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Buey, R. M., Barasoain, I., Jackson, E., Meyer, A., Giannakakou, P., Paterson, I., et al.
(2005). Microtubule interactions with chemically diverse stabilizing agents: Thermody-
namics of binding to the paclitaxel site predicts cytotoxicity. Chemistry & Biology , 12 ,
1269-1279.
Buey, R. M., Calvo, E., Barasoain, I., Pineda, O., Edler, M. C., Matesanz, R., et al. (2007).
Cyclostreptin binds covalently to microtubule pores and luminal taxoid binding sites.
Nature Chemical Biology , 3 , 117-125.
Buey, R. M., D´az, J. F., Andreu, J. M., O'Brate, A., Giannakakou, P., Nicolaou, K. C., et al.
(2004). Interaction of epothilone analogs with the paclitaxel binding site: Relationship be-
tween binding affinity, microtubule stabilization, and cytotoxicity. Chemistry & Biology ,
11 , 225-236.
Calvo, E., Barasoain, I., Matesanz, R., Pera, B., Camafeita, E., Pineda, O., et al. (2012).
Cyclostreptin derivatives specifically target cellular tubulin and further map the paclitaxel
site. Biochemistry , 51 , 329-341.
D´az, J. F., & Andreu, J. M. (1993). Assembly of purified GDP tubulin into microtubules
induced by taxol and taxotere—Reversibility, ligand stoichiometry, and competition.
Biochemistry , 32 , 2747-2755.
D ´ az, J. F., & Buey, R. M. (2007). Characterizing ligand-microtubule binding by
competition methods. In J. Zhou (Ed.), Microtubule protocols : Vol. 137 . (pp. 245-260).
Totowa, NJ: Humana Press.
D ´ az, J. F., Menendez, M., & Andreu, J. M. (1993). Thermodynamics of ligand-induced as-
sembly of tubulin. Biochemistry , 32 , 10067-10077.
Edler, M. C., Buey, R. M., Gussio, R., Marcus, A. I., Vanderwal, C. D., Sorensen, E. J., et al.
(2005). Cyclostreptin (FR182877), an antitumor tubulin-polymerizing agent deficient in
enhancing tubulin assembly despite its high affinity for the taxoid site. Biochemistry ,
44 , 11525-11538.
Field, J. J., Pera, B., Calvo, E., Canales, A., Zurwerra, D., Trigili, C., et al. (2012). Zampano-
lide, a potent new microtubule-stabilizing agent, covalently reacts with the taxane luminal
site in tubulin a , b -heterodimers and microtubules. Chemistry & Biology , 19 , 686-698.
Field, J. J., Singh, A. J., Kanakkanthara, A., Halafihi, T., Northcote, P. T., & Miller, J. H.
(2009). Microtubule-stabilizing activity of zampanolide, a potent macrolide isolated from
the Tongan marine sponge Cacospongia mycofijiensis . Journal of Medicinal Chemistry ,
52 , 7328-7332.
Gaitanos, T. N., Buey, R. M., D´az, J. F., Northcote, P. T., Teesdale-Spittle, P., Andreu, J. M.,
et al. (2004). Peloruside A does not bind to the taxoid site on beta-tubulin and retains its
activity in multidrug-resistant cell lines. Cancer Research , 64 , 5063-5067.
Gottesman, M. M., Fojo, T., & Bates, S. E. (2002). Multidrug resistance in cancer: Role of
ATP-dependent transporters. Nature Reviews. Cancer , 2 , 48-58.
Nogales, E., Whittaker, M., Milligan, R. A., & Downing, K. H. (1999). High-resolution model
of the microtubule. Cell , 96 , 79-88.
Pera, B., Razzak, M., Trigili, C., Pineda, O., Canales, A., Buey, R. M., et al. (2010). Molecular
recognition of peloruside A by microtubules. The C24 primary alcohol is essential for
biological activity. ChemBioChem , 11 , 1669-1678.
Singh, J., Petter, R. C., Baillie, T. A., & Whitty, A. (2011). The resurgence of covalent drugs.
Nature Reviews. Drug Discovery , 10 , 307-317.
Zurwerra, D., Gertsch, J., & Altmann, K.-H. (2010). Synthesis of ( )-dactylolide and
13-desmethylene-( )-dactylolide and their effects on tubulin. Organic Letters , 12 ,
2302-2305.
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