Inducción de respuestas de defensa en la interacción planta ...
Inducción de respuestas de defensa en la interacción planta ... Inducción de respuestas de defensa en la interacción planta ...
Referencias 41 43. Baker, C. J. y Orlandi, E. W. Active oxygen in plant pathogenesis. Annu. Rev. Phytopathol., 1995, vol. 33, p. 299-321. 44. Doke, N. Involvement of superoxide anion generation in hypersensitive response of potato tuber tissues to infection with an incompatible race of Phytophthora infestans. Physiol. Plant Pathol., 1983, vol. 23, p. 345-347. 45. Staskawicz, B. J.; Ausubel, F. M.; Baker, B. J.; Ellis, J. G. y Jones, J. D. G. Molecular genetics of plant disease resistance. Science. 1995, vol. 268, p. 661-667. 46. Bonas, U.; Stall, R. E. y Straskawicz, B. Genetic and structural characterization of the avirulence gene avrBs3 from Xanthomona campestri pv. Vesicatoria.. Mol. Gen. Genet., 1989, vol. 218, p. 127-136. 47. Flor, H. H. Current status of the gene-for-gene concept. Annu. Rev. Phytopathol., 1971, vol. 9, p. 275. 48. Bonfante, P. y Perotto, S. Outside and inside the roots: cell-cell interactions among arbuscular mycorrhizal fungi, bacteria and host plants. En: Current Advances in Mycorrhizae Research. Section V: Ultrastructural changes during mycorrhizal symbiosis. (eds) Podilla and Douds, APS Press USA, 2000, p. 141-156. 49. Xie, Z. P.; Staehelin, C.; Vierheilig, H.; Wiemken, A.; Jabbouri, S.; Broughton, W. J.; Vogeli-lange, R. y Boller, T. Rhyzobial nodulation factors stimulate mycorrhizal colonization of nodulating and non- nodulating soybeans. Plant Physiol., 1995, vol. 108, p. 1519-1525. 50. Peretto, R.; Bittini, V.; Favaron, F.; Alghisi, P. y Bonfante, P. Polygalacturonase activity and location in arbuscular mycorrhizal roots of A. porrum L. Mycorrhiza, 1995, vol. 5, p. 157-163. 51. Hahn, M. G.; Bucheli, P.; Cervone, F.; Doares, S. H.; O’Neill, R. A.; Darvill, A. y Albersheim, P. The role of cell wall constituents in plant pathogen interactions. En: Plant-Microbe Interactions. Nester E., Kosuge, T. Eds. New York: McGraw Hill, 1989, vol. 131-181. 52. García-Garrido, J. M.; García-Romero, J. y Ocampo, J. A. Cellulase productio by the vesicular arbuscular mycorrhizal fungus Glomus mosseae. New Phytol., 1992, vol. 121, p. 221-226. 53. Bago, B.; Azcón-Aguilar, C.; Goulet, A. y Piché, Y. Branched absorbing structures (BAS): a feature of the extraradical mycelium of symbiotic arbuscular mycorrhizal fungi. New Phytol., 1998, vol. 139, p. 375-388. 54. Smith, S. E. y Smith, F. A. Structure and function of the interfaces in biotrophic symbiosis as they relate to nutrient transport. New Phytol., 1990, vol. 114, p. 1-38. 55. Mohr, U.; Lange, J.; Boller, T.; Wiemken, A. y Vögeli-Lange, R. Plant defence genes are induced in the pathogenic interaction between bean roots and Fusarium solani, but not in the symbiotic interaction with the
Referencias 42 arbuscular mycorrhizal fungus Glomus mosseae. New Phytol., 1998, vol. 138, p. 589-598. 56. Harrison, M. J. y Dixon, R. A. Spatial pattern of expression of flavonoid/Isoflavonoid pathway genes during the interaction between roots of Medicago truncatula and the mycorrhizal fungus Glomus versiforme. Plant J., 1994, vol. 6, p. 9-20. 57. Volpin, H.; Elkind, Y.; Okon, Y. y Kapulnik, Y. A vesicular arbuscular mycorrhizal fungus (G. intraradix) induces a defense response in alfalfa roots. Plant Physiol., 1994, vol. 104, p. 683-689. 58. Dixon, R. A. y Harrison, M. J. Activation, structure and organization of genes involved in microbial defense in plants. Advances in Genetics, 1990, vol. 28, p. 65-234. 59. Vierhelig, H.; Bago, B.; Albrecht, C.; Poulin, M. J. y Piché, Y. Flavonoids and arbuscular-mycorrhizal fungi: Flavonoids in the living system. (eds) Manthey and Buslig. Plenum Press. N. Y. 1998. p. 9-33. 60. Volpin, H.; Phillips, D. A.; Okon, Y. y Kapulnik, Y. Suppression of an Isoflavonoid phytoalexin defense response in mycorrhizal alfalfa roots. Plant Physiol., 1995, vol. 108, p. 1449-1454. 61. Harrison, M. J. y Dixon, R. A. Isoflavonoid accumulation of expression of defense gene transcripts during the establishment of vesicular-arbuscular mycorrhizal associations in roots of Medicago truncatula. Mol. Plant- Microbe. Interact., 1993, vol. 6, p. 643-654. 62. Balaji, B.; Poulin, M. J.; Vierhelig, H. y Piché Y.. Responses of an arbuscular mycorrhizal fungus, Gigaspora margarita, to exudates and volatiles from the R, T-DNA-transformed rots of nonmycorrhizal and mycorrhizal mutants of Pisum sativum L. Sparkle. Experimental Mycology, 1995, vol. 19, p. 275-283. 63. Becárd, G.; Douds, D. D. y Pfeffer, P. Extensive in vitro hyphal growth of vesicular-arbuscular mycorrhizal fungi in the presence of CO2 and flavonols. Appl. Environ Microbiol., 1992, vol. 58, p. 821-825. 64. Morandi, D.; Brazoti, B. y Gianinazi-Pearson, V. Gianinazzi-Pearson. Effect of the plant flavonoids on in vitro bahavior of an AMF. Agronomie, 1992, vol. 12, p. 811-816. 65. Becárd, G.; Taylor, L. P.; Douds, D. D.; Pfeffer, P. y Doner, I. W. Flavonoids are not necessary plant signal compounds in arbuscular mycorrhizal symbioses. Mol. Plant Microbe Interact., 1995, vol. 8, p. 252- 258. 66. Spanu, P.; Boller, T.; Ludwiwg, A.; Wiemken, A.; Faccio, A. y Bonfante- Fasolo, P. Chitinase in mycorrhizal Allium porrum: regulation and localization. Planta, 1989, vol. 177, p. 447-455.
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Refer<strong>en</strong>cias 41<br />
43. Baker, C. J. y Or<strong>la</strong>ndi, E. W. Active oxyg<strong>en</strong> in p<strong>la</strong>nt pathog<strong>en</strong>esis. Annu.<br />
Rev. Phytopathol., 1995, vol. 33, p. 299-321.<br />
44. Doke, N. Involvem<strong>en</strong>t of superoxi<strong>de</strong> anion g<strong>en</strong>eration in hypers<strong>en</strong>sitive<br />
response of potato tuber tissues to infection with an incompatible race of<br />
Phytophthora infestans. Physiol. P<strong>la</strong>nt Pathol., 1983, vol. 23, p. 345-347.<br />
45. Staskawicz, B. J.; Ausubel, F. M.; Baker, B. J.; Ellis, J. G. y Jones, J. D.<br />
G. Molecu<strong>la</strong>r g<strong>en</strong>etics of p<strong>la</strong>nt disease resistance. Sci<strong>en</strong>ce. 1995, vol. 268,<br />
p. 661-667.<br />
46. Bonas, U.; Stall, R. E. y Straskawicz, B. G<strong>en</strong>etic and structural<br />
characterization of the avirul<strong>en</strong>ce g<strong>en</strong>e avrBs3 from Xanthomona campestri<br />
pv. Vesicatoria.. Mol. G<strong>en</strong>. G<strong>en</strong>et., 1989, vol. 218, p. 127-136.<br />
47. Flor, H. H. Curr<strong>en</strong>t status of the g<strong>en</strong>e-for-g<strong>en</strong>e concept. Annu. Rev.<br />
Phytopathol., 1971, vol. 9, p. 275.<br />
48. Bonfante, P. y Perotto, S. Outsi<strong>de</strong> and insi<strong>de</strong> the roots: cell-cell interactions<br />
among arbuscu<strong>la</strong>r mycorrhizal fungi, bacteria and host p<strong>la</strong>nts. En: Curr<strong>en</strong>t<br />
Advances in Mycorrhizae Research. Section V: Ultrastructural changes during<br />
mycorrhizal symbiosis. (eds) Podil<strong>la</strong> and Douds, APS Press USA, 2000,<br />
p. 141-156.<br />
49. Xie, Z. P.; Staehelin, C.; Vierheilig, H.; Wiemk<strong>en</strong>, A.; Jabbouri, S.;<br />
Broughton, W. J.; Vogeli-<strong>la</strong>nge, R. y Boller, T. Rhyzobial nodu<strong>la</strong>tion<br />
factors stimu<strong>la</strong>te mycorrhizal colonization of nodu<strong>la</strong>ting and non-<br />
nodu<strong>la</strong>ting soybeans. P<strong>la</strong>nt Physiol., 1995, vol. 108, p. 1519-1525.<br />
50. Peretto, R.; Bittini, V.; Favaron, F.; Alghisi, P. y Bonfante, P.<br />
Polyga<strong>la</strong>cturonase activity and location in arbuscu<strong>la</strong>r mycorrhizal roots of A.<br />
porrum L. Mycorrhiza, 1995, vol. 5, p. 157-163.<br />
51. Hahn, M. G.; Bucheli, P.; Cervone, F.; Doares, S. H.; O’Neill, R. A.;<br />
Darvill, A. y Albersheim, P. The role of cell wall constitu<strong>en</strong>ts in p<strong>la</strong>nt<br />
pathog<strong>en</strong> interactions. En: P<strong>la</strong>nt-Microbe Interactions. Nester E., Kosuge,<br />
T. Eds. New York: McGraw Hill, 1989, vol. 131-181.<br />
52. García-Garrido, J. M.; García-Romero, J. y Ocampo, J. A. Cellu<strong>la</strong>se<br />
productio by the vesicu<strong>la</strong>r arbuscu<strong>la</strong>r mycorrhizal fungus Glomus mosseae.<br />
New Phytol., 1992, vol. 121, p. 221-226.<br />
53. Bago, B.; Azcón-Agui<strong>la</strong>r, C.; Goulet, A. y Piché, Y. Branched absorbing<br />
structures (BAS): a feature of the extraradical mycelium of symbiotic<br />
arbuscu<strong>la</strong>r mycorrhizal fungi. New Phytol., 1998, vol. 139, p. 375-388.<br />
54. Smith, S. E. y Smith, F. A. Structure and function of the interfaces in<br />
biotrophic symbiosis as they re<strong>la</strong>te to nutri<strong>en</strong>t transport. New Phytol., 1990,<br />
vol. 114, p. 1-38.<br />
55. Mohr, U.; Lange, J.; Boller, T.; Wiemk<strong>en</strong>, A. y Vögeli-Lange, R. P<strong>la</strong>nt<br />
<strong>de</strong>f<strong>en</strong>ce g<strong>en</strong>es are induced in the pathog<strong>en</strong>ic interaction betwe<strong>en</strong> bean roots<br />
and Fusarium so<strong>la</strong>ni, but not in the symbiotic interaction with the