First glimpse into the genomic characterization of people from the imperial Roman community of Casal Bertone (Rome, first–third centuries AD)

This paper aims to provide a first glimpse into the genomic characterization of individuals buried in Casal Bertone (Rome, first-third centuries AD) to gain preliminary insight into the genetic makeup of people who lived near a tannery workshop, fullonica. Therefore, we explored the genetic characteristics of individuals who were putatively recruited as fuller workers outside the Roman population. Moreover, we identified the microbial communities associated with humans to detect microbes associated with the unhealthy environment supposed for such a workshop. We examined five individuals from Casal Bertone for ancient DNA analysis through whole-genome sequencing via a shotgun approach. We conducted multiple investigations to unveil the genetic components featured in the samples studied and their associated microbial communities. We generated reliable whole-genome data for three samples surviving the quality controls. The individuals were descendants of people from North African and the Near East, two of the main foci for tannery and dyeing activity in the past. Our evaluation of the microbes associated with the skeletal samples showed microbes growing in soils with waste products used in the tannery process, indicating that people lived, died, and were buried around places where they worked. In that perspective, the results represent the first genomic characterization of fullers from the past. This analysis broadens our knowledge about the presence of multiple ancestries in Imperial Rome, marking a starting point for future data integration as part of interdisciplinary research on human mobility and the bio-cultural characteristics of people employed in dedicated workshops

Italian burials from the Palaeolithic period. The identification of dietary habits

The identification of dietary habits is increasingly seen as a fundamental aspect for studying the ancient human populations. Accordingly, several projects aiming to identify Paleolithic individuals' dietary patterns were developed to analyze the organic component of bone tissue and identify isotopic markers to reconstruct the food typology. Bone fragments from six individuals were selected for carbon and nitrogen stable isotopes analysis. The interpretation of human isotopic data was framed through a dataset of twenty-one Italian Paleolithic individuals. The isotopic data generated for the Paleolithic individuals agree with the information already provided by the archaeological record concerning the Italian hunter and gatherer communities. Their subsistence economy was essentially grounded upon the exploitation of high protein foods, either from terrestrial fauna resources or inland lacustrine or riverine species. (C) 2021 Elsevier Masson SAS. All rights reserved

Evaluation of skin-related variants in African ancestry populations and their role in personal identification

Pigment-related genetic variants point out their role in personal identification as they can be considered predictors suitable for Forensic DNA Phenotyping (FDP) and mounting evidence suggest also their bio-geographic inferential power for gaining information about the individual geographical origin. As they could be regarded as AIMs (Ancestry Informative Markers) they are powerful tools for inferring genetic composition of admixed population. Despite the huge range of skin tones across our species, little is known about genetic basis in global population and particularly our knowledge is less precise for those showing a complex historical and genomic background. The current research aims to explore the allelic status in several SNPs mapped in selected genes known to be involved in skin pigmentation: OCA2, HERC2, SLC45A2, SLC24A5 and two intergenic regions between BEND7/PRPF18 and EIF2S2/ASIP. The genetic evaluation has been performed on selected African and African derived populations: Fon, Dendi, Bariba and Berba communities from Benin, and Afroecuadorians. Data integration has been made up merging genotypic results with available information from major biological data warehouse as Phase 3–1000 Genomes Project or International HapMap Project in order to obtain a selected populations panel useful for their use as inferential model training set to test the likelihood of correct assignment to geographically differentiated human groups. The proposed variants panel seems to properly interpret the geographic variation and some new interesting evidence could be pointed out in African mixed populations, that seem to be differentially distributed if the total panel is considered. Understanding human pigmentation architecture can provide fundamental insight into genetic interaction of complex traits and the relationship between environmental adaptation and population history. In addition, the results support the use of phenotypic inference along with bio-geographical ancestry information as valid auxiliary tools in personal identification

Ancient genomes from a rural site in Imperial Rome (1st–3rd cent. CE): a genetic junction in the Roman Empire

Background Rome became the prosperous Capital of the Roman Empire through the political and military conquests of neighbouring areas. People were able to move Romeward modifying the Rome area's demographic structure. However, the genomic evidence for the population of one of the broadest Empires in antiquity has been sparse until recently. Aim The genomic analysis of people buried in Quarto Cappello del Prete (QCP) necropolis was carried out to help elucidate the genomic structure of Imperial Rome inhabitants. Subjects and methods We recruited twenty-five individuals from QCP for ancient DNA analysis through whole-genome sequencing. Multiple investigations were carried out to unveil the genetic components featuring in the studied samples and the community's putative demographic structure. Results We generated reliable whole-genome data for 7 samples surviving quality controls. The distribution of Imperial Romans from QCP partly overlaps with present-day Southern Mediterranean and Southern-Near Eastern populations. Conclusion The genomic legacy with the south-eastern shores of the Mediterranean Sea and the Central and Western Northern-African coast funerary influence pave the way for considering people buried in QCP as resembling a Punic-derived human group