Gina Brito scite author profile

We report here the successful micropropagation of adult Juniperus phoenicea L. with respective ploidy stability studies. Microcuttings with axillary buds were grown on five media supplemented with different growth regulator combinations. Best elongation rates were achieved on Driver and Kuniyuki (DKW) medium supplemented with kinetin alone or with naphthaleneacetic acid (NAA), while Rugini olive (OM) medium stimulated the development of new branches. Shoots growing on Murashige and Skoog (MS) medium browned and showed necrotic zones. Shoots of second to fourth subcultures usually had higher elongation rates than those of the first culture. For rooting assays, half strength DKW and OM media, different concentrations of growth regulators, auxin continuous exposure vs. dipping and the type of solid matrix were assessed. During rooting assays, two morphotypes were observed with one type having well developed internodes and the other showing hyperhydratation and no internode development. High rooting rates (40 %) were only obtained in the first morphotype shoots exposed for 5 min to 2.4 µM IBA and then transferred to OM medium without growth regulators. Plants were acclimatized in pots containing a mixture of peat and Perlite (3:2) in greenhouse with progressive reduction of relative humidity. A flow cytometric screening for major ploidy changes revealed no differences among the morphotypes and between them and the mother plant. Also the nuclear DNA content of this species was estimated for the first time using flow cytometry (2C = 24.71 pg).

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Assessment of genetic stability of two micropropagated wild olive species using flow cytometry and microsatellite markers

Brito

Lopes

Loureiro

et al. 2010

Trees

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Micropropagated plants from two wild-olive species, Olea maderensis and O. europaea ssp. europaea var. sylvestris were screened for genetic stability. O. maderensis shoots were elongated/multiplied on OMG medium with zeatin (9.12 lM), and rooted on 1/2 OMG with NAA (3.22 lM). O. europaea var. sylvestris shoots were elongated/multiplied on OM medium with zeatin, and rooting was optimal after a hormonal shock (IBA 100 lM) followed by transfer to the same medium without growth regulators. In both species, acclimatization was successful and plants looked normal and morphologically identical to the donor field trees. Genetic variability was assessed at several stages of the micropropagation process using flow cytometry (FCM) and nuclear microsatellites (SSR). No changes in ploidy level were found among micropropagated plants, though small deviations, putatively due to the negative effects of cytosolic compounds on propidium iodide staining, between these and field plants were observed. In SSRs analyses, ten SSR markers were able to distinguish between genotypes. No mutations were found in these tested SSR loci among the donor tree and micropropagated plants, suggesting, for the tested markers, genetic uniformity throughout the process. The FCM and SSR results obtained do not exclude the occurrence of other changes in the nuclear genome but, considering the morphological stability of micropropagated plants, indicate that both protocols are suitable and efficient for large scale, true-to-type micropropagation of these two wild olive species.

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Genetic characterisation of olive trees from Madeira Archipelago using flow cytometry and microsatellite markers

Brito

Loureiro

Lopes

et al. 2007

Genet Resour Crop Evol

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In this study, native olive plants from Olea maderensis (: O. europaea ssp. cerasiformis) and O. cerasiformis (: O. europaea ssp. guanchica), wild olives (O. europaea ssp. europaea var. sylvestris) and cultivated olives (O. europaea ssp.europaea var. europaea) were analysed with respect to genome size and microsatellite markers. The mean nuclear DNA content of O. maderensis was estimated as 5.97 AE 0.191 pg/2C, while the remaining studied taxa presented mean genome sizes ranging from 2.99 to 3.18 pg/2C. These data and the obtained simple sequence repeats (SSR) profiles, i.e., with 2-4 alleles in O. maderensis and a maximum of two alleles in the other taxa, enabled the identification of a new ploidy level, tetraploidy, for a species belonging to the Olea genus. Cluster analysis of the microsatellite data revealed a clear separation of each species in different clusters and a high genetic dissimilarity could be observed among genotypes belonging to different species. This work contributed to a better characterization of olive species and the obtained data can be helpful to support taxonomic studies, and to develop germplasm preservation strategies in endangered populations of O. maderensis from Madeira Archipelago.

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Somatic embryogenesis induction in leaves and petioles of a mature wild olive

Capelo

Silva

Brito

et al. 2010

Plant Cell Tiss Organ Cult

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We describe a protocol for somatic embryogenesis (SE) induction from an adult wild olive tree (Olea europaea ssp. europaea var. sylvestris. The protocol used confirms for the first time that there is no need to use juvenile or rejuvenated material for SE induction. For SE induction, petiole and leaf (proximal, intermediary and distal zones) explants were grown on Murashige and Skoog (MS) or Olive Medium (OM) media with different combinations of plant growth regulators (PGR): a-naphthaleneacetic acid (NAA), Zeatin (Zea), indole-3-butyric acid (IBA), 2-isopentyl adenine (2iP), thidiazuron (TDZ) and 6-benzylaminopurine (BAP). All media had 30 g/l sucrose and 7 g/l agar, and the pH was adjusted to 5.8. Cultures were incubated in the dark and, after 3 months, they were transferred to MS medium without PGR for expression. Petiole explants gave the highest callus production, while for SE induction and expression distal blade leaf and petiole explants gave the highest rates. The best medium for SE induction was MS with 12.25 lM IBA plus 4.56 lM Zea. Histological analyses confirmed the individuality of globular somatic embryos. This is the first report of SE expression in explants without rejuvenation in Olea genus, and opens perspectives for using this strategy in SE protocols both for this wild genotype and for commercial genotypes.

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Response of Olea europaea ssp. maderensis in vitro shoots exposed to osmotic stress

Brito

Costa

Fonseca

et al. 2003

Scientia Horticulturae

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Gina Brito

Micropropagation of Juniperus phoenicea from adult plant explants and analysis of ploidy stability using flow cytometry

Assessment of genetic stability of two micropropagated wild olive species using flow cytometry and microsatellite markers

Genetic characterisation of olive trees from Madeira Archipelago using flow cytometry and microsatellite markers

Somatic embryogenesis induction in leaves and petioles of a mature wild olive

Response of Olea europaea ssp. maderensis in vitro shoots exposed to osmotic stress

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