Alessandra Simoni scite author profile

Alessandra Simoni

3Publications

16Citation Statements Received

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Genome flux in tomato cell clones cultured in vitro in different physiological equilibria. II. A RAPD analysis of variability

Bogani¹,

Simoni²,

Lió³

et al. 1996

Genome

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An analysis of the effect of changing physiological conditions on genome evolution in tomato cell populations has been carried out on long-term in vitro cultured clones grown on different auxin-cytokinin equilibria or selected for low-high competence for active defense against Fusarium oxysporum f.sp. lycopersici. RAPD analysis, confirmed through pattern rehybridization, was used as a random tool to measure the genetic variability. Through the use of a modified ANOVA, variation was shown to depend on both the initial genotype and the physiological conditions. Pattern correlation analysis through a mutual information algorithm suggested the fixation of RAPD patterns specific to physiological equilibria. The results are discussed in view of the possible relevance for evolution at hierarchical levels higher than cell populations. Key words : tomato clones, somaclonal variation, RAPD, coadaptation.

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Molecular variation in plant cell populations evolving in vitro in different physiological contexts

Bogani

Simoni²,

Lió³

et al. 2001

Genome

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Previous work has shown the fixation of context-specific random amplified polymorphic DNA (RAPD) patterns in tomato cell cultures grown for 2 years in different hormonal contexts. In this work, RAPD sequences were characterised and RAPD-derived molecular markers used for a further study of variation between and within auto- and auxo-trophic tomato cultures grown in different hormonal equilibria. Results were then compared with those obtained using microsatellite markers located in noncoding regions of differentiation- and hormone-related genes and with those obtained with the external transcribed spacer (ETS) from tomato rDNA. Hybridisation of RAPDs on a tomato genomic DNA bank, or on total DNA after enzymatic digestion, suggested that the markers were repetitive in nature. Sequence analysis. however, showed that the homology between different fragments was due mainly to the presence of homo-AT nucleotide stretches. Moreover, a series of computational methods, such as an information-theory algorithm coupled with AG estimates, suggested that the RAPD fragments isolated in our experiments are noncoding. The amplification of SSR-containing RAPD-derived markers, and of other SSRs located in noncoding regions of tomato functional genes, consistently showed polymorphism between auxo- and auto-trophic somaclones (the latter being either habituated or transgenic for Agrobacterium tumefaciens oncogenes) but not within these same clones. Differences were also found between auxotrophic clones and the differentiated tissue. These findings were confirmed by restriction fragment length polymorphism (RFLP) analysis with the REII repetitive element of the ETS from tomato rDNA, which was isolated during this study. The results obtained suggest a possible role for physiological context in the selection of RAPD patterns during the evolution of tomato cells with different endogenous hormonal equilibria. The results are discussed in terms of a possible role for variation in noncoding regions of hormone-related genes in the adaptation to different physiological contexts.

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Genome flux in tomato auto- and auxo-trophic cell clones cultured in different auxin/cytokinin equilibria. I. DNA multiplicity and methylation levels

Bogani¹,

Simoni²,

Bettini³

et al. 1995

Genome

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An analysis of the effect of changing physiological conditions on genetic stability, in terms of epigenetic changes, such as DNA, methylation patterns, and multiplicity of repetitive DNA, was carried out on tomato cell clones grown on media supplemented with different auxin/cytokinin ratios. The effect of endogenous variation in phytohormone equilibria was also indirectly analysed through a comparison of auxotrophic or habituated (autotrophic) cell clones and the differentiated leaf tissue. The data obtained showed significant variation in methylation and multiplicity levels both between clones and between treatments, clearly suggesting a contemporary influence of exogenous hormonal treatments and of the initial/endogenous physiological state of the treated tissue on both phenomena studied.

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