Cell News // 02 // 2013 - page 42

physics of cancer
11. Paszek, M. J., Zahir, N., Johnson, K. R., Lakins, J. N., Rozenberg, G. I., Gefen, A., Reinhart-
King, C. A., Margulies, S. S., Dembo, M., Boettiger, D., Hammer DA, and Weaver V. M. 2005.
Tensional homeostasis and the malignant phenotype. Cancer Cell 8, 241-54.
12. Guck J, Schinkinger S, Lincoln B, Wottawah F, Ebert S, Romeyke M, Lenz D, Erickson HM,
Ananthakrishnan R, Mitchell D, Käs J, Ulvick S, and Bilby C. 2005. Optical deformability as
an inherent cell marker for testing malignant transformation and metastatic competence.
Biophys J. 88, 3689-3698.
13. Hanahan D, and Weinberg RA., 2000. "The Hallmarks of Cancer". Cell 100 (1), 57–70.
14. Hanahan D, and Weinberg RA. 2011. Hallmarks of cancer: the next generation. Cell
144(5), 646-674.
15. Mierke CT. 2013. Physical break-down of the classical view on cancer cell invasion and
metastasis. Eur J Cell Biol. 92(3), 89-104.
16. Geiger, B., Bershadsky, A., Pankov, R. and Yamada, K. M. 2001. Transmembrane crosstalk
between the extracellular matrix--cytoskeleton crosstalk. Nat Rev Mol Cell Biol 2, 793-805.
17. Zaidel-Bar, R., Ballestrem, C., Kam, Z. and Geiger, B. 2003. Early molecular events in the
assembly of matrix adhesions at the leading edge of migrating cells. J Cell Sci 116, 4605-13.
18. Ingber, D. E. 2003. Mechanobiology and diseases of mechanotransduction. Ann Med 35,
564-77.
19. Ingber, D. E. 2006. Cellular mechanotransduction: putting all the pieces together again.
Faseb J 20, 811-27.
20. Thery, M., Pepin, A., Dressaire, E., Chen, Y. and Bornens, M. 2006. Cell distribution of
stress fbres in response to the geometry of the adhesive environment. Cell Motil Cytoskele-
ton 63, 341-55.
21. Weis, S., Cui, J., Barnes, L. and Cheresh, D. (2004). Endothelial barrier disruption by
VEGF-mediated Src activity potentiates tumor cell extravasation and metastasis. J Cell Biol
167, 223-9.
22. Bauer K, Mierke C, Behrens J. 2007. Expression profling reveals genes associated with
transendothelial migration of tumor cells: a functional role for alphavbeta3 integrin. Int J
Cancer. 121, 1910-8.
23. Khuon, S., Liang, L., Dettman, R. W., Sporn, P. H., Wysolmerski, R. B. and Chew, T. L. 2010.
Myosin light chain kinase mediates transcellular intravasation of breast cancer cells through
the underlying endothelial cells: a three-dimensional FRET study. J Cell Sci 123, 431-40.
24. Morse D. Viscoelasticity of concentrated isotropic solutions of semi-fexible polymers.
1998. 1. model and stress tensor; 2. linear response. Macromolecules 31, 7030-7044.
25. Pollard TD, Blanchoin L, and Mullins RD. 2000. Molecular mechanisms controlling actin
flament dynamics in nonmuscle cells. Annu Rev Biophys Biomol Struct. 29, 545-76.
26. Pollard TD, and Borisy G. 2003. Cellular motility driven by assembly and disassembly of
actin flaments. Cell 112(4), 453-465.
27. Maly IV, and Borisy GG. 2001. Self-organization of a propulsive actin network as an
evolutionary process. Proc Natl Acad Sci USA. 98(20), 11324-11329.
28. Rafelski SM, and Theriot JA. 2004. Crawling toward a unifed model of cell mobility:
spatial and temporal regulation of actin dynamics. Annu Rev Biochem. 73, 209-239.
29. Fletcher DA, and Theriot JA. 2004. An introduction to cell motility for the physical sci-
entist. Phys Biol. 1(1-2), T1-10.
30. Mogilner A. 2006. On the edge: modeling protrusion. Curr Opin Cell Biol. 18(1), 32-39.
31. Li S, Guan JL, and Chien S. 2005. Biochemistry and biomechanics of cell motility. Annu
Rev Biomed Eng. 7, 105-150.
32. Carlier MF, Le Clainche C, Wiesner S. and Pantaloni D. 2003. Actin-based motility: from
molecules to movement. Bioessays. 25(4), 336-345.
33. Finer TJ, Simmons RM, and Spudich JA. 1994. Single myosin molecule mechanics: pico-
newton forces and nanometre steps. Nature 368, 113-119.
34. Pampaloni F, Lattanzi G, Jonas A, Surrey T, Frey E, and Florin EL. 2006. Thermal fuctu-
ations of grafted microtubules provide evidence of a length-dependent persistence length.
Proc Natl Acad Sci USA. 103(27),10248-10253.
35. Dogterom M, Kerssemakers JW, Romet-Lemonne G, Janson ME. 2005. Force generation
by dynamic microtubules. Curr Opin Cell Biol. 17(1), 67-74.
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