Unaged and controlled deteriorated (45°C for 4, 6 or 10 d) samples of a pepper seed lot were subj... more Unaged and controlled deteriorated (45°C for 4, 6 or 10 d) samples of a pepper seed lot were subjected to osmoconditioning in PEG at osmotic potentials of -1.1 and -1.5MPa for 6, 10 or 14d. The effect of osmoconditioning on nuclear replication activity was examined using flow cytometry.Priming of unaged seeds always induced nuclei of embryo root tips to enter the synthetic phase. In accordance with our previous findings the amount of induced nuclear replication activity was higher after priming at the lowest osmotic potential. Under the same osmotic potential the amount of priming-induced replication was correlated with the length of priming treatment and its efficiency in improving seed performance. However, the 14d treatment at -1.5MPa was as effective on seed performance as the 6d treatment at -1.1MPa, which induced higher numbers of nuclei to enter the synthetic phase.Osmoconditioning on controlled deteriorated seeds had different effects on seed germination depending on the degree of seed deterioration. Under the same osmotic treatment, the amount of priming-induced DNA synthesis was lower than in unaged seeds or was not induced at all. The activation of nuclear replication by osmoconditioning, therefore, appears influenced by the level of seed deterioration. In less deteriorated seeds (45°C for 4d), 14d priming at -1.1MPa caused shortening of mean germination time compared with unaged seeds, but was less effective in inducing nuclear replication.The effect of the length and osmotic potential of priming on nuclear replication and the role of molecular processes, other than DNA synthesis, in improving seed performance are discussed.
Summary Genetic variability is of utmost importance for forest tree species, being linked with ad... more Summary Genetic variability is of utmost importance for forest tree species, being linked with adaptability. However, ordinary procedures adopted in seed production chain often give rise to consistent loss of biodiversity from the seed source to the material used for reforestation. The reduction in genetic variability was studied in a Scots pine seed production chain and suggestion for a more efficient germplasm management are given.
Nuclei were isolated from leaf tissue of differentCapsicum species and the relative fluorescence ... more Nuclei were isolated from leaf tissue of differentCapsicum species and the relative fluorescence intensity was measured by flow cytometry after propidium iodide staining.Pisum sativum nuclei with known nuclear genome size (9.07 pg) were used as internal standard to determine nuclear DNA content of the samples in absolute units. The 2C DNA contents ranged between 7.65 pg inC. annuum and 9.72 pg inC. pubescens, and the general mean of the genus was 8.42 pg. These values correspond, respectively, to 1C genome size of 3.691 (C. annuum), 4.690 (C. pubescens) and 4.063 (general mean) Mbp. In general, white-flowered species proved to have less DNA, with the exception ofC. praetermissum, which displayed a 2C DNA content of 9.23 pg. It was possible to divide the studied species into three main groups according to their DNA content, and demonstrate differences in DNA content within two of the three species complexes established on the basis of morphological traits.
Unaged and controlled deteriorated (45°C for 4, 6 or 10 d) samples of a pepper seed lot were subj... more Unaged and controlled deteriorated (45°C for 4, 6 or 10 d) samples of a pepper seed lot were subjected to osmoconditioning in PEG at osmotic potentials of -1.1 and -1.5MPa for 6, 10 or 14d. The effect of osmoconditioning on nuclear replication activity was examined using flow cytometry.Priming of unaged seeds always induced nuclei of embryo root tips to enter the synthetic phase. In accordance with our previous findings the amount of induced nuclear replication activity was higher after priming at the lowest osmotic potential. Under the same osmotic potential the amount of priming-induced replication was correlated with the length of priming treatment and its efficiency in improving seed performance. However, the 14d treatment at -1.5MPa was as effective on seed performance as the 6d treatment at -1.1MPa, which induced higher numbers of nuclei to enter the synthetic phase.Osmoconditioning on controlled deteriorated seeds had different effects on seed germination depending on the degree of seed deterioration. Under the same osmotic treatment, the amount of priming-induced DNA synthesis was lower than in unaged seeds or was not induced at all. The activation of nuclear replication by osmoconditioning, therefore, appears influenced by the level of seed deterioration. In less deteriorated seeds (45°C for 4d), 14d priming at -1.1MPa caused shortening of mean germination time compared with unaged seeds, but was less effective in inducing nuclear replication.The effect of the length and osmotic potential of priming on nuclear replication and the role of molecular processes, other than DNA synthesis, in improving seed performance are discussed.
Summary Genetic variability is of utmost importance for forest tree species, being linked with ad... more Summary Genetic variability is of utmost importance for forest tree species, being linked with adaptability. However, ordinary procedures adopted in seed production chain often give rise to consistent loss of biodiversity from the seed source to the material used for reforestation. The reduction in genetic variability was studied in a Scots pine seed production chain and suggestion for a more efficient germplasm management are given.
Nuclei were isolated from leaf tissue of differentCapsicum species and the relative fluorescence ... more Nuclei were isolated from leaf tissue of differentCapsicum species and the relative fluorescence intensity was measured by flow cytometry after propidium iodide staining.Pisum sativum nuclei with known nuclear genome size (9.07 pg) were used as internal standard to determine nuclear DNA content of the samples in absolute units. The 2C DNA contents ranged between 7.65 pg inC. annuum and 9.72 pg inC. pubescens, and the general mean of the genus was 8.42 pg. These values correspond, respectively, to 1C genome size of 3.691 (C. annuum), 4.690 (C. pubescens) and 4.063 (general mean) Mbp. In general, white-flowered species proved to have less DNA, with the exception ofC. praetermissum, which displayed a 2C DNA content of 9.23 pg. It was possible to divide the studied species into three main groups according to their DNA content, and demonstrate differences in DNA content within two of the three species complexes established on the basis of morphological traits.
Uploads
Papers by P. Belletti