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Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows

Non-coagulating (NC) milk, defined as milk not coagulating within 40 min after rennet-addition, can have a negative influence on cheese production. Its prevalence is estimated at 18% in the Swedish Red (SR) cow population. Our study aimed at identifying genomic regions and causal variants associated...

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Autores principales: Duchemin, Sandrine I., Glantz, Maria, de Koning, Dirk-Jan, Paulsson, Marie, Fikse, Willem F.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2016
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4832587/
https://www.ncbi.nlm.nih.gov/pubmed/27148354
http://dx.doi.org/10.3389/fgene.2016.00057
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author Duchemin, Sandrine I.
Glantz, Maria
de Koning, Dirk-Jan
Paulsson, Marie
Fikse, Willem F.
author_facet Duchemin, Sandrine I.
Glantz, Maria
de Koning, Dirk-Jan
Paulsson, Marie
Fikse, Willem F.
author_sort Duchemin, Sandrine I.
collection PubMed
description Non-coagulating (NC) milk, defined as milk not coagulating within 40 min after rennet-addition, can have a negative influence on cheese production. Its prevalence is estimated at 18% in the Swedish Red (SR) cow population. Our study aimed at identifying genomic regions and causal variants associated with NC milk in SR cows, by doing a GWAS using 777k SNP genotypes and using imputed sequences to fine map the most promising genomic region. Phenotypes were available from 382 SR cows belonging to 21 herds in the south of Sweden, from which individual morning milk was sampled. NC milk was treated as a binary trait, receiving a score of one in case of non-coagulation within 40 min. For all 382 SR cows, 777k SNP genotypes were available as well as the combined genotypes of the genetic variants of αs1-β-κ-caseins. In addition, whole–genome sequences from the 1000 Bull Genome Consortium (Run 3) were available for 429 animals of 15 different breeds. From these sequences, 33 sequences belonged to SR and Finish Ayrshire bulls with a large impact in the SR cow population. Single-marker analyses were run in ASReml using an animal model. After fitting the casein loci, 14 associations at −Log(10)(P-value) > 6 identified a promising region located on BTA18. We imputed sequences to the 382 genotyped SR cows using Beagle 4 for half of BTA18, and ran a region-wide association study with imputed sequences. In a seven mega base-pairs region on BTA18, our strongest association with NC milk explained almost 34% of the genetic variation in NC milk. Since it is possible that multiple QTL are in strong LD in this region, 59 haplotypes were built, genetically differentiated by means of a phylogenetic tree, and tested in phenotype-genotype association studies. Haplotype analyses support the existence of one QTL underlying NC milk in SR cows. A candidate gene of interest is the VPS35 gene, for which one of our strongest association is an intron SNP in this gene. The VPS35 gene belongs to the mammary gene sets of pre-parturient and of lactating cows.
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spelling pubmed-48325872016-05-04 Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows Duchemin, Sandrine I. Glantz, Maria de Koning, Dirk-Jan Paulsson, Marie Fikse, Willem F. Front Genet Genetics Non-coagulating (NC) milk, defined as milk not coagulating within 40 min after rennet-addition, can have a negative influence on cheese production. Its prevalence is estimated at 18% in the Swedish Red (SR) cow population. Our study aimed at identifying genomic regions and causal variants associated with NC milk in SR cows, by doing a GWAS using 777k SNP genotypes and using imputed sequences to fine map the most promising genomic region. Phenotypes were available from 382 SR cows belonging to 21 herds in the south of Sweden, from which individual morning milk was sampled. NC milk was treated as a binary trait, receiving a score of one in case of non-coagulation within 40 min. For all 382 SR cows, 777k SNP genotypes were available as well as the combined genotypes of the genetic variants of αs1-β-κ-caseins. In addition, whole–genome sequences from the 1000 Bull Genome Consortium (Run 3) were available for 429 animals of 15 different breeds. From these sequences, 33 sequences belonged to SR and Finish Ayrshire bulls with a large impact in the SR cow population. Single-marker analyses were run in ASReml using an animal model. After fitting the casein loci, 14 associations at −Log(10)(P-value) > 6 identified a promising region located on BTA18. We imputed sequences to the 382 genotyped SR cows using Beagle 4 for half of BTA18, and ran a region-wide association study with imputed sequences. In a seven mega base-pairs region on BTA18, our strongest association with NC milk explained almost 34% of the genetic variation in NC milk. Since it is possible that multiple QTL are in strong LD in this region, 59 haplotypes were built, genetically differentiated by means of a phylogenetic tree, and tested in phenotype-genotype association studies. Haplotype analyses support the existence of one QTL underlying NC milk in SR cows. A candidate gene of interest is the VPS35 gene, for which one of our strongest association is an intron SNP in this gene. The VPS35 gene belongs to the mammary gene sets of pre-parturient and of lactating cows. Frontiers Media S.A. 2016-04-15 /pmc/articles/PMC4832587/ /pubmed/27148354 http://dx.doi.org/10.3389/fgene.2016.00057 Text en Copyright © 2016 Duchemin, Glantz, de Koning, Paulsson and Fikse. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) or licensor are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Genetics
Duchemin, Sandrine I.
Glantz, Maria
de Koning, Dirk-Jan
Paulsson, Marie
Fikse, Willem F.
Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows
title Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows
title_full Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows
title_fullStr Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows
title_full_unstemmed Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows
title_short Identification of QTL on Chromosome 18 Associated with Non-Coagulating Milk in Swedish Red Cows
title_sort identification of qtl on chromosome 18 associated with non-coagulating milk in swedish red cows
topic Genetics
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4832587/
https://www.ncbi.nlm.nih.gov/pubmed/27148354
http://dx.doi.org/10.3389/fgene.2016.00057
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