Biomedical Engineering Reference
In-Depth Information
9. Geard, N., Wiles, J.: A gene network model for developing cell lineages. Artif. Life,
11
,(3),
249-268 (2005)
10. Arkin,A., Ross,J., McAdams, H.H.: Stochastic kinetic analysis of developmental pathway
bifurcation in phage lambda-infected escherichia coli cells. Genet.
49
, 1633-1648 (1998)
11. Faisal, S., Lichtenberg, G., Werner, H.: Canalizing Zhegalkin polynomials as models for
gene expression time series data. Engineering of Intelligent Systems, 2006 IEEE International
Conference on. IEEE, pp. 1-6. (2006)
12. Faisal, S., Lichtenberg, G., Werner, H.: An approach using Zhegalkin polynomials for mod-
elling microarray timeseries data of eucaryotes. Proceedings of International Conference on
Systems Biology. p. 312. (2004)
13. Stone, M.H.: The theory of representation for Boolean algebras. Trans. American Math. Soc.
40
(1), 37-111 (1936)
14. Dhaeseleer, P., Liang, S., Somogyi, R.: Gene expression data analysis and modeling. Pacific.
Symp. Biocomput. 99, (1999)
15. Zien, A., Aigner, T., Zimmer, R., Lengauer, T.: Centralization: a new method for the
normalization of gene expression data. Bioinfor.
17
(1) 323-331 ( 2001)
16. Faryabi, B., Chamberland, J.-F., Vahedi, G., Datta, A., Dougherty, E.R.: Optimal intervention
in asynchronous genetic regulatory networks. IEEE J. Sel. Top. Signal. Process.
2
(3), 412-423
(2008)
17. Bittner, M. et al.: Molecular classification of cutaneous malignant melanoma by gene
expression profiling. Nature.
406
(3), 536-540 (2000)
18. Datta, A., Dougherty, E.R.: Introduction to Genomic Signal Processing with Control. CRC
Press, (2007)
19. Xiao, Y., Dougherty, E.R.: The impact of function perturbations in Boolean networks.
Bioinforma.
23
(10), 1265-1273 (2007)