Showing papers by "Krystyna Klimaszewska published in 2009"

Biological characterization of young and aged embryogenic cultures of Pinus pinaster (Ait.).

Abstract: Pinus pinaster (Ait.) somatic embryogenesis (SE) has been developed during the last decade, and its application in tree improvement programs is underway. Nevertheless, a few more or less important problems still exist, which have an impact on the efficiency of specific SE stages. One phenomenon, which had been observed in embryogenic tissue (embryonal mass, EM) initiated from immature seed, has been the loss of the ability to produce mature somatic embryos after the tissue had been cultured for several months. In an attempt to get insight into the differences between young cultures of EM (3-mo-old since the first subculture) of P. pinaster that produced mature somatic embryos and the same lines of significantly increased age (18-mo-old, aged EM) that stopped producing mature somatic embryos, we analyzed in both types of materials the levels of endogenous hormones, polyamines, the global DNA methylation, and associated methylation patterns. In addition, we included in the analysis secondary EM induced from mature somatic embryos. The analysis showed that the two tested genotypes displayed inconsistent hormonal and polyamine profiles in EM cultures of a similar phenotype and that it might be difficult to attribute one specific profile to a specific culture phenotype among genotypes. Experiments were also undertaken to determine if the global DNA methylation and/or the resulting methylation pattern could be manipulated by treatment of the cultures with a hypomethylating drug 5-azacytidine (5-azaC). An aged EM was exposed to different concentrations and durations of 5-azaC, and its response in culture was established by fresh mass increases and somatic embryo maturation potential. All of the analyses are new in maritime pine, and thus, they provide the first data on the biochemistry of EM in this species related to embryogenic potential.

Plant regeneration in Stone pine (Pinus pinea L.) by somatic embryogenesis

Abstract: Regeneration of plants by somatic embryogenesis (SE) was achieved in Stone pine (Pinus pinea), one of the most characteristic tree species of the Mediterranean ecosystem. The initial explants were megagametophytes containing zygotic embryos from five selected half-sib families collected at different dates over 2 consecutive years. Rates of extrusion and initiation of SE differed in both years. However, qualitative patterns were very similar: for most families, the responsive developmental window was from late cleavage polyembryony to early cotyledonary stage. The highest overall mean frequencies of extrusion and SE initiation (7 and 0.9%, respectively, for the five families and the eight 2006 collections) were obtained on a modified Litvay’s medium with 9 μM 2,4-D and 4.5 μM BAP, supplemented with L-glutamine and casein hydrolysate. Families showed large differences in frequencies of SE initiation from year to year. Only seven embryogenic lines were induced in 2005, representing three of the five families tested, whereas 34 lines from all the families were obtained in 2006. Proliferation of embryonal masses (EM) was significantly improved when they were subcultured after dispersing in liquid medium and collected on filter paper disks, instead of being subcultured as small clumps. This effect showed a significant interaction with genotype. Several preconditioning treatments and culture media combinations were tested for embryo development and maturation. The high proliferation rate of EM hampered somatic embryo development. However, up to 42 mature embryos from different lines of three of the five families were obtained, 23 of them germinated and seven converted into somatic seedlings.

Conifers: Culture and Genetic Engineering

Abstract: Conifer biotechnology has advanced greatly in the last couple of decades Even though much of the field is still experimental, improvements in somatic embryogenesis and cryopreservation protocols have resulted in the production of genetically improved planting stock for reforestation This technology has been most effective for some of the spruce, pine, and Larix species as well as for Douglas fir Other conifer species have been less responsive, and effective application procedures remain to be established Genetic engineering is still largely confined to the experimental and field-testing stage, but applications in the field of pathogen and pest resistance and some other features can be expected in the near future Keywords: culture media; clonal propagation; haploid; somatic embryogenesis; transgenic trees