1. - [1] Hartwell, L. H., Hopfield, J. J., Leibler, S., & Murray, A. W. (1999). From molecular to modular cell biology. Nature, 402, C47-C52.
2. - [2] Benenson, Y. (2012). Biomolecular computing systems: principles, progress and potential. Nature Reviews Genetics, 13(7), 455-468.
3. - [3] Xie, Z., Wroblewska, L., Prochazka, L., Weiss, R., & Benenson, Y. (2011). Multi-input RNAi-based logic circuit for identification of specific cancer cells. Science, 333(6047), 1307-1311.
4. - [4] Haefliger, B., Prochazka, L., Angelici, B., & Benenson, Y. (2016). Precision multidimensional assay for high-throughput microRNA drug discovery. Nature communications, 7.
5. - [5] Adleman, L. M. (1994). Molecular computation of solutions to combinatorial problems. Nature, 369, 40.
6. - [6] Church, G. M., Gao, Y., & Kosuri, S. (2012). Next-generation digital information storage in DNA. Science, 1226355.
7. - [7] Rinaudo, K., Bleris, L., Maddamsetti, R., Subramanian, S., Weiss, R., & Benenson, Y. (2007). A universal RNAi-based logic evaluator that operates in mammalian cells. Nature biotechnology, 25(7), 795-801.
8. - [8] Siegel, R. L., Miller, K. D., & Jemal, A. (2016). Cancer statistics, 2016. CA: a cancer journal for clinicians, 66(1), 7-30.
9. - [9] Van Cutsem, E., Cervantes, A., Adam, R., Sobrero, A., Van Krieken, J. H., Aderka, D., ... & Ciardiello, F. (2016). ESMO consensus guidelines for the management of patients with metastatic colorectal cancer. Annals of Oncology, 27(8), 1386-1422.
10. - [1] Forbes, N. S. (2010). Engineering the perfect (bacterial) cancer therapy. Nature Reviews Cancer, 10(11), 785-794.