion master equation. Elijah Roberts, John E. Stone, and Zaida Luthey-Schulten. Journal of Computational Chemistry, 34:245-255, 2013.
10039. Long time-scale simulations of in vivo diffusion using GPU hardware. Elijah Roberts, John E. Stone, Leonardo Sepulveda, Wen-mei W. Hwu, and Zaida Luthey-Schulten. In Proceedings of the IEEE International Parallel & Distributed Processing Symposium, pp. 1-8, 2009.
10004. Classical force field parameters for the heme prosthetic group of cytochrome c. F. Autenrieth, E. Tajkhorshid, J. Baudry, and Z. Luthey-Schulten. Journal of Computational Chemistry, 25:1613-1622, 2004.
680. Evaluation of emerging energy-efficient heterogeneous computing platforms for biomolecular and cellular simulation workloads. John E. Stone, Michael J. Hallock, James C. Phillips, Joseph R. Peterson, Zaida Luthey-Schulten, and Klaus Schulten. 2016 IEEE International Parallel and Distributed Processing Symposium Workshop (IPDPSW), pp. 89-100, 2016.
536. The role of L1 stalk-tRNA interaction in the ribosome elongation cycle. Leonardo G. Trabuco, Eduard Schreiner, John Eargle, Peter Cornish, Taekjip Ha, Zaida Luthey-Schulten, and Klaus Schulten. Journal of Molecular Biology, 402:741-760, 2010.
375. Role of water in transient cytochrome c2 docking. Felix Autenrieth, Emad Tajkhorshid, Klaus Schulten, and Zaida Luthey-Schulten. Journal of Physical Chemistry B, 108:20376-20387, 2004.
58. Proton conduction through proteins: An overview of theoretical principles and applications. Zan Schulten and Klaus Schulten. Methods in Enzymology, 127:419-438, 1986.
47. Model for the resistance of the proton channel formed by the proteolipid of ATPase. Zan Schulten and Klaus Schulten. European Biophysics Journal, 11:149-155, 1985.
42. An isomerization model for the pump cycle of bacteriorhodopsin. Klaus Schulten, Zan Schulten, and Paul Tavan. In L. Bolis, E. J. M. Helmreich, and H. Passow, editors, Information and Energy Transduction in Biological Membranes, pp. 113-131. Allan R. Liss, Inc., New York, 1984.
41. Generalized moment description of Brownian dynamics in biological systems. Klaus Schulten, Axel Brünger, Walter Nadler, and Zan Schulten. In E. Frehland, editor, Synergetics - From Microscopic to Macroscopic Order, pp. 80-89. Springer, 1984.
39. A network thermodynamic investigation of stationary and non-stationary proton transport through proteins. Axel Brünger, Zan Schulten, and Klaus Schulten. Zeitschrift für Physikalische Chemie, NF136:1-63, 1983.
31. Dynamics of reactions involving diffusive barrier crossing. Klaus Schulten, Zan Schulten, and Attila Szabo. Journal of Chemical Physics, 74:4426-4432, 1981.
28. First passage time approach to diffusion controlled reactions. Attila Szabo, Klaus Schulten, and Zan Schulten. Journal of Chemical Physics, 72:4350-4357, 1980.
26. Reactions governed by a binomial redistribution process. The Ehrenfest urn problem. Klaus Schulten, Zan Schulten, and Attila Szabo. Physica, 100A:599-614, 1980.
25. Proton conduction in linear hydrogen-bonded systems. Ernst-Walter Knapp, Klaus Schulten, and Zan Schulten. Chemical Physics, 46:215-229, 1980.
11. Theory of the magnetic field modulated geminate recombination of radical ion pairs in polar solvents: Application to the pyrene-N,N-dimethylaniline system. Hans-Joachim Werner, Zan Schulten, and Klaus Schulten. Journal of Chemical Physics, 67:646-663, 1977.
10. The generation, diffusion, spin motion, and recombination of radical pairs in solution in the nanosecond time domain. Zan Schulten and Klaus Schulten. Journal of Chemical Physics, 66:4616-4634, 1977.