Gianluca Peri scite author profile

Gianluca Peri

4Publications

24Citation Statements Received

146Citation Statements Given

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Boise State University

Publications

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Experimental Resurrection of Ancestral Mammalian CPEB3 Ribozymes Reveals Deep Functional Conservation

Bendixsen

Pollock

Peri

et al. 2021

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Self-cleaving ribozymes are genetic elements found in all domains of life, but their evolution remains poorly understood. A ribozyme located in the second intron of the cytoplasmic polyadenylation binding protein 3 gene (CPEB3) shows high sequence conservation in mammals, but little is known about the functional conservation of self-cleaving ribozyme activity across the mammalian tree of life or during the course of mammalian evolution. Here we use a phylogenetic approach to design a mutational library and a deep sequencing assay to evaluate the in vitro self-cleavage activity of numerous extant and resurrected CPEB3 ribozymes that span over 100 million years of mammalian evolution. We found that the predicted sequence at the divergence of placentals and marsupials is highly active, and this activity has been conserved in most lineages. A reduction in ribozyme activity appears to have occurred multiple different times throughout the mammalian tree of life. The in vitro activity data allows an evaluation of the predicted mutational pathways leading to extant ribozyme as well as the mutational landscape surrounding these ribozymes. The results demonstrate that in addition to sequence conservation, the self-cleavage activity of the CPEB3 ribozyme has persisted over millions of years of mammalian evolution.

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Dynamic RNA Fitness Landscapes of a Group I Ribozyme during Changes to the Experimental Environment

Peri

Gibard

Shults

et al. 2022

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Fitness landscapes of protein and RNA molecules can be studied experimentally using high-throughput techniques to measure the functional effects of numerous combinations of mutations. The rugged topography of these molecular fitness landscapes is important for understanding and predicting natural and experimental evolution. Mutational effects are also dependent upon environmental conditions, but the effects of environmental changes on fitness landscapes remains poorly understood. Here we investigate the changes to the fitness landscape of a catalytic RNA molecule while changing a single environmental variable that is critical for RNA structure and function. Using high-throughput sequencing of in vitro selections, we mapped a fitness landscape of the Azoarcus group I ribozyme under eight different concentrations of magnesium ions (1-48 mM MgCl2). The data revealed the magnesium dependence of 16,384 mutational neighbors, and from this we investigated the magnesium induced changes to the topography of the fitness landscape. The results showed that increasing magnesium concentration improved the relative fitness of sequences at higher mutational distances while also reducing the ruggedness of the mutational trajectories on the landscape. As a result, as magnesium concentration was increased, simulated populations evolved toward higher fitness faster. Curve-fitting of the magnesium dependence of individual ribozymes demonstrated that deep sequencing of in vitro reactions can be used to evaluate the structural stability of thousands of sequences in parallel. Overall, the results highlight how environmental changes that stabilize structures can also alter the ruggedness of fitness landscapes and alter evolutionary processes.

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Case report: Coincidental inclusion in a 17-locus Y-STR mixture, wrongful conviction and exoneration

Hampikian

Peri

et al. 2017

Forensic Science International: Genetics

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We report the case of a suspect (Suspect-3) who was convicted (and later exonerated) of participating in the multiple-attacker rape of two women. The forensic evidence against him was his inclusion in a 17-marker Y-STR mixture isolated from semen on one victim's clothing. The DNA inclusion produced a match statistic with a combined probability of inclusion of 1 in 741, and a Likelihood Ratio of 3296. While the defense team was told that Suspect-3 was included in the semen DNA mixture, they were not told that all of the Y-STR alleles could also be explained by just the other two accused attackers' haplotypes. Suspect-3 was subsequently freed after the Taiwan Association for Innocence requested re-examination of the incriminating mixed DNA sample. The Criminal Investigation Bureau was then able to exclude him using an extended set of Y-STR markers (23 loci), leading to his exoneration.

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Allele frequencies of 15 STR loci (Identifiler™ kit) in Basque-Americans

et al. 2018

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Individuals with Basque ancestry form a historically and culturally important minority of the population of the western United States. Allele frequencies for the 15 autosomal STRs in the AmpFlSTR® Identifiler® PCR Amplification Kit (Applied Biosystems) from 156 unrelated self-identified Basque individuals born in the United States are presented. Allele frequencies were used to calculate parameters commonly used in genetics and forensics including power of discrimination (PD), power of exclusion (PE), polymorphic information content (PIC), and expected heterozygosity (He). The sample population was also compared with the European Basque population and the major American ethnicities.

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Gianluca Peri

Experimental Resurrection of Ancestral Mammalian CPEB3 Ribozymes Reveals Deep Functional Conservation

Dynamic RNA Fitness Landscapes of a Group I Ribozyme during Changes to the Experimental Environment

Case report: Coincidental inclusion in a 17-locus Y-STR mixture, wrongful conviction and exoneration

Allele frequencies of 15 STR loci (Identifiler™ kit) in Basque-Americans

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