Genome-wide association study reveals new QTL and functional candidate genes for the small intestine length and cecum-colon length in Yorkshire pigs
Liming Xu, Taoran Du, Qian Liu, Zhongyu Wang, Huilong Yang, Qingbo Zhao, Ruihua Huang, Pinghua Li

TL;DR
This study identifies genetic markers linked to intestinal lengths in Yorkshire pigs, which could improve feed efficiency through molecular breeding.
Contribution
The study discovers new QTLs and candidate genes for small intestine and cecum-colon lengths in pigs using genome-wide association.
Findings
Two novel QTLs for small intestine length were identified on SSC2 and SSC9.
A new QTL for cecum-colon length was found on SSC16.
Candidate genes like SRY-box transcription factor 6 and cadherin 10 were linked to intestinal traits.
Abstract
The lengths of a pig’s small intestine length (SIL) and cecum-colon length (C-CIL) are crucial for nutrient absorption and substantially affect feed utilization efficiency. Thus, selecting for increased intestinal lengths could enhance feed digestibility. However, conventional methods for measuring these traits pose considerable challenges. To address these drawbacks, we explored the use of molecular breeding techniques to refine the selection process. In this study, 413 age-matched Yorkshire barrows were humanely killed, and their SIL and C-CIL were measured. Genotyping was conducted using a 50K single nucleotide polymorphism (SNP) array, and the SNP-chip data were imputed to whole-genome sequencing data (iWGS). The heritability estimates for SIL and C-CIL were 0.25 and 0.26, respectively. Utilizing genome-wide association studies based on chip and iWGS data, significant SNPs on Sus…
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Taxonomy
TopicsGenetic and phenotypic traits in livestock · Genetic Mapping and Diversity in Plants and Animals · Animal Nutrition and Physiology
