Genomic characterization and insights into the belted coat pattern of a local, reconstituted pig population

Genomic characterization and insights into the belted coat pattern of a local, reconstituted pig population

The Cinghiato pig population originates from a breeding project aimed at reconstituting an extinct local swine breed, historically depicted in frescoes in Umbria, Central Italy. The selection strategy employed a reconstruction breeding program, choosing mating pairs based on the unique coat phenotyp...

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Bibliographic Details
Main Authors: Samira Giovannini, Maria Giuseppina Strillacci, Raffaella Milanesi, Caterina Altissimi, Massimo Biagetti, Francesca Maria Sarti
Format: Article
Language:English
Published: Taylor & Francis Group 2025-12-01
Series:Animal Biotechnology
Subjects:
Pig
belted
genomics
local breed
Cinghiato population
Online Access:https://www.tandfonline.com/doi/10.1080/10495398.2025.2515462
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Summary:The Cinghiato pig population originates from a breeding project aimed at reconstituting an extinct local swine breed, historically depicted in frescoes in Umbria, Central Italy. The selection strategy employed a reconstruction breeding program, choosing mating pairs based on the unique coat phenotype represented in these artworks. Unlike the traditional Cinta Senese breed, Cinghiato pigs exhibit a white belt encircling the trunk, while their forelimbs remain black. This study explores the genetic background of the belted coat pattern observed in the heterogeneous reconstituted population. Twenty-two pigs were genotyped using the Porcine GGP 80K SNP BeadChip. Genetic analyses were conducted to assess population structure and diversity, with comparisons made to other Italian pig breeds and wild boars. Findings reveal moderate genetic diversity within the Cinghiato population. Runs of Homozygosity patterns suggest historical inbreeding events. Moreover, several genomic regions were associated with traits relevant to niche pork production, including feed intake, leg conformation, and fat deposition. Polymorphisms were detected in 10 coat color-related genes (KIT, MC1R, ASIP, EDNRB, KITLG, MITF, OCA2, PAX3, SOX10, and TYRP1). Although some candidate variants were identified, this preliminary study highlights the need for further research to clarify the genetic mechanisms underlying the phenotypic variability of belted coat patterns.
ISSN:1049-5398
1532-2378

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