Browsing by Author "Matos, M."
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- Cryptogein and capsicein promote defence responses in Quercus suber against Phytophthora cinnamomi infectionPublication . Medeira, C.; Quartin, V.; Maia, I.; Diniz, I.; Matos, M.; Semedo, J.; Scotti Campos, P.; Ramalho, J. C.; Pais, Isabel P.; Ramos, P.; Melo, Eduardo P.; Leitao, A.; Cravador, A.The decline of cork oak (Quercus suber) stands in Iberian Peninsula is associated with infection by Phytophthora cinnamomi. Most Phytophthora species secrete elicitins, which can enhance defence reactions against some pathogens. Here cytological and physiological effects of the elicitins cryptogein and capsicein on cork oak root infection by P. cinnamomi were evaluated. The progression of the pathogen in root tissue and its effects on total fatty acid (TFA) composition of roots and leaves were analysed in seedlings. Net photosynthesis (P (n) ), stomatal conductance (g (s) ), chlorophyll a fluorescence measurements (quantum yield of linear electron transport I center dot (e) , photochemical quenching q (P,) non-photochemical quenching NPQ) and carotenoid determinations were carried out in well established (4 months) plants. In elicitin-treated roots, 2 days after inoculation, the pathogen which presented loss of viability and membrane degradation was mainly restricted to the intercellular spaces of the cortical parenchyma, and did not reach the vascular cylinder. Electron dense materials accumulated in the intercellular spaces of the cortex next to disorganized hyphae, suggested to be related with defence reactions. Cryptogein (or its interaction with P. cinnamomi) induced enhanced lipid synthesis in leaves, which may contribute to preserve membrane stability. P. cinnamomi decreased P (n) , g (s) , I center dot (e) , and q (P), whereas elicitin-treated plants displayed values similar to controls. Overall, the results indicated a resistance response of cork oak against this oomycete, induced by the elicitins.
- Molecular instability induced by aluminum stress in Plantago speciesPublication . Correia, S.; Matos, M.; Ferreira, V.; Martins, N.; Gonçalves, Sandra; Romano, Anabela; Pinto Carnide, O.Aluminum (Al) is one of the most abundant metals on earth's crust and Al toxicity represents one of the major factors that limit plant growth and productivity in acid soils (with a pH <= 5.0). In this study the mutagenic/genotoxic effects of Al were evaluated in roots and leaves of two Plantago, species, Plantago almogravensis and Plantago lagopus, using ISSRs markers. Both species were exposed to 400 mu M Al during 7 and 21 days. Ten ISSR primers produced polymorphic bands. In P. almogravensis, a total of 257 and 258 bands in roots and 255 and 265 bands in leaves were produced in the presence and absence of Al, respectively. In P. lagopus were produced 279 and 278 a total bands in roots and 275 and 274 bands in leaves, under the same conditions. The changes in ISSR profiles after Al treatment were considered as gain and/or loss of bands compared with the controls. The results suggest that changes in genomic template stability (GTS) could be detected with ISSR profiles. This molecular marker proved to be a good tool to detect the effects of Al on DNA profiles. It seems that Al did not interfere significantly with DNA integrity in both species but generated less ISSR stability in P. almogravensis than in P. lagopus. The results confirm the tolerance of P. almogravensis and suggest the same behavior of P. lagopus. Although further studies are required for confirmation the Al tolerance behavior of P. lagopus, a potential application for phytoremediation can be also considered due its wide distribution. (C) 2014 Elsevier B.V. All rights reserved.