The availability of genomic tools, such as SNP chip and whole genome sequencing technologies, have given researchers the opportunity to understand the relationships between, and gen- etic background of, dog populations. However, such inter- national studies have included few Italian populations. This project aims to highlight the uniqueness of Italian dog popu- lations and deepen our understanding of the genetic relation- ships that exists between them. Almost 300 dogs from 18 important Italian breeds and ecotypes (17 ± 4 average number ± SD of animals per breed, breeds list: http://www.enci.it/libro-genealogico/razze-italiane) were consid- ered for this study. Within each population, dogs were selected for analysis if they were unrelated at the second generation. Biological samples were collected according to the European regulations on animal welfare. All samples were genotyped with the Illumina 170K HD SNP chip. Data were checked for missing genotypes, minor allele frequencies, cryptic related- ness and duplicate individuals. Genotype phasing used individ- ual pairwise identity by descend estimations. Distances were estimated as shared alleles identity by state between individu- als, whereas populations distances were estimated as Reynolds distances. Both distances were then used to assem- ble a Neighbor-joining phylogenetic tree using the PHYLIP software. Finally, the genetic background of populations was defined using ADMIXTURE software. Those results provide the first deep insight into the genomic landscape of Italian dog breeds and ecotypes, highlighting their phylogenetic relation- ships. Our findings confirm most of the known history of the breed analyzed, grouping by their working ability and show an average inbreeding (± SD) of 0.15 (± 0.11). Genomic data analysis has proven to be an important tool for revealing relationships within and across populations. These data can be used to define individual relationships, such as parentage and inbreeding, or those between populations, esti- mating genetic distances and phylogenetic relatedness. These studies will provide the Italian Kennel Club (ENCI) with new tools that, together with classic management instruments, can improve genealogical registration quality, selection strategies for breeding, as well as understanding of genetic makeup and breed composition, all leading to improved health and welfare for Italian breeds.

Genomic landscape and biodiversity of Italian dogs

Luigi Liotta;
2017-01-01

Abstract

The availability of genomic tools, such as SNP chip and whole genome sequencing technologies, have given researchers the opportunity to understand the relationships between, and gen- etic background of, dog populations. However, such inter- national studies have included few Italian populations. This project aims to highlight the uniqueness of Italian dog popu- lations and deepen our understanding of the genetic relation- ships that exists between them. Almost 300 dogs from 18 important Italian breeds and ecotypes (17 ± 4 average number ± SD of animals per breed, breeds list: http://www.enci.it/libro-genealogico/razze-italiane) were consid- ered for this study. Within each population, dogs were selected for analysis if they were unrelated at the second generation. Biological samples were collected according to the European regulations on animal welfare. All samples were genotyped with the Illumina 170K HD SNP chip. Data were checked for missing genotypes, minor allele frequencies, cryptic related- ness and duplicate individuals. Genotype phasing used individ- ual pairwise identity by descend estimations. Distances were estimated as shared alleles identity by state between individu- als, whereas populations distances were estimated as Reynolds distances. Both distances were then used to assem- ble a Neighbor-joining phylogenetic tree using the PHYLIP software. Finally, the genetic background of populations was defined using ADMIXTURE software. Those results provide the first deep insight into the genomic landscape of Italian dog breeds and ecotypes, highlighting their phylogenetic relation- ships. Our findings confirm most of the known history of the breed analyzed, grouping by their working ability and show an average inbreeding (± SD) of 0.15 (± 0.11). Genomic data analysis has proven to be an important tool for revealing relationships within and across populations. These data can be used to define individual relationships, such as parentage and inbreeding, or those between populations, esti- mating genetic distances and phylogenetic relatedness. These studies will provide the Italian Kennel Club (ENCI) with new tools that, together with classic management instruments, can improve genealogical registration quality, selection strategies for breeding, as well as understanding of genetic makeup and breed composition, all leading to improved health and welfare for Italian breeds.
2017
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11570/3119597
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