Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians

Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians

Excreted nitrogen (N) of dairy cows contribute to environmental eutrophication. The main N-excretory metabolite of dairy cows is urea, which is synthesized as a result of N-metabolization in the liver and is excreted via milk and urine. Genetic variation in milk urea (MU) has been postulated but the...

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Main Authors: Hanne Honerlagen, Henry Reyer, Michael Oster, Siriluck Ponsuksili, Nares Trakooljul, Björn Kuhla, Norbert Reinsch, Klaus Wimmers
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-07-01
Series:Frontiers in Genetics
Subjects:
GWAS
emission
cattle
nitrogen
milk urea
non-urea nitrogen
Online Access:https://www.frontiersin.org/articles/10.3389/fgene.2021.699550/full
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spelling doaj-4f226e8ecbe045c5aab57d241b1bce6a2021-07-14T13:13:56ZengFrontiers Media S.A.Frontiers in Genetics1664-80212021-07-011210.3389/fgene.2021.699550699550Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- FriesiansHanne Honerlagen0Henry Reyer1Michael Oster2Siriluck Ponsuksili3Nares Trakooljul4Björn Kuhla5Norbert Reinsch6Klaus Wimmers7Klaus Wimmers8Genomics Unit, Institute for Genome Biology, Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyGenomics Unit, Institute for Genome Biology, Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyGenomics Unit, Institute for Genome Biology, Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyGenomics Unit, Institute for Genome Biology, Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyGenomics Unit, Institute for Genome Biology, Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyMetabolism Efficiency Unit, Institute of Nutritional Physiology “Oskar Kellner,” Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyLivestock Genetics and Breeding Unit, Institute of Genetics and Biometry, Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyGenomics Unit, Institute for Genome Biology, Leibniz Institute for Farm Animal Biology (FBN), Dummerstorf, GermanyFaculty of Agricultural and Environmental Sciences, University of Rostock, Rostock, GermanyExcreted nitrogen (N) of dairy cows contribute to environmental eutrophication. The main N-excretory metabolite of dairy cows is urea, which is synthesized as a result of N-metabolization in the liver and is excreted via milk and urine. Genetic variation in milk urea (MU) has been postulated but the complex physiology behind the trait as well as the tremendous diversity of processes regulating the N-metabolism impede the consistent determination of causal regions in the bovine genome. In order to map the genetic determinants affecting N-excretion, MU and eight other N-excretory metabolites in milk and urine were assessed in a genome-wide association study. Therefore phenotypes of 371 Holstein- Friesians were obtained in a trial on a dairy farm under near commercial conditions. Genotype data comprised SNP information of the Bovine 50K MD Genome chip (45,613 SNPs). Significantly associated genomic regions for MU concentration revealed GJA1 (BTA 9), RXFP1, and FRY1 (both BTA 12) as putative candidates. For milk urea yield (MUY) a promising QTL on BTA 17 including SH3D19 emerged, whereas RCAN2, CLIC5, ENPP4, and ENPP5 (BTA 23) are suggested to influence urinary urea concentration. Minor N-fractions in milk (MN) may be regulated by ELF2 and SLC7A11 (BTA 17), whilst ITPR2 and MYBPC1 (BTA 5), STIM2 (BTA 6), SGCD (BTA 7), SLC6A2 (BTA 18), TMCC2 and MFSD4A (BTA 16) are suggested to have an impact on various non-urea-N (NUN) fractions excreted via urine. Our results highlight genomic regions and candidate genes for N-excretory metabolites and provide a deeper insight into the predisposed component to regulate the N-metabolism in dairy cows.https://www.frontiersin.org/articles/10.3389/fgene.2021.699550/fullGWASemissioncattlenitrogenmilk ureanon-urea nitrogen
collection DOAJ
language English
format Article
sources DOAJ
author Hanne Honerlagen
Henry Reyer
Michael Oster
Siriluck Ponsuksili
Nares Trakooljul
Björn Kuhla
Norbert Reinsch
Klaus Wimmers
Klaus Wimmers
spellingShingle Hanne Honerlagen
Henry Reyer
Michael Oster
Siriluck Ponsuksili
Nares Trakooljul
Björn Kuhla
Norbert Reinsch
Klaus Wimmers
Klaus Wimmers
Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians
Frontiers in Genetics
GWAS
emission
cattle
nitrogen
milk urea
non-urea nitrogen
author_facet Hanne Honerlagen
Henry Reyer
Michael Oster
Siriluck Ponsuksili
Nares Trakooljul
Björn Kuhla
Norbert Reinsch
Klaus Wimmers
Klaus Wimmers
author_sort Hanne Honerlagen
title Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians
title_short Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians
title_full Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians
title_fullStr Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians
title_full_unstemmed Identification of Genomic Regions Influencing N-Metabolism and N-Excretion in Lactating Holstein- Friesians
title_sort identification of genomic regions influencing n-metabolism and n-excretion in lactating holstein- friesians
publisher Frontiers Media S.A.
series Frontiers in Genetics
issn 1664-8021
publishDate 2021-07-01
description Excreted nitrogen (N) of dairy cows contribute to environmental eutrophication. The main N-excretory metabolite of dairy cows is urea, which is synthesized as a result of N-metabolization in the liver and is excreted via milk and urine. Genetic variation in milk urea (MU) has been postulated but the complex physiology behind the trait as well as the tremendous diversity of processes regulating the N-metabolism impede the consistent determination of causal regions in the bovine genome. In order to map the genetic determinants affecting N-excretion, MU and eight other N-excretory metabolites in milk and urine were assessed in a genome-wide association study. Therefore phenotypes of 371 Holstein- Friesians were obtained in a trial on a dairy farm under near commercial conditions. Genotype data comprised SNP information of the Bovine 50K MD Genome chip (45,613 SNPs). Significantly associated genomic regions for MU concentration revealed GJA1 (BTA 9), RXFP1, and FRY1 (both BTA 12) as putative candidates. For milk urea yield (MUY) a promising QTL on BTA 17 including SH3D19 emerged, whereas RCAN2, CLIC5, ENPP4, and ENPP5 (BTA 23) are suggested to influence urinary urea concentration. Minor N-fractions in milk (MN) may be regulated by ELF2 and SLC7A11 (BTA 17), whilst ITPR2 and MYBPC1 (BTA 5), STIM2 (BTA 6), SGCD (BTA 7), SLC6A2 (BTA 18), TMCC2 and MFSD4A (BTA 16) are suggested to have an impact on various non-urea-N (NUN) fractions excreted via urine. Our results highlight genomic regions and candidate genes for N-excretory metabolites and provide a deeper insight into the predisposed component to regulate the N-metabolism in dairy cows.
topic GWAS
emission
cattle
nitrogen
milk urea
non-urea nitrogen
url https://www.frontiersin.org/articles/10.3389/fgene.2021.699550/full
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