Evaluation of heritability partitioning approaches in livestock populations.

Complex traits; Functional annotation; Genetic architecture; Heritability partitioning; Variance components; Animals; Cattle/genetics; Bayes Theorem; Models, Genetic; Gene Frequency; Polymorphism, Single Nucleotide; Quantitative Trait, Heritable; Genetic Variation; Genomics/methods; Phenotype; Livestock/genetics; Linkage Disequilibrium; Cattle; Genomics; Livestock; Biotechnology; Genetics

Abstract :

[en] [en] BACKGROUND: Heritability partitioning approaches estimate the contribution of different functional classes, such as coding or regulatory variants, to the genetic variance. This information allows a better understanding of the genetic architecture of complex traits, including complex diseases, but can also help improve the accuracy of genomic selection in livestock species. However, methods have mainly been tested on human genomic data, whereas livestock populations have specific characteristics, such as high levels of relatedness, small effective population size or long-range levels of linkage disequilibrium. RESULTS: Here, we used data from 14,762 cows, imputed at the whole-genome sequence level for 11,537,240 variants, to simulate traits in a typical livestock population and evaluate the accuracy of two state-of-the-art heritability partitioning methods, GREML and a Bayesian mixture model. In simulations where a single functional class had increased contribution to heritability, we observed that the estimators were unbiased but had low precision. When causal variants were enriched in variants with low (< 0.05) or high (> 0.20) minor allele frequency or low (below 1st quartile) or high (above 3rd quartile) linkage disequilibrium scores, it was necessary to partition the genetic variance into multiple classes defined on the basis of allele frequencies or LD scores to obtain unbiased results. When multiple functional classes had variable contributions to heritability, estimators showed higher levels of variation and confounding between certain categories was observed. In addition, estimators from small categories were particularly imprecise. However, the estimates and their ranking were still informative about the contribution of the classes. We also demonstrated that using methods that estimate the contribution of a single category at a time, a commonly used approach, results in an overestimation. Finally, we applied the methods to phenotypes for muscular development and height and estimated that, on average, variants in open chromatin regions had a higher contribution to the genetic variance (> 45%), while variants in coding regions had the strongest individual effects (> 25-fold enrichment on average). Conversely, variants in intergenic or intronic regions showed lower levels of enrichment (0.2 and 0.6-fold on average, respectively). CONCLUSIONS: Heritability partitioning approaches should be used cautiously in livestock populations, in particular for small categories. Two-component approaches that fit only one functional category at a time lead to biased estimators and should not be used.

Disciplines :

Agriculture & agronomy
Genetics & genetic processes

Author, co-author :

Yuan, Can ; Université de Liège - ULiège > GIGA > GIGA Medical Genomics - Unit of Animal Genomics

Gualdrón Duarte, José Luis; Walloon Breeders Association, Rue Des Champs Elysées, 4, Ciney, 5590, Belgium

Takeda, Haruko ; Université de Liège - ULiège > GIGA > GIGA Medical Genomics - Unit of Animal Genomics

Georges, Michel ; Université de Liège - ULiège > GIGA > GIGA Medical Genomics - Unit of Animal Genomics

Druet, Tom ; Université de Liège - ULiège > GIGA > GIGA Medical Genomics - Unit of Animal Genomics

Language :

English

Title :

Evaluation of heritability partitioning approaches in livestock populations.

Publication date :

2024

Journal title :

BMC Genomics

eISSN :

1471-2164

Publisher :

BioMed Central Ltd, England

Volume :

Issue :

Pages :

690

Peer reviewed :

Peer Reviewed verified by ORBi

Tags :

CÉCI : Consortium des Équipements de Calcul Intensif

Additional URL :

https://link.springer.com/content/pdf/10.1186/s12864-024-10600-y.pdf

Funding text :

The authors acknowledge the Walloon Breeders Association (AWE group) for providing the data. Tom Druet is Research Director from the F.R.S.-FNRS. We used the supercomputing facilities of the \u201CConsortium d\u2019Equipements en Calcul Intensif en F\u00E9d\u00E9ration Wallonie-Bruxelles\u201D (CECI), funded by the F.R.S.-FNRS. None. None.

Available on ORBi :

since 20 August 2024

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Bibliography

L. Andersson A.L. Archibald C.D. Bottema R. Brauning S.C. Burgess D.W. Burt et al. Coordinated international action to accelerate genome-to-phenome with FAANG, the Functional Annotation of Animal Genomes project Genome Biol 2015 16 57 25854118 4373242
E.L. Clark A.L. Archibald H.D. Daetwyler M.A.M. Groenen P.W. Harrison R.D. Houston et al. From FAANG to fork: application of highly annotated genomes to improve farmed animal production Genome Biol 2020 21 285 33234160 7686664
L. Fang W. Cai S. Liu O. Canela-Xandri Y. Gao J. Jiang et al. Comprehensive analyses of 723 transcriptomes enhance genetic and biological interpretations for complex traits in cattle Genome Res 2020 30 790 801 1:CAS:528:DC%2BB3cXit1ehtbjO 32424068 7263193
S. Liu Y. Gao O. Canela-Xandri S. Wang Y. Yu W. Cai et al. A multi-tissue atlas of regulatory variants in cattle Nat Genet 2022 54 1438 1447 1:CAS:528:DC%2BB38XitFWltLvI 35953587 7613894
C. Yuan L. Tang T. Lopdell V.A. Petrov C. Oget-Ebrad G.C.M. Moreira et al. An organism-wide ATAC-seq peak catalog for the bovine and its use to identify regulatory variants Genome Res 2023 33 1848 1864 37751945 10691486
C. Kern Y. Wang X. Xu Z. Pan M. Halstead G. Chanthavixay et al. Functional annotations of three domestic animal genomes provide vital resources for comparative and agricultural research Nat Commun 2021 12 1821 1:CAS:528:DC%2BB3MXnsVSgtb0%3D 33758196 7988148
S. Liu Y. Yu S. Zhang J.B. Cole A. Tenesa T. Wang et al. Epigenomics and genotype-phenotype association analyses reveal conserved genetic architecture of complex traits in cattle and human BMC Biol 2020 18 80 1:CAS:528:DC%2BB3cXhtlGntL7M 32620158 7334855
A. Gusev S.H. Lee G. Trynka H. Finucane B.J. Vilhjálmsson H. Xu et al. Partitioning heritability of regulatory and cell-type-specific variants across 11 common diseases Am J Hum Genet 2014 95 535 552 1:CAS:528:DC%2BC2cXhvVCkurnM 25439723 4225595
H.K. Finucane B. Bulik-Sullivan A. Gusev G. Trynka Y. Reshef P.-R. Loh et al. Partitioning heritability by functional annotation using genome-wide association summary statistics Nat Genet 2015 47 1228 1235 1:CAS:528:DC%2BC2MXhsFKqu7rF 26414678 4626285
R. Xiang I. van den Berg I.M. MacLeod B.J. Hayes C.P. Prowse-Wilkins M. Wang et al. Quantifying the contribution of sequence variants with regulatory and evolutionary significance to 34 bovine complex traits Proc Natl Acad Sci 2019 116 19398 19408 1:CAS:528:DC%2BC1MXhvVGnsr7J 31501319 6765237
Koufariotis L, Chen Y-PP, Bolormaa S, Hayes BJ. Regulatory and coding genome regions are enriched for trait associated variants in dairy and beef cattle. BMC Genomics. 2014;15:436.
J. Yang A. Bakshi Z. Zhu G. Hemani A.A.E. Vinkhuyzen S.H. Lee et al. Genetic variance estimation with imputed variants finds negligible missing heritability for human height and body mass index Nat Genet 2015 47 1114 1120 1:CAS:528:DC%2BC2MXhsVWmu7bL 26323059 4589513
M. Patxot D.T. Banos A. Kousathanas E.J. Orliac S.E. Ojavee G. Moser et al. Probabilistic inference of the genetic architecture underlying functional enrichment of complex traits Nat Commun 2021 12 6972 1:CAS:528:DC%2BB3MXis1WksrjO 34848700 8633298
B.J. Hayes P.M. Visscher H.C. McPartlan M.E. Goddard el multilocus measure of linkage disequilibrium to estimate past effective population size Genome Res 2003 13 635 643 1:CAS:528:DC%2BD3sXjt1Sqt7s%3D 12654718 430161
I.M. MacLeod D.M. Larkin H.A. Lewin B.J. Hayes M.E. Goddard Inferring Demography from Runs of Homozygosity in Whole-Genome Sequence, with Correction for Sequence Errors Mol Biol Evol 2013 30 2209 2223 1:CAS:528:DC%2BC3sXhtlalsL7P 23842528 3748359
M. Gautier T. Faraut K. Moazami-Goudarzi V. Navratil M. Foglio C. Grohs et al. Genetic and Haplotypic Structure in 14 European and African Cattle Breeds Genetics 2007 177 1059 1070 1:CAS:528:DC%2BD2sXhtlyrs7rK 17720924 2034613
G. Leroy Inbreeding depression in livestock species: review and meta-analysis Anim Genet 2014 45 618 628 1:STN:280:DC%2BC2cfns1Smuw%3D%3D 24975026
T. Druet L. Pérez-Pardal C. Charlier M. Gautier Identification of large selective sweeps associated with major genes in cattle Anim Genet 2013 44 758 762 1:CAS:528:DC%2BC3sXhs12mtbzO 23859468
F. Farnir W. Coppieters J.J. Arranz P. Berzi N. Cambisano B. Grisart et al. Extensive genome-wide linkage disequilibrium in cattle Genome Res 2000 10 220 227 1:CAS:528:DC%2BD3cXhsVOks70%3D 10673279
L. Grobet L.J. Martin D. Poncelet D. Pirottin B. Brouwers J. Riquet et al. A deletion in the bovine myostatin gene causes the double-muscled phenotype in cattle Nat Genet 1997 17 71 74 1:CAS:528:DyaK2sXlvVGhtr8%3D 9288100
T. Druet N. Ahariz N. Cambisano N. Tamma C. Michaux W. Coppieters et al. Selection in action: dissecting the molecular underpinnings of the increasing muscle mass of Belgian Blue Cattle BMC Genomics 2014 15 796 25228463 4190573
M. Solé A.-S. Gori P. Faux A. Bertrand F. Farnir M. Gautier et al. Age-based partitioning of individual genomic inbreeding levels in Belgian Blue cattle Genet Sel Evol 2017 49 92 29273000 5741860
J.L. Gualdrón Duarte C. Yuan A.-S. Gori G.C.M. Moreira H. Takeda W. Coppieters et al. Sequenced-based GWAS for linear classification traits in Belgian Blue beef cattle reveals new coding variants in genes regulating body size in mammals Genet Sel Evol 2023 55 83 38017417 10683324
S. Heinz C. Benner N. Spann E. Bertolino Y.C. Lin P. Laslo et al. Simple Combinations of Lineage-Determining Transcription Factors Prime cis-Regulatory Elements Required for Macrophage and B Cell Identities Mol Cell 2010 38 576 589 1:CAS:528:DC%2BC3cXns1SlsLc%3D 20513432 2898526
J. Yang S.H. Lee M.E. Goddard P.M. Visscher GCTA: A Tool for Genome-wide Complex Trait Analysis Am J Hum Genet 2011 88 76 1:CAS:528:DC%2BC3MXktVejtg%3D%3D 21167468 3014363
M. Erbe B.J. Hayes L.K. Matukumalli S. Goswami P.J. Bowman C.M. Reich et al. Improving accuracy of genomic predictions within and between dairy cattle breeds with imputed high-density single nucleotide polymorphism panels J Dairy Sci 2012 95 4114 4129 1:CAS:528:DC%2BC38XoslGqt74%3D 22720968
I.M. MacLeod P.J. Bowman C.J. Vander Jagt M. Haile-Mariam K.E. Kemper A.J. Chamberlain et al. Exploiting biological priors and sequence variants enhances QTL discovery and genomic prediction of complex traits BMC Genomics 2016 17 144 1:STN:280:DC%2BC28jltlCnug%3D%3D 26920147 4769584
E.J. Orliac D. Trejo Banos S.E. Ojavee K. Läll R. Mägi P.M. Visscher et al. Improving GWAS discovery and genomic prediction accuracy in biobank data Proc Natl Acad Sci U S A 2022 119 1:CAS:528:DC%2BB38XitFCns73O 35905320 9351350
P.M. VanRaden Efficient methods to compute genomic predictions J Dairy Sci 2008 91 4414 4423 1:CAS:528:DC%2BD1cXhtlajtLzO 18946147
J. Yang J. Zeng M.E. Goddard N.R. Wray P.M. Visscher Concepts, estimation and interpretation of SNP-based heritability Nat Genet 2017 49 1304 1310 1:CAS:528:DC%2BC2sXhsVWhtbfL 28854176
D. Speed N. Cai M.R. Johnson S. Nejentsev D.J. Balding Reevaluation of SNP heritability in complex human traits Nat Genet 2017 49 986 992 1:CAS:528:DC%2BC2sXotVOksrw%3D 28530675 5493198
S.M. Edwards B. Thomsen P. Madsen P. Sørensen Partitioning of genomic variance reveals biological pathways associated with udder health and milk production traits in dairy cattle Genet Sel Evol 2015 47 60 26169777 4499908
L. Fang G. Sahana P. Ma G. Su Y. Yu S. Zhang et al. Use of biological priors enhances understanding of genetic architecture and genomic prediction of complex traits within and between dairy cattle breeds BMC Genomics 2017 18 604 28797230 5553760
Bhuiyan MSA, Lim D, Park M, Lee S, Kim Y, Gondro C, et al. Functional partitioning of genomic variance and genome-wide association study for carcass traits in korean hanwoo cattle using imputed sequence level SNP Data. Front Genet. 2018;9.
X. Cai J. Teng D. Ren H. Zhang J. Li Z. Zhang Model Comparison of Heritability Enrichment Analysis in Livestock Population Genes 2022 13 1644 1:CAS:528:DC%2BB38XisFWgsL3F 36140810 9498849
de las Heras-Saldana S, Lopez BI, Moghaddar N, Park W, Park J, Chung KY, et al. Use of gene expression and whole-genome sequence information to improve the accuracy of genomic prediction for carcass traits in Hanwoo cattle. Genet Sel Evol. 2020;52:54.
R. Xiang L. Fang S. Liu I.M. Macleod Z. Liu E.J. Breen et al. Gene expression and RNA splicing explain large proportions of the heritability for complex traits in cattle Cell Genomics 2023 3 1:CAS:528:DC%2BB3sXhslGmtbzO 37868035 10589627
G.D.L. Campos G de los D. Sorensen D. Gianola Genomic Heritability: What Is It? PLOS Genet 2015 11 e1005048 25942577 4420472
J. Yang T.A. Manolio L.R. Pasquale E. Boerwinkle N. Caporaso J.M. Cunningham et al. Genome partitioning of genetic variation for complex traits using common SNPs Nat Genet 2011 43 519 525 1:CAS:528:DC%2BC3MXlvVagsLs%3D 21552263 4295936
M.R. Robinson A.W. Santure I. DeCauwer B.C. Sheldon J. Slate Partitioning of genetic variation across the genome using multimarker methods in a wild bird population Mol Ecol 2013 22 3963 3980 23848161
N.K. Kadri J. Zhang C. Oget-Ebrad Y. Wang C. Couldrey R. Spelman et al. High male specific contribution of the X-chromosome to individual global recombination rate in dairy cattle BMC Genomics 2022 23 114 1:CAS:528:DC%2BB38XmsFWms7Y%3D 35144552 8832838
T. Druet A. Legarra Theoretical and empirical comparisons of expected and realized relationships for the X-chromosome Genet Sel Evol 2020 52 50 1:CAS:528:DC%2BB3cXhs1ygtrvF 32819272 7441635
D. Speed G. Hemani M.R. Johnson D.J. Balding Improved heritability estimation from genome-wide SNPs Am J Hum Genet 2012 91 1011 1021 1:CAS:528:DC%2BC38XhvVWis7bP 23217325 3516604
Bulik-Sullivan B. Relationship between LD Score and Haseman-Elston Regression. bioRxiv. 2015:018283.
D. Speed D.J. Balding SumHer better estimates the SNP heritability of complex traits from summary statistics Nat Genet 2019 51 277 284 1:CAS:528:DC%2BC1cXitl2iu7jO 30510236