G. Patrignani scite author profile

Linker histone protein variants are expressed in different tissues, at various developmental stages or induced by specific environmental conditions in many plant species. In most cases, the function of these proteins remains unknown. In the work presented here an antisense strategy has been used to study the function of the drought-induced linker histone, H1-S of tomato. Three independent H1-S antisense tomato mutants, selected for their inability to accumulate H1-S in response to water stress, were studied. These mutants have been characterized at the physiological and morphological levels. Histone H1-S antisense transgenic plants developed normally indicating that H1-S does not play an important role in the basal functions of tomato development. No differences were detected in chromatin organization, excluding a structural role for H1-S in chromatin organization. However, differences between the wild-type and antisense plants were observed in leaf anatomy and physiological activities. This analysis indicates that H1-S has more than one function, at different times, in controlling plant water status, highlighting the complexity of the water stress response.

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The Origin of Clonal Diversity and Structure of Populus alba in Sardinia: Evidence from Nuclear and Plastid Microsatellite Markers

Brundu

Lupi

Zapelli

et al. 2008

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Development of molecular markers to assess the level of introgression of Populus tremula into P. alba natural populations

et al. 2004

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Morphological traits traditionally adopted to discriminate between Populus alba L. and P. tremula L. have frequently led to misclassification of their spontaneous hybrid P. · canescens Sm. Moreover, they may not be of any help in cases of spontaneous backcross phenomena. These limitations can be overcome by molecular markers, which are not environmentally influenced nor subjectively assessed. In this study, the effectiveness of amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers in species and hybrid discrimination was evaluated by analysing a set of reference samples of P. alba,P. tremula and P. · canescens. Species-specific and speciesindicative AFLPs, as well as diagnostic SSR alleles, were recorded in both P. alba and P. tremula reference samples. The results allowed a clear distinction between the two poplar species and their hybrid. Using these diagnostic markers, a natural population of P. alba trees sampled along the Ticino river basin in northern Italy was analysed, and P. · canescens individuals, intermingled with P. alba trees, were detected.

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Ultrastructural studies on the developing secretory nodules of Hypericum perforatum

Onelli

Rivetta

Giorgi

et al. 2002

Flora - Morphology, Distribution, Functional Ecology of Plants

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Genetic structure and introgression in riparian populations ofPopulus albaL.

Castiglione

Cicatelli

Lupi

et al. 2010

Plant Biosystems - An International Journal Dealing with all As

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White poplar ( Populus alba ) is a widespread species of the northern hemisphere. Introgressed populations or hybrid zones with the related species of the European aspen ( Populus tremula ) have been suggested as potential venues for the identification of functionally important variation for germplasm conservation, restoration efforts and tree breeding. Data on the genetic diversity and structure of introgressed P. alba are available only for sympatric populations from central Europe. Here, clonality, introgression and spatial genetic patterns were evaluated in three riparian populations of P. alba along the Ticino, Paglia-Tevere and Cesano river drainages in Italy. Samples of all three populations were typed for five nuclear microsatellite markers and 137 polymorphic amplified fragment length polymorphisms. Microsatellite-based inbreeding co-efficients ( F IS ) were significantly positive in all three populations. Genetic diversity was consistently highest in Ticino, the population with the highest level of introgression from P. tremula . Population differentiation ( F ST ) was low between the Ticino valley in northern Italy and the Cesano valley in central Italy and between the central Italian populations of Cesano and Paglia-Tevere, consistent with a role of the Appenine mountain range as a barrier to gene flow between adjacent drainage areas. Introgression was not the primary determinant of within-population spatial genetic structure (SGS) in the studied populations.

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G. Patrignani

The histone-like protein H1-S and the response of tomato leaves to water deficit

The Origin of Clonal Diversity and Structure of Populus alba in Sardinia: Evidence from Nuclear and Plastid Microsatellite Markers

Development of molecular markers to assess the level of introgression of Populus tremula into P. alba natural populations

Ultrastructural studies on the developing secretory nodules of Hypericum perforatum

Genetic structure and introgression in riparian populations ofPopulus albaL.

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