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17. Kim, J.H., N.A. Graham and A.R. Asthagiri. "Spatial growth dynamics of epithelial cell populations: the interplay between biochemical and biophysical pathways", in preparation.

16. Pope, M.D., N.A. Graham, B.K. Huang and A.R. Asthagiri (2008). "Automated quantitative analysis of epithelial cell scatter", Cell Adhesion and Migration, in press.

15. Giurumescu, C.A. and A.R. Asthagiri. "Signal processing and integration during development" in Systems Biology. Editors: D. A. Lauffenburger, E. Liu and G.P. Nolan. Academic Press, in preparation.

14. Giurumescu, C.A., P.W. Sternberg and A.R. Asthagiri. "In silico genetics: a computational framework for predicting the effects of genetic perturbations on developmental patterning", under review.

13. Graham, N.A., M.D. Pope, J.H. Kim and A.R. Asthagiri. "Convergence of EGF- and Wnt-mediated b-catenin signaling", in preparation.

12. Giurumescu, C.A. and A.R. Asthagiri (2008). "Signal processing during developmental multicellular patterning", Biotech. Prog., in press.

11. Graham, N.A., M.D. Pope, T. Rimchala, B.K. Huang and A.R. Asthagiri (2007). "A high-throughput assay for quantifying protein-protein interactions involved in cell-cell adhesion", Journal of Biomolecular Screening, 12:683-693.

10. Galownia, N.C. and A.R. Asthagiri (2007). "Selective desensitization of growth factor signaling by cell adhesion to fibronectin", The Journal of Biological Chemistry, 282:21758-21766.

9. Giurumescu, C.A., P.W. Sternberg and A.R. Asthagiri (2006) "Intercellular coupling amplifies fate segregation during C. elegans vulval development", Proc. Natl. Acad. Sci., USA, 103:1331-1336.

8. Richman, G.R., D.A. Tirrell and A.R. Asthagiri (2005) "Quantitatively distinct requirements for signaling-competent cell spreading on engineered versus natural adhesion ligands." J. Controlled Release, 101:3-12.

7. Graham, N.A. and A.R. Asthagiri (2004) "EGF-mediated Tcf/Lef transcriptional activity is essential, but not sufficient, for cell cycle progression in non-transformed mammary epithelial cells." The Journal of Biological Chemistry, 279: 23517-23524.

6. Chapman, S. and A.R. Asthagiri (2004) "Resistance to signal activation governs design features of the MAP kinase signaling module." Biotechnology and Bioengineering, 85:311-322.

5. Asthagiri, A.R. and D.A. Lauffenburger (2001) "A computational study of feedback effects on signal dynamics in a mitogen-activated protein kinase (MAPK) pathway model." Biotechnology Progress, 17:227-239.

4. Asthagiri, A.R., C.A. Reinhart, A.F. Horwitz, and D.A. Lauffenburger (2000) "The role of transient ERK2 signals in fibronectin- and insulin-mediated DNA synthesis." Journal of Cell Science, 113:4499-4510.

3. Asthagiri, A.R. and D.A. Lauffenburger (2000) "Bioengineering models of cell signaling." Annual Review of Biomedical Engineering, 2:31-53.

2. Asthagiri, A.R., C.M. Nelson, A.F. Horwitz, and D.A. Lauffenburger (1999) "Quantitative relation between integrin-ligand binding, adhesion, and signaling via focal adhesion kinase (FAK) and extracellular-signal regulated kinase 2 (ERK2)." The Journal of Biological Chemistry, 274: 27119-27127.

1. Asthagiri, A.R., A.F. Horwitz, and D.A. Lauffenburger (1999) "A rapid and sensitive quantitative kinase activity assay using a convenient 96-well format." Analytical Biochemistry, 269: 342-347.