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  37. Bibeau J.P., and Vidali, L (2014) Morphological analysis of cell growth mutants in Physcomitrella. Methods in Molecular Biology 1080:201-213. (No videos)

36. Furt, F., Liu, Y-C., Bibeau, J.P., Tüzel, E. Vidali, L. (2013) Apical myosin XI anticipates F-actin during polarized growth of Physcomitrella patens cells. Plant Journal. 73:417-428.


33. Furt, F., Lemoi K, Tüzel, E., and Vidali, L. (2012) Quantitative analysis of organelle distribution and dynamics in Physcomitrella patens protonemal cells. BMC Plant Biology. 12:70.  


32. Augustine,R.C, Pattavina, K.A., Tüzel, E., Vidali,L., and Bezanilla, M. (2011) Actin interacting protein 1 and actin depolymerizing factor drive rapid actin dynamics. Plant Cell. 23:3696-3710. 


31. Liu, Y-C., and Vidali, L. (2011) Efficient polyethylene glycol (PEG) mediated transformation in the moss Physcomitrella patensJournal of Visualized Experiments. 50:2560. 


30. Vidali, L., Burkart,G., Augustine, R.C., Kerdavid, E., Tüzel, E., and Bezanilla, M. (2010) Myosin XI is essential for tip growth. PlantCell. 22:1868-1882.


29. McKenna, S.T., Kunkel, J.G., Bosch, M., Rounds,C. Vidali, L., Winship, L.J., andHepler, P.K. (2009) Exocytosisprecedes and predicts the increase in growth in oscillating pollen tubes. PlantCell. 21: 3026-3040. 


27. Vidali, L., van Gisbergen, P.A., Guerin, C., Franco, P., Li,M., Burkart, G.M., Augustine, R.C., Blanchoin, L., and Bezanilla, M. (2009) Rapid formin-mediated actin-filamentelongation is essential for polarized plant cell growth. Proc. Natl. Acad. Sci. U S A. 106:13341-13346. 


26. Vidali, L., Rounds,C., Hepler, P.K. and Bezanilla, M. (2009) Lifeact-mEGFP reveals a dynamicapical F-actin network in tip growing plant cells. PLoS One 4:e5744. 

  25. Meller, J., Vidali, L., and Schwartz, M.A. (2008) Endogenous RhoG is dispensable for integrin-mediated cell spreading but contributes to Rac-independent migration. J. Cell Sci. 121:1981-1989. (Website's supplementary materials page won't load)

 24. Augustine, R.C., Vidali, L., Kleinman, K.P., and Bezanilla, M. (2008) Actin depolymerizing factor is essential for viability in plants, and its phosphoregulation is important for tip growth. Plant Journal 55:863-875. (No videos)
  23. Herrera-Abreu, M.T.,  Castellanos-Penton, P. , Kwok, V., Shalloway, D., Vidali, L., Lee, W. McCulloch, C.A., and Downey, G.P. (2007) Tyrosine phosphatase PTP regulates focal adhesion remodeling through Rac1 activation. Am. J. Physiol. Cell Physiol. 294:C931-C944. (No videos)


22. Vidali, L., Augustine, R.C., Kleinman, K.P., and Bezanilla, M. (2007) Profilin is essential for tip growth in the moss Physcomitrella patensPlantCell 19:3705-3722. (Website's supplemental data page won't load)

  21. Feng, Y., Chen, M.H., Moskowitz, I.P, Mendonza, A.M., Vidali, L., Nakanura, F., Kwiatkowski, D.J., and Walsh, C.A. (2006) Filamin A (FLNA) is required for cell-cell contact in vascular development and cardiac morphogenesis. Proc. Natl. Acad. Sci. U.S.A. 103:19836-19841. (No videos)

20. Vidali, L., Chen, F., Cicchetti, G.,Ohta, Y., and Kwiatkowski, D.J. (2006) Rac1-null mouse embryonic fibroblasts are motile and respond to platelet-derived growth factor. Mol. Bio. Cell 17:2377-2390

  19. McKenna, S.T., Vidali, L., and Hepler, P.K. (2004) Profilin inhibits pollen tube growth through actin-binding, but not poly-L-proline-binding. Planta 218:906-915. (No videos)
  18. Yokota, E., Vidali, L., Tominaga, M., Tahara, H., Orii, H., Morizane, Y., Hepler, P.K., and Shimmen, T. (2003) Plant 115-kDa-actin-filament-bundling protein, P-115-ABP, is a homologue of plant villin and is widely distributed in cells. Plant Cell Physiol. 44:1088-1099. (No videos)
  17. Valster, A., Vidali, L., and Hepler, P.K. (2003) Nuclear localization of profilin during the cell cycle in living Tradescantia virginiana stamen hair cells. Protoplasma 222: 85-95. (No videos)
  16. Chen, C.Y., Wong, .Y., Vidali, L., Estavillo, A., Hepler, P.K., Wu, H-M., and Cheung, A.Y. (2002) The regulation of actin organization by actin-depolymerizing factor in elongating pollen tubes. Plant Cell14:2175-2190. (Website's supplemental data page won't load)
  15. Cheung, A.Y., Chen, C.Y-h., Glaven R.H., de Graaf, B., Vidali, L., Hepler, P.K., and Wu, H-m. (2002) Rab2 GTPase regulates vesicle trafficking between the endoplasmic reticulum and the Golgi bodies and is important in pollen tubes growth. Plant Cell 14:945-962. (Website's supplemental data page won't load)
  14. Hepler, P.K., Vidali, L., and Cheung, A.Y. (2001) Polarized cell growth in higher plants. Annu. Rev. Cell Dev. Biol. 17:159–187. (No videos)

13. Vidali, L., and Hepler, P.K. (2001)Actin and pollen tube growth. Protoplasma 215:64-67. (No videos)


12. Vidali, L., McKenna, S.T. and Hepler,P.K. (2001) Actin polymerization is essential for pollen tube growth. Mol.Biol. Cell 12: 2534-2545

  11. Vidali, L., Holdaway-Clarke, T.L., and Hepler, P.K. (2001) The calcium/cytoskeleton connection in pollen tube growth. In: A. Geitmann, M. Cresti and I.B. Heath (eds) Cell Biology of Plant Fungal Tip growth. IOS Press. Amsterdam, Netherlands, pp 27-35. (Can't access article without subscription)
  10. Pflügl-Hill, M., Vidali, L., Vos, J.W., Hepler, P.K., and Lütz-Meindl, U. (2000) Changes of the actin filament system in the green alga Micrasterias induced by different cytoskeleton inhibitors. Protoplasma 212: 206-216. (No videos)
  9. Vidali, L., and Hepler, P.K. (2000) Actin in pollen and pollen tubes. In: C. J. Staiger, F. Baluska, D. Volkmann and P. Barlow (eds) Actin: A Dynamic Framework for Multiple Plant Cell Functions. Kluwer Acad. Pub., Dordrecht, The Netherlands, pp 323-345. (No videos)
  8. Tominaga, M., Yokota, E., Vidali, L., Sonobe, S., Hepler, P.K., and Shimmen, T. (2000) The role of plant villin in the organization of the actin cytoskeleton, cytoplasmic streaming and the architecture of the transvacuolar strand in root hair cells of HydrocharisPlanta 210: 836-843. (No videos)
  7. Guillén, G. Valdés-López, V. Noguez, R. Olivares, J. Rodríguez-Zapata, L.C., Pérez, H. Vidali, L. Villanueva, M.A. and Sánchez, F. (1999) Profilin in Phaseolus vulgaris is encoded by two genes (only one expressed in root nodules) but multiple isoforms are generated in vivo by phosphorylation on tyrosine residues. Plant Journal 19: 497-508. (No videos)
  6. Igarashi, H., Vidali, L., Yokota, E., Sonobe, S., Hepler, P.K., and Shimmen, T. (1999) Actin filaments purified from tobacco cultured BY-2 cells can be translocated by plant myosin. Plant Cell Physiol40: 1167-1171. (No videos)

5. Vidali, L.,Yokota, E., Cheung, A.Y., Shimmen, T., and Hepler, P.K. (1999) The 135 kDa actin-bundling protein from Lilium longiflorum pollen is the plant homologue of villin. Protoplasma 209: 283-291 (No videos)

  4. Cárdenas, L., Vidali, L., Domínguez, J., Pérez, H., Sánchez, F., Hepler, P., and Quinto, C. (1998) Rearrangement of actin microfilaments in plant root hairs responding to Rhizobium nodulation signals. Plant Physiol. 116:871-877. (No videos)

3. Vidali, L., and Hepler, P.K. (1997) Characterization and localization of profilin in pollen grains and tubes of Lilium longiflorum. Cell Motil. Cytoskeleton 36:323-338. (No videos)


2. Vidali, L., Pérez, H.E., Valdés, V.,Noguez, R., Zamudio, F., and F. Sánchez, F. (1995) Purification,characterization and cDNA cloning of profilin from Phaseolus vulgaris. Plant Physiol. 108:115-123. (No videos)

  1. Pérez, HE., Sánchez, N., Vidali, L., Hernández, J.M. Lara, M. and Sánchez, F. (1994) Actin isoforms in non-infected roots and symbiotic root-nodules of Phaseolus vulgaris L. Planta 193:51-56.  (No videos)