Your search keyword '"Andrea Novelletto"' showing total 4 results

1. New insights into the evolution of human Y chromosome palindromes through mutation and gene conversion

Author

Eugenia D'Atanasio, Francesco Ravasini, Maria Bonito, Selene Cariati, Andrea Novelletto, Andrea Finocchio, Beniamino Trombetta, and Fulvio Cruciani

Subjects

AcademicSubjects/SCI01140, Male, Mutation rate, Gene Conversion, Context (language use), MSY, gene conversion, NGS, Biology, Y chromosome, Evolution, Molecular, Mutation Rate, Phylogenetics, y chromosomes, Genetics, Humans, Gene conversion, Molecular Biology, Genetics (clinical), Phylogeny, Palindromic sequence, Chromosomes, Human, Y, Settore BIO/18, Inverted Repeat Sequences, Palindrome, Chromosome Mapping, Genetic Variation, General Medicine, MSY, Evolutionary biology, NGS, Mutation (genetic algorithm), Mutation, General Article

Abstract

About one-quarter of the euchromatic portion of the male-specific region of the human Y chromosome consists of large duplicated sequences that are organized in eight palindromes (termed P1–P8), which undergo arm-to arm gene conversion, a proposed mechanism for maintaining their sequence integrity. Although the relevance of gene conversion in the evolution of palindromic sequences has been profoundly recognized, the dynamic of this mechanism is still nuanced. To shed light into the evolution of these genomic elements, we performed a high-depth (50×) targeted next-generation sequencing of the palindrome P6 in 157 subjects belonging to the most divergent evolutionary lineages of the Y chromosome. We found 118 new paralogous sequence variants, which were placed into the context of a robust Y chromosome phylogeny based on 7240 SNPs of the X-degenerate region. We mapped along the phylogeny 80 gene conversion events that shaped the diversity of P6 arms during recent human history. In contrast to previous studies, we demonstrated that arm-to-arm gene conversion, which occurs at a rate of 6.01 × 10 −6 conversions/base/year, is not biased toward the retention of the ancestral state of sequences. We also found a significantly lower mutation rate of the arms (6.18 × 10−10 mutations/base/year) compared with the spacer (9.16 × 10−10 mutations/base/year), a finding that may explain the observed higher inter-species conservation of arms, without invoking any bias of conversion. Finally, by formally testing the mutation/conversion balance in P6, we found that the arms of this palindrome reached a steady-state equilibrium between mutation and gene conversion.

Published

2021

2. Disclosing complex mutational dynamics at a Y chromosome palindrome evolving through intra- and inter-chromosomal gene conversion

Author

Maria Bonito, Francesco Ravasini, Andrea Novelletto, Eugenia D’Atanasio, Fulvio Cruciani, and Beniamino Trombetta

Subjects

Settore BIO/18, gene conversion, Y chromosome, mutation, Genetics, General Medicine, Molecular Biology, Genetics (clinical)

Abstract

The human MSY ampliconic region is mainly composed of large duplicated sequences that are organized in eight palindromes (termed P1–P8), and may undergo arm-to-arm gene conversion. Although the importance of these elements is widely recognized, their evolutionary dynamics are still nuanced. Here, we focused on the P8 palindrome, which shows a complex evolutionary history, being involved in intra- and inter-chromosomal gene conversion. To disclose its evolutionary complexity, we performed a high-depth (50×) targeted next-generation sequencing of this element in 157 subjects belonging to the most divergent lineages of the Y chromosome tree. We found a total of 72 polymorphic paralogous sequence variants that have been exploited to identify 41 Y-Y gene conversion events that occurred during recent human history. Through our analysis, we were able to categorize P8 arms into three portions, whose molecular diversity was modelled by different evolutionary forces. Notably, the outer region of the palindrome is not involved in any gene conversion event and evolves exclusively through the action of mutational pressure. The inner region is affected by Y-Y gene conversion occurring at a rate of 1.52 × 10−5 conversions/base/year, with no bias towards the retention of the ancestral state of the sequence. In this portion, GC-biased gene conversion is counterbalanced by a mutational bias towards AT bases. Finally, the middle region of the arms, in addition to intra-chromosomal gene conversion, is involved in X-to-Y gene conversion (at a rate of 6.013 × 10−8 conversions/base/year) thus being a major force in the evolution of the VCY/VCX gene family.

Published

2022

3. Polymorphism analysis of the huntingtin gene in Italian families affected with Huntington disease

Author

Emilia Bellone, F Squitieri, Franco Ajmar, G. Sabbadini, Marina Frontali, G. Campanella, Francesca Persichetti, Andrea Novelletto, Marcy E. MacDonald, Paola Mandich, A Bozza, and James F. Gusella

Subjects

Adult, congenital, hereditary, and neonatal diseases and abnormalities, Linkage disequilibrium, Nerve Tissue Proteins, Minisatellite Repeats, Biology, medicine.disease_cause, Polymerase Chain Reaction, Linkage Disequilibrium, Meiosis, Polymorphism (computer science), Genetics, Huntingtin Protein, medicine, Humans, Age of Onset, Allele, Codon, Molecular Biology, Gene, Genetics (clinical), Sequence Deletion, Mutation, Polymorphism, Genetic, Nuclear Proteins, General Medicine, Middle Aged, Huntington Disease, Genes, Italy, Microsatellite

Abstract

Two sources of variation in the huntingtin gene, the length of the CCG-rich segment downstream to the (CAG)n stretch undergoing expansion in Huntington disease (HD) and the deletion of 3 bp at codon positions 2642-2645 (delta 2642), were analysed on the normal and HD chromosomes of 80 Italian families affected with HD. No instances of meiotic instability of the CCG-rich segment were detected. A strong linkage disequilibrium was found between the HD mutation and alleles at both polymorphic regions: CCG-rich length alleles different from 176 bp are underrepresented while delta 2642 is overrepresented on HD chromosomes. The presence of such alleles on HD chromosomes does not affect age at onset of the disease. Normal chromosomes displayed a non-random association, shorter (CAG)n segments being preferentially followed by longer CCG-rich segments. Finally, the finding, among normal subjects, of carriers of variants on both chromosomes denotes that variation at either of the two polymorphisms does not impair the function of the huntingtin gene product.

Published

1994

4. Reduced penetrance of the Huntington's disease mutation

Author

Sandra M. McNeil, John J. Wasmuth, James F. Gusella, Andrea Novelletto, Michael R. Altherr, Marcy E. MacDonald, Jayalakshmi Srinidhi, Ira Kornbluth, Richard H. Myers, and Glenn Barnes

Subjects

Adult, Male, Heterozygote, Biology, Degenerative disease, Huntington's disease, Gene Frequency, Trinucleotide Repeats, Genetics, medicine, Humans, Allele, Molecular Biology, Allele frequency, Genetics (clinical), Aged, Repetitive Sequences, Nucleic Acid, Aged, 80 and over, Heterozygote advantage, General Medicine, Sequence Analysis, DNA, Middle Aged, medicine.disease, Penetrance, Pedigree, Huntington Disease, Mutation (genetic algorithm), Mutation, Microsatellite

Abstract

Controversy persists concerning the significance of Huntington disease (HD) alleles in the 36-39 repeat range. Although some clinically affected persons have been documented with repeats in this range, elderly unaffected individuals have also been reported. We examined 10 paternal transmissions of HD alleles of 37-39 repeats in collateral branches of families with de novo HD. All 10 descendants, including many who are elderly, are without symptoms of HD. Forty percent of the transmissions were unstable, although none varied by more than one repeat. The observation that individuals with alleles of 37-39 repeats may survive unaffected beyond common life expectancy supports the presence of reduced penetrance for HD among some persons with repeat sizes which overlap the clinical range. Non-penetrance may be increased in the collateral branches of de novo mutation families when compared to penetrance estimates from patient series. There was no CAA-->CAG mutation for the penultimate glutamine in either a de novo expanded 42 repeat allele or the corresponding non-penetrant 38 repeat allele in a family with fresh mutation to HD.

Published

1997