Your search keyword '"Pavesi, Angelo"' showing total 15 results

1. Functional characterization of archaic-specific variants in mitonuclear genes: insights from comparative analysis in S. cerevisiae.

Author

Aneli, Serena, Berti, Camilla Ceccatelli, Gilea, Alexandru Ionut, Birolo, Giovanni, Mutti, Giacomo, Pavesi, Angelo, Baruffini, Enrico, Goffrini, Paola, and Capelli, Cristian

Published

2024

2. Different Patterns of Codon Usage and Amino Acid Composition across Primate Lentiviruses.

Author

Pavesi, Angelo and Romerio, Fabio

Subjects

LENTIVIRUSES, GENETIC code, AMINO acids, CERCOPITHECIDAE, NATURAL selection, B cells, T cells, MONOCYTES

Abstract

A common feature of the mammalian Lentiviruses (family Retroviridae) is an RNA genome that contains an extremely high frequency of adenine (31.7–38.2%) while being extremely poor in cytosine (13.9–21.2%). Such a biased nucleotide composition has implications for codon usage, causing a striking difference between the frequency of synonymous codons in Lentiviruses and that in their hosts. To test whether primate Lentiviruses present differences in codon and amino acid composition, we assembled a dataset of genome sequences that includes SIV species infecting Old-World monkeys and African apes, HIV-2, and the four groups of HIV-1. Using principal component analysis, we found that HIV-1 shows a significant enrichment in adenine plus thymine in the third synonymous codon position and in adenine and guanine in the first and second nonsynonymous codon positions. Similarly, we observed an enrichment in adenine and in guanine in nonsynonymous first and second codon positions, which affects the amino acid composition of the proteins Gag, Pol, Vif, Vpr, Tat, Rev, Env, and Nef. This result suggests an effect of natural selection in shaping codon usage. Under the hypothesis that the use of synonyms in HIV-1 could reflect adaptation to that of genes expressed in specific cell types, we found a highly significant correlation between codon usage in HIV-1 and monocytes, which was remarkably higher than that with B and T lymphocytes. This finding is in line with the notion that monocytes represent an HIV-1 reservoir in infected patients, and it could help understand how this reservoir is established and maintained. [ABSTRACT FROM AUTHOR]

Published

2023

3. Overlapping genes and the proteins they encode differ significantly in their sequence composition from non-overlapping genes.

Author

Pavesi, Angelo, Vianelli, Alberto, Chirico, Nicola, Bao, Yiming, Blinkova, Olga, Belshaw, Robert, Firth, Andrew, and Karlin, David

Subjects

AMINO acid sequence, BIOLOGICAL evolution, NUCLEOTIDE sequence, GENETIC mutation, EUKARYOTES

Abstract

Overlapping genes represent a fascinating evolutionary puzzle, since they encode two functionally unrelated proteins from the same DNA sequence. They originate by a mechanism of overprinting, in which point mutations in an existing frame allow the expression (the "birth") of a completely new protein from a second frame. In viruses, in which overlapping genes are abundant, these new proteins often play a critical role in infection, yet they are frequently overlooked during genome annotation. This results in erroneous interpretation of mutational studies and in a significant waste of resources. Therefore, overlapping genes need to be correctly detected, especially since they are now thought to be abundant also in eukaryotes. Developing better detection methods and conducting systematic evolutionary studies require a large, reliable benchmark dataset of known cases. We thus assembled a high-quality dataset of 80 viral overlapping genes whose expression is experimentally proven. Many of them were not present in databases. We found that overall, overlapping genes differ significantly from non-overlapping genes in their nucleotide and amino acid composition. In particular, the proteins they encode are enriched in high-degeneracy amino acids and depleted in low-degeneracy ones, which may alleviate the evolutionary constraints acting on overlapping genes. Principal component analysis revealed that the vast majority of overlapping genes follow a similar composition bias, despite their heterogeneity in length and function. Six proven mammalian overlapping genes also followed this bias. We propose that this apparently near-universal composition bias may either favour the birth of overlapping genes, or/and result from selection pressure acting on them. [ABSTRACT FROM AUTHOR]

Published

2018

4. Viral Proteins Originated De Novo by Overprinting Can Be Identified by Codon Usage: Application to the “Gene Nursery” of Deltaretroviruses.

Author

Pavesi, Angelo, Magiorkinis, Gkikas, and Karlin, David G.

Subjects

VIRAL proteins, COMPUTATIONAL biology, GENOMICS, MICROBIOLOGY, VIRAL evolution, MOLECULAR genetics

Abstract

A well-known mechanism through which new protein-coding genes originate is by modification of pre-existing genes, e.g. by duplication or horizontal transfer. In contrast, many viruses generate protein-coding genes de novo, via the overprinting of a new reading frame onto an existing (“ancestral”) frame. This mechanism is thought to play an important role in viral pathogenicity, but has been poorly explored, perhaps because identifying the de novo frames is very challenging. Therefore, a new approach to detect them was needed. We assembled a reference set of overlapping genes for which we could reliably determine the ancestral frames, and found that their codon usage was significantly closer to that of the rest of the viral genome than the codon usage of de novo frames. Based on this observation, we designed a method that allowed the identification of de novo frames based on their codon usage with a very good specificity, but intermediate sensitivity. Using our method, we predicted that the Rex gene of deltaretroviruses has originated de novo by overprinting the Tax gene. Intriguingly, several genes in the same genomic region have also originated de novo and encode proteins that regulate the functions of Tax. Such “gene nurseries” may be common in viral genomes. Finally, our results confirm that the genomic GC content is not the only determinant of codon usage in viruses and suggest that a constraint linked to translation must influence codon usage. [ABSTRACT FROM AUTHOR]

Published

2013

5. Extending the Coding Potential of Viral Genomes with Overlapping Antisense ORFs: A Case for the De Novo Creation of the Gene Encoding the Antisense Protein ASP of HIV-1.

Author

Pavesi, Angelo and Romerio, Fabio

Subjects

ANTISENSE peptides, VIRAL genomes, HIV, STOP codons, LENTIVIRUSES, GENOMES

Abstract

Gene overprinting occurs when point mutations within a genomic region with an existing coding sequence create a new one in another reading frame. This process is quite frequent in viral genomes either to maximize the amount of information that they encode or in response to strong selective pressure. The most frequent scenario involves two different reading frames in the same DNA strand (sense overlap). Much less frequent are cases of overlapping genes that are encoded on opposite DNA strands (antisense overlap). One such example is the antisense ORF, asp in the minus strand of the HIV-1 genome overlapping the env gene. The asp gene is highly conserved in pandemic HIV-1 strains of group M, and it is absent in non-pandemic HIV-1 groups, HIV-2, and lentiviruses infecting non-human primates, suggesting that the ~190-amino acid protein that is expressed from this gene (ASP) may play a role in virus spread. While the function of ASP in the virus life cycle remains to be elucidated, mounting evidence from several research groups indicates that ASP is expressed in vivo. There are two alternative hypotheses that could be envisioned to explain the origin of the asp ORF. On one hand, asp may have originally been present in the ancestor of contemporary lentiviruses, and subsequently lost in all descendants except for most HIV-1 strains of group M due to selective advantage. Alternatively, the asp ORF may have originated very recently with the emergence of group M HIV-1 strains from SIVcpz. Here, we used a combination of computational and statistical approaches to study the genomic region of env in primate lentiviruses to shed light on the origin, structure, and sequence evolution of the asp ORF. The results emerging from our studies support the hypothesis of a recent de novo addition of the antisense ORF to the HIV-1 genome through a process that entailed progressive removal of existing internal stop codons from SIV strains to HIV-1 strains of group M, and fine tuning of the codon sequence in env that reduced the chances of new stop codons occurring in asp. Altogether, the study supports the notion that the HIV-1 asp gene encodes an accessory protein, providing a selective advantage to the virus. [ABSTRACT FROM AUTHOR]

Published

2022

6. Detecting Traces of Prehistoric Human Migrations by Geographic Synthetic Maps of Polyomavirus JC.

Author

Pavesi, Angelo

Subjects

POLYOMAVIRUSES, NUCLEOTIDE sequence, DNA viruses, GENES, EMIGRATION & immigration

Abstract

The polyomavirus JC (JCV) is a double-stranded DNA virus that is ubiquitous in human populations and is excreted in urine by a large percentage of individuals (20–70%). The strong genetic stability, combined with a mechanism of transmission mainly within the family, makes JCV a good marker of human migrations. In this study, the coevolution of JCV with its human host is investigated by using over a thousand nucleotide sequences deposited in the EMBL database; they correspond to the IG region, which is the genomic region with the highest rate of variation. The pattern of genetic diversity in JCV is evaluated by the principal coordinates analysis and the construction of synthetic maps. The first principal coordinate supports the existence of two distinct virus lineages, both arising from the ancestral African type. The first synthetic map suggests a two-migration model of the human dispersal out of Africa, thus implying a more complex picture than that known from human genes. The second principal coordinate points out the distinctiveness of strains coming from Asian/Amerind populations. The picture yielded by the second synthetic map appears to be more consistent with that known from human genes. In fact, it provides evidence of a deep split of the Asian lineage of JCV into two main branches: one diffusing in Japan and Americas, the other in Southeast Asia. The view that JCV, with its peculiar feature of a dual early emergence from Africa, can provide new information about the evolutionary history of our ancestors is discussed. [ABSTRACT FROM AUTHOR]

Published

2004

7. African Origin of Polyomavirus JC and Implications for Prehistoric Human Migrations.

Author

Pavesi, Angelo

Subjects

EMIGRATION & immigration, BIOLOGICAL evolution, ETHNIC groups, HEREDITY, GENES, POPULATION

Abstract

The presence of distinctive types of JC virus (JCV) in the main ethnic groups suggests a close coevolution with the human host. However, phylogenetic trees of JCV show a basal clade of European lineages (Types 1/4), whereas trees of human genes are coherent in placing the first split between African and non-African populations. This discrepancy places into question the effectiveness of JCV as a marker of human population history. The present study investigates the evolution of JCV using a large set of fully sequenced strains. Their relationships are first elucidated by principal coordinates analysis. It is suggested that Type 6 from West Africa could represent the ancestral type, while the peculiar phylogeny of Types 1/4 could reflect their direct origin from the ancestral lineage. Further credit to the African origin of JCV is provided by a neighbor-joining analysis based on slow-evolving sites. Sequence analysis of fast-evolving sites reveals that the deep emergence of Types 1/4 in the tree does not reflect a real evolutionary divergence; rather it is the implicit result of a remarkably different G + C content. The hypothesis that Types 1/4 originated directly from Type 6 is confirmed by examining the pattern of variation at a few specific fast-evolving sites. On the basis of this approach, a twofold exit of JCV from Africa is hypothesized: one in the direction of the Eurasian continent and another limited to Europe. These findings suggest that two distinct migrations of individuals played a key role in the peopling of Europe during prehistoric times. [ABSTRACT FROM AUTHOR]

Published

2003

8. Brief Communication: Coexistence of Two Distinct Patterns in the Surname Structure of Sicily.

Author

Pavesi, Angelo, Pizzetti, Paola, Siri, Enzo, Lucchetti, Enzo, and Conterio, Franco

Subjects

EMIGRATION & immigration, TELEPHONE directories, PERSONAL names

Abstract

Evaluates the extent of variation in the migratory movements that occurred in Sicily, Italy, using surname data taken from the telephone directories of the 390 communes of the island. Coexistence of two distinct patterns in the surname structure of Sicily; Analysis of pertinent topics and relevant issues; Implications on the study of physical anthropology.

Published

2003

9. Origin and Evolution of GBV-C/Hepatitis G Virus and Relationships with Ancient Human Migrations.

Author

Pavesi, Angelo

Subjects

HEPATITIS, LIVER diseases, VIRUSES, NUCLEIC acids, NUCLEOTIDES, GENETICS

Abstract

The GB virus C/hepatitis G virus (GBV-C/HGV) is a newly identified human RNA virus, belonging to the Flaviviridae family. Persistent infection by GBV-C/HGV is common in humans, and genetically divergent isolates have been identified in different parts of the world. Due to the absence of a real pathogenic role of GBV-C/HGV in liver disease and its extremely low mutation rate, this virus is a potential marker to trace prehistoric links between human populations. In this study, origin and evolution of GBV-C/HGV were examined using a set of fully sequenced strains of worldwide origin. A first phylogenetic analysis, addressed to the short (255 nucleotides) NS5A overlapping coding region by the neighbor-joining method, suggested an ancient African origin of GBV-C/HGV. This notion was confirmed when the same analysis was applied to the genomic regions showing the lowest rate of synonymous substitutions, covering one-fourth (2184 nucleotides) of the total coding potential of the virus genome. By using a multivariate statistical method and extending the analysis to the complete coding region, fine details of the evolutionary history of GBV-C/HGV were further elucidated. By this approach, isolates from Southeast Asia appeared to be the most closely related to those of African origin, consistent with a major route of ancient human migrations from Africa to southeastern parts of the Asian continent. [ABSTRACT FROM AUTHOR]

Published

2001

10. Detection of Signature Sequences in Overlapping Genes and Prediction of a Novel Overlapping Gene in Hepatitis G Virus.

Author

Pavesi, Angelo

Subjects

LIVER diseases, GENETICS, GENES, PROTEIN analysis, ORGANIC acids, AMINO acids, AMINO acid sequence

Abstract

In viruses an increased coding ability is provided by overlapping genes, in which two alternative open reading frames (ORFs) may be translated to yield two distinct proteins. The identification of signature sequences in overlapping genes is a topic of particular interest, since additional out-of-frame coding regions can be nested within known genes. In this work, a novel feature peculiar to overlapping coding regions is presented. It was detected by analysis of a sample set of 21 virus genomic sequences and consisted in the repeated occurrence of a cluster of basic amino acid residues, encoded by a frame, combined to a stretch of acidic residues, encoded by the corresponding overlapping frame. A computer scan of an additional set of virus sequences demonstrated that this feature is common to several other known overlapping ORFs and led to prediction of a novel overlapping gene in hepatitis G virus (HGV). The occurrence of a bifunctional coding region in HGV was also supported by its extremely lower rate of synonymous nucleotide substitutions compared to that observed in the other gene regions of the HGV genome. Analysis of the amino acid sequence that was deduced from the putative overlapping gene revealed a high content of basic residues and the presence of a nuclear targeting signal; these characteristics suggest that a core-like protein may be expressed by this novel ORF. [ABSTRACT FROM AUTHOR]

Published

2000

11. Origin, Evolution and Stability of Overlapping Genes in Viruses: A Systematic Review.

Author

Pavesi, Angelo

Subjects

GENES, VIRAL genomes, AMINO acid sequence, PROTEIN expression, VIRUSES

Abstract

During their long evolutionary history viruses generated many proteins de novo by a mechanism called "overprinting". Overprinting is a process in which critical nucleotide substitutions in a pre-existing gene can induce the expression of a novel protein by translation of an alternative open reading frame (ORF). Overlapping genes represent an intriguing example of adaptive conflict, because they simultaneously encode two proteins whose freedom to change is constrained by each other. However, overlapping genes are also a source of genetic novelties, as the constraints under which alternative ORFs evolve can give rise to proteins with unusual sequence properties, most importantly the potential for novel functions. Starting with the discovery of overlapping genes in phages infecting Escherichia coli, this review covers a range of studies dealing with detection of overlapping genes in small eukaryotic viruses (genomic length below 30 kb) and recognition of their critical role in the evolution of pathogenicity. Origin of overlapping genes, what factors favor their birth and retention, and how they manage their inherent adaptive conflict are extensively reviewed. Special attention is paid to the assembly of overlapping genes into ad hoc databases, suitable for future studies, and to the development of statistical methods for exploring viral genome sequences in search of undiscovered overlaps. [ABSTRACT FROM AUTHOR]

Published

2021

12. Relationships Between Transcriptional and Translational Control of Gene Expression in Saccharomyces cerevisiae: A Multiple Regression Analysis.

Author

Pavesi, Angelo

Abstract

Natural selection for an increased translation efficiency has been proposed as the main determinant for the bias in codon usage observed in many genes of Saccharomyces cerevisiae. Recently, the efficiency of transcription of a large number of yeast genes has been determined, based on the cellular content of the respective mRNAs: this provides an additional dimension to the study of the multisep process of gene expression. Using a representative set of yeast genes with a known level of transcription, the relationship between transcriptional and translational steps was evaluated by a multiple linear regression model. This analysis demonstrated a positive correlation between the amount of transcript, given as the number of mRNA copies per cell for each individual gene, and indices evaluating the effects of translational selection on the corresponding codon usage pattern. This finding suggests a close association of the cellular mRNA content, regulated also at the transcriptional level, to its efficiency of translation, mediated by a fine-tuning of codon usage strategy. Moreover, multiple regression analysis demonstrated that the transcription level of a gene can be approximately predicted using indices of bias deriving from its nucleotide sequence. This allowed for an extensive investigation of uncharacterized regions of the complete genome sequence of S. cerevisiae, to detect new potential short protein coding genes that were not considered by previous searching procedures. Several small open reading frames exhibiting a statistically significant coding potential were thus identified as good candidates for functional analysis. [ABSTRACT FROM AUTHOR]

Published

1999

13. Clarithromycin versus doxycycline in the treatment of rosacea.

Author

Torresani, Claudio, Pavesi, Angelo, and Manara, Gian Carlo

Subjects

RESEARCH, ROSACEA, DRUGS, PATIENTS, HUMAN sexuality, AGE, THERAPEUTICS

Abstract

The article presents information on the usage of drugs Clarithromycin and doxycycline in the treatment of rosacea. Forty patients with rosacea were entered into a study comparing clarithromycin with doxycycline in the systemic treatment of mild and severe rosacea. The patients, 25 women and 15 men, aged from 26 to 62 years, were subdivided into two homogeneous groups with regard to age, sex and disease severity. The first group of 23 patients, 14 women and 9 men, was treated with 250 mg of clarithromycin for 4 weeks twice daily and then with 250 mg once daily for the following 4 weeks. The second group of 17 patients, 11 women and 6 men was treated with 100 mg of doxycycline for 4 weeks twice daily and then with 100 mg once a day for the following 4 weeks. Both objective and subjective evaluations of the dermatosis were performed prior to therapy and after 4, 6 and 8 weeks of treatment.

Published

1997

14. On the Informational Content of Overlapping Genes in Prokaryotic and Eukaryotic Viruses.

Author

Pavesi, Angelo, De Iaco, Bettina, Granero, Maria Ilde, and Porati, Alfredo

Abstract

In genetic language a peculiar arrangement of biological information is provided by overlapping genes in which the same region of DNA can code for functionally unrelated messages. In this work, the informational content of overlapping genes belonging to prokaryotic and eukaryotic viruses was analyzed. Using information theory indices, we identified in the regions of overlap a first pattern, exhibiting a more uniform base composition and more severe constraints in base ordering with respect to the nonoverlapping regions. This pattern was found to be peculiar to coliphage, avian hepatitis B virus, human lentivirus, and plant luteovirus families. A second pattern, characterized by the occurrence of similar compositional constraints in both types of coding regions, was found to be limited to plant tymoviruses. At the level of codon usage, a low degree of correlation between overlapping and nonoverlapping coding regions characterized the first pattern, whereas a close link was found in tymoviruses, indicating a fine adaptation of the overlapping frame to the original codon choice of the virus. As a result of codon usage correlation analysis, deductions concerning the origin and evolution of several overlapping frames were also proposed. Comparison of amino acid composition revealed an increased frequency of amino acid residues with a high level of degeneracy (arginine, leucine, and serine) in the proteins encoded by overlapping genes; this peculiar feature of overlapping genes can be viewed as a way with which they may expand their coding ability and gain new, specialized functions. [ABSTRACT FROM AUTHOR]

Published

1997

15. Identification of new eukaryotic tRNA genes in genomic DNA databases by a multistep weight matrix anaylsis of transcriptional control regions.

Author

Pavesi, Angelo, Conterio, Franco, Bolchi, Angelo, Dieci, Giorgio, and Ottonello, Simone

Published

1994