R. Alberici scite author profile

Recent legislation in the European Union requires regulators of member states to carry out risk assessments using data for actual or potential operator exposure, or estimates of exposure from models. However, the existing models have few datasets from studies carried out on greenhouse or indoor crops, particularly in southern Europe. In this study potential dermal and inhalatory exposures were measured in two trials in Italian greenhouses. The total potential dermal operator exposure of the applicator, measured with a whole-body passive dosimetry method, was 15.4 and 37.1 mL/h of the diluted pesticide mixture. The majority of the contamination was on the hands and on the lower part of the coverall. Approximately 0. 003% of the active ingredient (ai) applied to the crop area contaminated the coverall worn by the operator. The potential dermal exposure during the mixing and loading phase accounted for 6-8% of the total potential dermal exposure during the whole process. Inhalation exposure accounted for only 0.05-0.07% of the total potential operator exposure. Model predictions of the potential operator exposure using a modified version of the German model overestimate the mixing-loading exposure while underestimating the application exposure. These data are evidence that the estimation coefficient set for hand-held application to ornamental and horticultural crops may be inadequate for the agronomic conditions of southern Europe.

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On the complexity of miRNA-mediated regulation in plants: novel insights into the genomic organization of plant miRNAs

Colaiacovo

Lamontanara

Bernardo

et al. 2012

Biol Direct

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MicroRNAs (miRNAs) are endogenous small non-coding RNAs of about 20–24 nt, known to play key roles in post-transcriptional gene regulation, that can be coded either by intergenic or intragenic loci. Intragenic (exonic and intronic) miRNAs can exert a role in the transcriptional regulation and RNA processing of their host gene. Moreover, the possibility that the biogenesis of exonic miRNAs could destabilize the corresponding protein-coding transcript and reduce protein synthesis makes their characterization very intriguing and suggests a possible novel mechanism of post-transcriptional regulation of gene expression.This work was designed to carry out the computational identification of putative exonic miRNAs in 30 plant species and the analysis of possible mechanisms involved in their regulation.The results obtained represent a useful starting point for future studies on the complex networks involved in microRNA-mediated gene regulation in plants.

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Analysis of Differential Expression of Barley ESTs during Cold Acclimatization Using Microarray Technology

et al. 2002

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Genomics adds a new dimension to genetic analysis, shifting the focus from the study of a single gene to the whole genome. We have successfully applied the genomics approach based on microarray to the study of genes involved in barley responses to cold stress. About 900 EST clones from barley were obtained from a cDNA library of cold acclimatized leaves of cv. Nure and arrayed, and gene expression analysis done on cold acclimatized vs. control plants. The system allowed for reliable detection of differences in mRNA expression levels, and was confirmed by the finding that numerous previously reported cold‐related genes were differentially expressed in treated and untreated plants when evaluated in our arrays. The expression profiles of a sample of genes analysed by the array were confirmed by quantitative RT‐PCR. Previously, identification of novel plant genes was achieved considering a few genes at a time; now many genes can be found as up‐ or down‐regulated based on a one step procedure. Many of the genes we found to be up‐ or down‐regulated do not have an assigned function. This includes 15 of the 78 up‐regulated and 8 of the 45 down‐regulated clones. Our results add new genes to the group of cold‐regulated genes and provide the opportunity to better understand the complex mechanism of stress tolerance.

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Soil-Borne Viruses of Barley Seriously Affect Plant Growth and Grain Yield in a Monocropping System

Delogu

Faccini

Alberici

et al. 2003

CEREAL RESEARCH COMMUNICATIONS

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R. Alberici

Intergenotypic competition and border effect in bread wheat and barley

Potential Operator Exposure to Procymidone in Greenhouses

On the complexity of miRNA-mediated regulation in plants: novel insights into the genomic organization of plant miRNAs

Analysis of Differential Expression of Barley ESTs during Cold Acclimatization Using Microarray Technology

Soil-Borne Viruses of Barley Seriously Affect Plant Growth and Grain Yield in a Monocropping System

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