Publications

Submitted
N. Hao, Behar, M., Parnell, S. C., Torres, M. P., Borchers, C. H., Elston, T. C., and Dohlman, H. G., “(2007),” A Systems-Biology Analysis of Feedback Inhibition in the Sho1 Osmotic-Stress-Response Pathway, Curr Biol, vol. 17, pp. 659–667, Submitted.
N. Hao, Nayak, S., Behar, M., Shanks, R., Nagiec, M., Errede, B., Hasty, J., Elston, T. C., and Dohlman, H. G., “(2007),” Regulation of cell signaling dynamics by the protein kinase-scaffold {Ste}5, {Mol} {Cell}, vol. 30, pp. 649–56, Submitted.
M. Behar, Dohlman, H. G., and Elston, T. C., “(2007),” Kinetic insulation as an effective mechanism for achieving pathway specificity in intracellular signaling networks, {PNAS}, vol. 104, pp. 16146–16151, Submitted.
M. Behar, Hao, N., Dohlman, H. G., and Elston, T. C., “(2007),” Mathematical and {Computational} {Analysis} of {Adaptation} via {Feedback} {Inhibition} in {Signal} {Transduction} {Pathways}, {Biophys} {J}, vol. 93, pp. 806–821, Submitted.
N. Hao, Behar, M., Elston, T. C., and Dohlman, H. G., “(2007),” Systems biology analysis of {G} protein and {MAP} kinase signaling in yeast, {Oncogene}, vol. 26, pp. 3254–3266, Submitted.
M. Behar, Hao, N., Shanks, R., Dohlman, H. G., and Elston, T. C., (2008). Dose-to-duration encoding and signaling beyond saturation in intracellular signaling networks, {PLoS} {Comput}. {Biol}. 4:e1000197, Submitted.
B. M. and Hoffmann, A., “(2010),” Understanding the Temporal Codes of Intra-Cellular Signals, Curr Opin Genet Dev, vol. 20, pp. 684–93, Submitted.
S. �felbauer B., Polley, S., Behar, M., Ghosh, G., and Hoffmann, A., (2011). NEMO ensures signaling specificity of the pleiotropic {IKKb} by directing its kinase activity towards {IkBa}, {Mol} {Cell} 13;47(1):111-21, Submitted.
J. M., Errede, B., Behar, M., Mather, W., Nayak, S., Hasty, J., Dohlman, H. G., and Elston, T., “(2011),” Saccharomyces cerevisiae dynamically modifies pheromone gradients to achieve better mating efficiency, {Sci} {Signal}, Submitted.
B. S., Behar, M., and Hoffmann, A., “(2012),” Lessons from modeling the {NFkB} pathway, {Immunol} {Rev}, vol. 246, pp. 221–38, Submitted.
M. SP, M, B., HA, B., A, H., PE, W., and others,(2013),” Analysis of the {RelA}:CBP/p300 Interaction Reveals {NF}-κB-Driven Transcription, {PLoS} Biol, Submitted.
B. M and Hoffmann, A., “(2103) Tunable Signal Processing through a kinase control cycle: the IKK signaling node,” Biophys. J, vol. 105, pp. 231–41, Submitted.
2014
S. H*, M*, B., K, I., M, H., T, Y., T, N., S, K., H, S., S, M., N, Y., S, K., S, A., Y, S., A, H., T, K., and M, O. - H., “Positive Feedback Within a Kinase Signaling Complex Functions as a Switch Mechanism for NF-κB Activation, Science,” 344, pp. 24833394., 2014.
2013
B. M, D., B., Werner, S. L., and A., H., “The Dynamics of Signaling as a Pharmacological Target, Cell,” 155, pp. 24120141., 2013.