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Nuclear DNA changes within Helianthus annum L.: changes within single progenies and their relationships with plant development (1993)

Natali, L. ; Cavallini, A. ; Cionini, G. ; [et al.]

Springer

Theoretical and applied genetics 85 (1993), S. 506-512

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ISSN: 1432-2242

Keywords: Helianthus annuus ; Intraspecific DNA changes ; Cell proliferation ; Cell phenotype ; Plant development

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary The variations in the basic nuclear DNA content, which previous results indicated to occur within one and the same progeny of Helianthus annuus, were studied in detail and correlated with certain developmental features of the plants. The size and organization of the genome of seedlings obtained from seeds (achenes) collected at the periphery (P-seedlings) or in the middle (M-seedlings) of the flowering heads of plants belonging to a line selfed for 10 years were compared. Cytophotometric determinations indicated that the nuclear DNA content of P-seedlings is 14.7% higher than that of M-seedlings. Thermal denaturation and reassociation kinetics of extracted DNAs showed that variations in the redundancy of repetitive DNA, in particular of a family of medium repeated sequences with a Cot range of 2–100, account for the differences in genome size. These findings were confirmed by the results of molecular hybridizations (slot blots), which also indicated a higher amount of ribosomal DNA in the P-seedlings than in the M-seedlings. Cell proliferation is affected by DNA content, and mitotic cycle time is 1h30′ longer in the P-seedlings. By studying mature plants, positive correlations were also found between genome size and both the surface area of leaf epidermal cells (P≤0.01) and flowering time (P≤0.001). It is suggested that the variations of nuclear DNA content and organization observed play a role in determining developmental variability in plant populations, which may be of importance in buffering the effects of changing environmental conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00220906

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Genome plasticity during seed germination in Festuca arundinacea (1997)

Ceccarelli, M. ; Giordani, T. ; Natali, L. ; [et al.]

Springer

Theoretical and applied genetics 94 (1997), S. 309-315

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ISSN: 1432-2242

Keywords: Key words Festuca arundinacea ; Intraspecific genomic changes ; Repeated DNA sequences ; Environmental adaptation ; Plant development

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Feulgen/DNA cytophotometric determinations were carried out on early prophases in the meristems of seedlings obtained by germinating seeds of different accessions of Festuca arundinacea at 10°C, 20°C, or 30°C. Feulgen/DNA contents increased significantly with the increase in the temperature of seed germination. In each accession, the greater the increase in absorption in seedlings obtained at 30°C, the lower the absorption in seedlings obtained at 10°C. In contrast, Feulgen/DNA contents did not undergo changes when the temperature was altered at developmental stages other than seed germination. The results of molecular hybridizations (slot blots) indicated that the redundancy of repeated DNA sequences belonging to two families having Cot ranges of 0–2×10-1 and 2×10-1 −2×100, respectively, was significantly higher in the genome of seedlings obtained at 30°C than in that of seedlings obtained at 10°C. When centrifuged to equilibrium in CsCl density gradients, the DNA extracted from seedlings obtained at 30°C formed a heavier and a lighter shoulder with buoyant densities of 1.707 g/ml and 1.692 g/ml, respectively, in addition to the main band (1.701 g/ml). Only a less apparent shoulder banding at 1.706 g/ml was formed by the DNA extracted from seedlings obtained at 10°C. After seed germination in the presence of [3H]-thymidine for 24 h at 30°C, most of radioactivity was found in the guanine + cytosine- or adenine+thymine-enriched DNA fractions, which formed the two shoulders in the density profile. In contrast, only guanine+cytosine-enriched fractions, which formed the heavier shoulder, were preferentially labelled in the DNA from seedlings obtained at 10°C. These results prove that fluid domains do exist in the nuclear DNA of F. arundinacea. These DNA domains are capable of rapid, quantitative alterations, which represent the direct responses of the genome to developmental and environmental stimuli. Seed germination appears to be a limited, specific period in development within which the adaptive response to temperature variations can be put into effect.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001220050416

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