Your search keyword '"Beatrice Mariotti"' showing total 4 results

1. Fetal and Infant Effects of Maternal Opioid Use during Pregnancy: A Literature Review including Clinical, Toxicological, Pharmacogenomic, and Epigenetic Aspects for Forensic Evaluation

Author

Elena Giovannini, Maria Paola Bonasoni, Jennifer Paola Pascali, Carla Bini, Guido Pelletti, Alberto Gualandi, Giovanni Dal Lago, Andrea Mercati, Beatrice Mariotti, Giulia Paola Pasini, Iarina Alexandra Poll, and Paolo Fais

Subjects

opioids in pregnancy, methadone, buprenorphine, neonatal withdrawal symptoms from opioid drugs (NOWS), toxicology, pharmacogenomic, Pediatrics, RJ1-570

Abstract

The two primary classes of opioid substances are morphine and its synthetic derivative, heroin. Opioids can cross the placental barrier, reaching fetal circulation. Therefore, at any gestational age, the fetus is highly exposed to pharmacologically active opioid metabolites and their associated adverse effects. This review aimed to investigate all the studies reported in a timeframe of forty years about prenatal and postnatal outcomes of opioid exposition during pregnancy. Clinical and toxicological aspects, as well as pharmacogenetic and epigenetic research focusing on fetal and infant effects of opioid use during pregnancy together with their medico-legal implications are exposed and discussed.

Published

2024

2. Plant sex chromosomes: molecular structure and function

Author

Susana Manzano, Manuel Jamilena, and Beatrice Mariotti

Subjects

medicine.medical_specialty, DNA, Plant, Flowers, DNA, Satellite, Y chromosome, Chromosomes, Plant, Cytogenetics, Gene density, Genetics, medicine, Silene latifolia, Molecular Biology, Gene, Genetics (clinical), Repetitive Sequences, Nucleic Acid, Autosome, biology, Chromosome, Plants, biology.organism_classification, Biological Evolution, Housekeeping gene, Tandem Repeat Sequences, DNA Transposable Elements

Abstract

Recent molecular and genomic studies carried out in a number of model dioecious plant species, including Asparagus officinalis, Carica papaya, Silene latifolia, Rumex acetosa and Marchantia polymorpha, have shed light on the molecular structure of both homomorphic and heteromorphic sex chromosomes, and also on the gene functions they have maintained since their evolution from a pair of autosomes. The molecular structure of sex chromosomes in species from different plant families represents the evolutionary pathway followed by sex chromosomes during their evolution. The degree of Y chromosome degeneration that accompanies the suppression of recombination between the Xs and Ys differs among species. The primitive Ys of A. officinalis and C. papaya have only diverged from their homomorphic Xs in a short male-specific and non-recombining region (MSY), while the heteromorphic Ys of S. latifolia, R. acetosa and M. polymorpha have diverged from their respective Xs. As in the Y chromosomes of mammals and Drosophila, the accumulation of repetitive DNA, including both transposable elements and satellite DNA, has played an important role in the divergence and size enlargement of plant Ys, and consequently in reducing gene density. Nevertheless, the degeneration process in plants does not appear to have reached the Y-linked genes. Although a low gene density has been found in the sequenced Y chromosome of M. polymorpha, most of its genes are essential and are expressed in the vegetative and reproductive organs in both male and females. Similarly, most of the Y-linked genes that have been isolated and characterized up to now in S. latifolia are housekeeping genes that have X-linked homologues, and are therefore expressed in both males and females. Only one of them seems to be degenerate with respect to its homologous region in the X. Sequence analysis of larger regions in the homomorphic X and Y chromosomes of papaya and asparagus, and also in the heteromorphic sex chromosomes of S. latifolia and R. acetosa, will reveal the degenerative changes that the Y-linked gene functions have experienced during sex chromosome evolution.

Published

2008

3. Accumulation of Y-specific satellite DNAs during the evolution of Rumex acetosa sex chromosomes

Author

Beatrice Mariotti, Manuel Jamilena, Eduard Kejnovský, Boris Vyskot, and Susana Manzano

Subjects

Genetics, Base Sequence, DNA, Plant, Models, Genetic, Phylogenetic tree, Satellite DNA, Chromosome, General Medicine, DNA, Satellite, Biology, Y chromosome, Chromosomes, Plant, Homology (biology), Random Amplified Polymorphic DNA Technique, RAPD, Evolution, Molecular, Genetic marker, Rumex, Molecular Biology, In Situ Hybridization, Fluorescence, X chromosome, DNA Primers

Abstract

The study of the molecular structure of young heteromorphic sex chromosomes of plants has shed light on the evolutionary forces that control the differentiation of the X and Y during the earlier stages of their evolution. We have used the model plant Rumex acetosa, a dioecious species with multiple sex chromosomes, 2n = 12 + XX female and 2n = 12 + XY(1)Y(2) male, to analyse the significance of repetitive DNA accumulation during the differentiation of the Y. A bulk segregant analysis (BSA) approach allowed us to identify and isolate random amplified polymorphic DNA (RAPD) markers linked to the sex chromosomes. From a total of 86 RAPD markers in the parents, 6 markers were found to be linked to the Ys and 1 to the X. Two of the Y-linked markers represent two AT-rich satellite DNAs (satDNAs), named RAYSII and RAYSIII, that share about 80% homology, as well as with RAYSI, another satDNA of R. acetosa. Fluorescent in situ hybridisation demonstrated that RAYSII is specific for Y(1), whilst RAYSIII is located in different clusters along Y(1) and Y(2). The two satDNAs were only detected in the genome of the dioecious species with XX/XY(1)Y(2) multiple sex chromosome systems in the subgenus Acetosa, but were absent from other dioecious species with an XX/XY system of the subgenera Acetosa or Acetosella, as well as in gynodioecious or hermaphrodite species of the subgenera Acetosa, Rumex and Platypodium. Phylogenetic analysis with different cloned monomers of RAYSII and RAYSIII from both R. acetosa and R. papillaris indicate that these two satDNAs are completely separated from each other, and from RAYSI, in both species. The three Y-specific satDNAs, however, evolved from an ancestral satDNA with repeating units of 120 bp, through intermediate satDNAs of 360 bp. The data therefore support the idea that Y-chromosome differentiation and heterochromatinisation in the Rumex species having a multiple sex chromosome system have occurred by different amplification events from a common ancestral satDNA. Since dioecious species with multiple XX/XY(1)Y(2) sex chromosome systems of the section Acetosa appear to have evolved from dioecious species with an XX/XY system, the amplification of tandemly repetitive elements in the Ys of the section Acetosa is a recent evolutionary process that has contributed to an increase in the size and differentiation of the already non-recombining Y chromosomes.

Published

2008

4. Book Review - Natasha King, No Borders: The Politics of Immigration Control and Resistance

Author

Beatrice Mariottini

Subjects

Colonies and colonization. Emigration and immigration. International migration, JV1-9480

Abstract

“Imagine a society like a ripped sheet, each hole being a space of freedom destined to grow larger. As long as it is being pierced, those who find themselves caught in the material will not choke. They will be able to choose to migrate […] We need to push these walls” (anonymous interview: 159). The metaphor used by this interviewee offers a good visual explanation of the aim and direction of the No Borders movement, which Natasha King brilliantly explains in her book. The author is an English scholar with a PhD in political science from the University of Nottingham who focuses on the struggle for the freedom of movement and has conducted extensive research on the topic around Europe, specifically in Calais, France, and Athens, Greece.

Published

2018