Cattle QTL Database

Release 56
(Apr 24, 2025)

. . . from browsing trait ontology

References

On trait: Milk yield

Abeygunawardana DI, Ranasinghe RMSBK, De Silva SNT, Deshapriya RMC, Gamika PA, Rajapakse J (2023). Effect of LHCGR and FSHR gene polymorphisms on fertility traits and milk yield of cross-bred dairy cows in Sri Lanka Animal biotechnology,34(5): 1719-1726. [see all QTL by this paper]
Alain K, Karrow NA, Thibault C, St-Pierre J, Lessard M, Bissonnette N (2009). Osteopontin: an early innate immune marker of Escherichia coli mastitis harbors genetic polymorphisms with possible links with resistance to mastitis BMC Genomics,10:444. [see all QTL by this paper]
Aliloo H, Pryce JE, GonzÃ¡lez-Recio O, Cocks BG, Hayes BJ (2015). Validation of markers with non-additive effects on milk yield and fertility in Holstein and Jersey cows BMC genetics,16: 89. [see all QTL by this paper]
Alim M A, Wang P, Wu X P, Li C, Cui X G, Zhang S L, Zhang Q, Zhang Y, Sun D X (2014). Effect of FASN gene on milk yield and milk composition in the Chinese Holstein dairy population Animal genetics,45(1):111-3. [see all QTL by this paper]
Arranz JJ, Coppieters W, Berzi P, Cambisano N, Grisart B, Karim L, Marcq F,Moreau L, Mezer C, Riquet J, Simon P, Vanmanshoven P, (1998). A QTL affecting milk yield and composition maps to bovine chromosome 20: aconfirmation. Animal Genetics,29(2):107-15.. [see all QTL by this paper]
Ashwell MS, Heyen DW, Sonstegard TS, Van Tassell CP, Da Y, VanRaden PM, Ron M,Weller JI, Lewin HA. (2004). Detection of quantitative trait loci affecting milk production, health, andreproductive traits in Holstein cattle. J Dairy Sci,87(2):468-75.. [see all QTL by this paper]
Ashwell, M S; Da, Y; Van Tassell, C P; Vanraden, P M; Miller, R H; Rexroad, C E (1998). Detection of putative loci affecting milk production and composition, health, and type traits in a United States Holstein population. Journal of dairy science,81 (12): 3309-14. [see all QTL by this paper]
Awad, A; Russ, I; Emmerling, R; Förster, M; Medugorac, I (2009). Confirmation and refinement of a QTL on BTA5 affecting milk production traits in the Fleckvieh dual purpose cattle breed. Animal genetics,41(1): 1-11. [see all QTL by this paper]
Bagnato, A; Schiavini, F; Rossoni, A; Maltecca, C; Dolezal, M; Medugorac, I; SÃ¶lkner, J; Russo, V; Fontanesi, L; Friedmann, A; (2008). Quantitative trait loci affecting milk yield and protein percentage in a three-country Brown Swiss population. Journal of dairy science,91 (2): 767-83. [see all QTL by this paper]
Banos, G; Woolliams, JA; Woodward, BW; Forbes, AB; Coffey, MP (2008). Impact of single nucleotide polymorphisms in leptin, leptin receptor, growth hormone receptor, and diacylglycerol acyltransferase (DGAT1) gene loci on milk production, feed, and body energy traits of UK dairy cows J Dairy Sci,91(8): 3190-200. [see all QTL by this paper]
Barbosa da Silva MV, Sonstegard TS, Thallman RM, Connor EE, Schnabel RD, Van Tassell CP (2010). Characterization of DGAT1 allelic effects in a sample of North American Holstein cattle Anim Biotechnol.,21(2): 88-99. [see all QTL by this paper]
Bartonova P, Vrtkova I, Kaplanova K, Urban T (2012). Association between CSN3 and BCO2 gene polymorphisms and milk performance traits in the Czech Fleckvieh cattle breed. Genetics and molecular research : GMR,11 (2): 1058-63. [see all QTL by this paper]
Beecher C, Daly M, Childs S, Berry DP, Magee DA, McCarthy TV, Giblin L (2010). Polymorphisms in bovine immune genes and their associations with somatic cell count and milk production in dairy cattle BMC genetics,11:99. [see all QTL by this paper]
Bennewitz J, Reinsch N, Guiard V, Fritz S, Thomsen H, Looft C, Kuhn C, Schwerin M, Weimann C, Erhardt G, Reinhardt F, Reents R, (2004). Multiple quantitative trait loci mapping with cofactors and application of alternative variants of the false discovery rate in an enlarged granddaughter design. Genetics,168(2):1019-27.. [see all QTL by this paper]
Bennewitz, J; Reinsch, N; Paul, S; Looft, C; Kaupe, B; Weimann, C; Erhardt, G; Thaller, G; KÃ¼hn, Ch; Schwerin, M; Thomsen, H; R (2004). The DGAT1 K232A mutation is not solely responsible for the milk production quantitative trait locus on the bovine chromosome 14. Journal of dairy science,2 (87): 431-42. [see all QTL by this paper]
Bennewitz, Jorn; Reinsch, Norbert; Grohs, Cecile; Leveziel, Hubert; Malafosse, Alain; Thomsen, Hauke; Xu, Ningying; Looft, Chris (2003). Combined analysis of data from two granddaughter designs: A simple strategy for QTL confirmation and increasing experimental power in dairy cattle. Genetics, Selection, Evolution : GSE,3 (35): 319-38. [see all QTL by this paper]
Berkowicz EW, Magee DA, Sikora KM, Berry DP, Howard DJ, Mullen MP, Evans RD, Spillane C, Machugh DE (2011). Single nucleotide polymorphisms at the imprinted bovine insulin-like growth factor 2 (IGF2) locus are associated with dairy performance in Irish Holstein-Friesian cattle J Dairy Res,78(1): 1-8. [see all QTL by this paper]
Bhattarai D, Chen X, Ur Rehman Z, Hao X, Ullah F, Dad R, Talpur HS, Kadariya I, Cui L, Fan M, Zhang S (2017). Association of MAP4K4 gene single nucleotide polymorphism with mastitis and milk traits in Chinese Holstein cattle Journal of Dairy Research,84(1): 76-79. [see all QTL by this paper]
BognÃ¡r L, KÅ‘rÃ¶si ZJ, Bene SA, SzabÃ³ F, Anton I, Zsolnai A (2024). Simultaneous Effects of Single-Nucleotide Polymorphisms on the Estimated Breeding Value of Milk, Fat, and Protein Yield of Holstein Friesian Cows in Hungary Animals : an open access journal from MDPI,14(23):3518. [see all QTL by this paper]
Boichard D, Grohs C, Bourgeois F, Cerqueira F, Faugeras R, Neau A, Rupp R, Amigues Y, Boscher MY, Levéziel H. (2003). Detection of genes influencing economic traits in three French dairy cattle breeds. Genetics, Selection, Evolution : GSE,1 (35): 77-101. [see all QTL by this paper]
Bonakdar E, Rahmani HR, Edriss MA, Sayed Tabatabaei BE (2010). IGF-I gene polymorphism, but not its blood concentration, is associated with milk fat and protein in Holstein dairy cows Genet Mol Res,9(3): 1726-34. [see all QTL by this paper]
Bonfatti V, Di Martino G, Ceccinato A, Vicario D, Carnier P (2010). Effects of beta-kappa casein (CSN2-CSN3) haplotypes and beta-lactoglobulin (BLG) genotypes on milk production traits and detailed protein composition of individual milk of Simmental cows J Dairy Sci,93(8): 3797-808. [see all QTL by this paper]
Bovenhuis H, Visker M H P W, Poulsen N A, Sehested J, van Valenberg H J F, van Arendonk J A M, Larsen L B, Buitenhuis A J (2016). Effects of the diacylglycerol o-acyltransferase 1 (DGAT1) K232A polymorphism on fatty acid, protein, and mineral composition of dairy cattle milk Journal of dairy science,99(4): 3113-23. [see all QTL by this paper]
Bovenhuis H, Visker M H P W, van Valenberg H J F, Buitenhuis A J, van Arendonk J A M (2015). Effects of the DGAT1 polymorphism on test-day milk production traits throughout lactation Journal of dairy science,98(9): 6572-82. [see all QTL by this paper]
Bovenhuis H, Weller JI. (1994). Mapping and analysis of dairy cattle quantitative trait loci by maximum likelihood methodology using milk protein genes as genetic markers Genetics,137(1):267-80. [see all QTL by this paper]
Brym P, Kaminski S, Rusc A (2004). New SSCP polymorphism within bovine STAT5A gene and its associations with milkperformance traits in Black-and-White and Jersey cattle. J Appl Genet,45(4):445-52.. [see all QTL by this paper]
Buaban S, Lengnudum K, Boonkum W, Phakdeedindan P (2021). Genome-wide association study on milk production and somatic cell score for Thai dairy cattle using weighted single-step approach with random regression test-day model Journal of dairy science,S0022-0302(21)00973-5. [see all QTL by this paper]
Cai Z, Guldbrandtsen B, Lund MS, Sahana G (2018). Dissecting closely linked association signals in combination with the mammalian phenotype database can identify candidate genes in dairy cattle BMC genetics,19(1): 30. [see all QTL by this paper]
Cai Z, Guldbrandtsen B, Lund MS, Sahana G (2019). Dissecting closely linked association signals in combination with the mammalian phenotype database can identify candidate genes in dairy cattle BMC genetics,20(1): 15. [see all QTL by this paper]
Capomaccio S, Milanesi M, Bomba L, Cappelli K, Nicolazzi EL, Williams JL, Ajmone-Marsan P, Stefanon B (2015). Searching new signals for production traits through gene-based association analysis in three Italian cattle breeds Animal genetics,46(4): 361-70. [see all QTL by this paper]
Cardoso S R, Queiroz L B, Goulart V Alonso, Mourão G B, Benedetti E, Goulart L R (2011). Productive performance of the dairy cattle Girolando breed mediated by the fat-related genes DGAT1 and LEP and their polymorphisms. Research in veterinary science,91 (3): e107-12. [see all QTL by this paper]
Cecchinato A, Ribeca C, Chessa S, Cipolat-Gotet C, Maretto F, Casellas J, Bittante G (2014). Candidate gene association analysis for milk yield, composition, urea nitrogen and somatic cell scores in Brown Swiss cows. Animal : an international journal of animal bioscience,8(7): 1062-70. [see all QTL by this paper]
Chamberlain A J, Hayes B J, Savin K, Bolormaa S, McPartlan H C, Bowman P J, Van der Jagt C, MacEachern S, Goddard M E, (2012). Validation of single nucleotide polymorphisms associated with milk production traits in dairy cattle. Journal of dairy science,95 (2): 864-75. [see all QTL by this paper]
Chen A, Yang Q, Ye W, Xu L, Wang Y, Sun D, Han B (2024). Polymorphisms of CYP7A1 and HADHB Genes and Their Effects on Milk Production Traits in Chinese Holstein Cows Animals : an open access journal from MDPI,14(9):1276. [see all QTL by this paper]
Chen H, Liu C, Xiang M, Yu J, Xia Y, Hu X, Wang D, Tao B, Zhang Y, Cheng L (2022). Contribution of the mutation rs8193069 in TLR4 to mastitis resistance and performance in Holstein cows in southern China Veterinary medicine and science,8(1): 357-366. [see all QTL by this paper]
Chen HY, Zhang Q, Yin CC, Wang CK, Gong WJ, Mei G. (2006). Detection of quantitative trait loci affecting milk production traits on bovinechromosome 6 in a Chinese Holstein population by the daughter design. J Dairy Sci,89(2):782-90.. [see all QTL by this paper]
Chen R, Yang Z, Ji D, Mao Y, Chen Y, Li Y, Wu H, Wang X, Chang L (2011). Polymorphisms of the IL8 gene correlate with milking traits, SCS and mRNA level in Chinese Holstein Mol Biol Rep,38(6):4083-8. [see all QTL by this paper]
Chen S, Chai M, Tian C, Li Y, Deng T, Wu H, Liu X (2018). Genetic variants of fatty acid elongase 6 in Chinese Holstein cow Gene,670: 123-129. [see all QTL by this paper]
Chen X, Zhang S, Cheng Z, Cooke JS, Werling D, Wathes DC, Pollott GE (2017). Polymorphisms in the selectin gene cluster are associated with fertility and survival time in a population of Holstein Friesian cows PloS one,12(4): e0175555. [see all QTL by this paper]
Chen Z, Yao Y, Ma P, Wang Q, Pan Y (2018). Haplotype-based genome-wide association study identifies loci and candidate genes for milk yield in Holsteins PloS one,13(2): e0192695. [see all QTL by this paper]
Clancey E, Kiser JN, Moraes JGN, Dalton J, Spencer TE, Neibergs HL (2019). Genome-Wide association analysis and gene set enrichment analysis-SNP identify genes associated with 305-day milk yield in Holstein dairy cows Animal Genetics, 50(3):254-258. [see all QTL by this paper]
Clempson AM, Pollott GE, Brickell JS, Bourne NE, Munce N, Wathes DC (2011). Evidence that leptin genotype is associated with fertility, growth, and milk production in Holstein cows J Dairy Sci,94(7):3618-28. [see all QTL by this paper]
Cochran SD, Cole JB, Null DJ, Hansen PJ (2013). Discovery of single nucleotide polymorphisms in candidate genes associated with fertility and production traits in Holstein cattle BMC genetics,14: 49. [see all QTL by this paper]
Cohen-Zinder M, Seroussi E, Larkin DM, Loor JJ, Everts-van der Wind A, Lee JH, Drackley JK, Band MR, Hernandez AG, Shani M, Lewi (2005). Identification of a missense mutation in the bovine ABCG2 gene with a major effect on the QTL on chromosome 6 affecting milk yield and composition in Holstein cattle Genome Research,15(7):936-44.. [see all QTL by this paper]
Cole JB, Wiggans GR, Ma L, Sonstegard TS, Lawlor TJ Jr, Crooker BA, Van Tassell CP, Yang J, Wang S, Matukumalli LK, Da Y (2011). Genome-wide association analysis of thirty one production, health, reproduction and body conformation traits in contemporary U.S. Holstein cows BMC Genomics,12:408. [see all QTL by this paper]
Coppieters W, Riquet J, Arranz JJ, Berzi P, Cambisano N, Grisart B, Karim L, Marcq F, Moreau L, Nezer C, Simon P, Vanmanshoven P (1998). A QTL with major effect on milk yield and composition maps to bovine Chromosome 14 Mammalian genome,9(7):540-4.. [see all QTL by this paper]
Cortes-HernÃ¡ndez JG, GarcÃa-Ruiz A, PeÃ±agaricano F, Montaldo HH, Ruiz-LÃ³pez FJ (2025). Uncovering the genetic basis of milk production traits in Mexican Holstein cattle based on individual markers and genomic windows PLoS One,20(2): e0314888. [see all QTL by this paper]
da Cruz AS, Silva DC, Minasi LB, de Farias Teixeira LK, Rodrigues FM, da Silva CC, do Carmo AS, da Silva MVGB, Utsunomiya YT, Garcia JF, da Cruz AD (2021). Single-Nucleotide Polymorphism Variations Associated With Specific Genes Putatively Identified Enhanced Genetic Predisposition for 305-Day Milk Yield in the Girolando Crossbreed Frontiers in genetics,11: 573344. [see all QTL by this paper]
Daetwyler, H D; Schenkel, F S; Sargolzaei, M; Robinson, J A B (2008). A genome scan to detect quantitative trait loci for economically important traits in Holstein cattle using two methods and a dense single nucleotide polymorphism map. Journal of dairy science,91 (8): 3225-36. [see all QTL by this paper]
Dar MR, Singh M, Thakur S, Verma A (2021). Exploring the relationship between polymorphisms of leptin and IGF-1 genes with milk yield in indicine and taurine crossbred cows Tropical animal health and production,53(4): 413. [see all QTL by this paper]
De Matteis G, Grandoni F, Signorelli F, Degano L, Vicario D, Buttazzoni L, Napolitano F (2022). Combined effects of CXCL8 (IL-8) and CXCR2 (IL-8R) gene polymorphisms on deregressed MACE EBV indexes of milk-related traits in Simmental bulls Journal of Dairy Research,89(4): 375-381. [see all QTL by this paper]
Do D N, Schenkel F, Miglior F, Zhao X, Ibeagha-Awemu E M (2020). Targeted genotyping to identify potential functional variants associated with cholesterol content in bovine milk Anim Genet,51(2):200-209. [see all QTL by this paper]
Du A, Zhao F, Liu Y, Xu L, Chen K, Sun D, Han B (2022). Genetic polymorphisms of PKLR gene and their associations with milk production traits in Chinese Holstein cows Frontiers in Genetics,13: 1002706. [see all QTL by this paper]
ErdoÄŸan M, Ã‡inkaya S, Brenig B, Ã‡elikeloÄŸlu K, DemirtaÅŸ M, SarÄ±ibrahimoÄŸlu S, Tekerli M (2024). Genome-wide association studies for milk production traits and persistency of first calving Holstein cattle in TÃ¼rkiye Frontiers in Veterinary Science,11: 1461075. [see all QTL by this paper]
Fang L, Sahana G, Su G, Yu Y, Zhang S, Lund MS, SÃ¸rensen P (2018). Integrating Sequence-based GWAS and RNA-Seq Provides Novel Insights into the Genetic Basis of Mastitis and Milk Production in Dairy Cattle Scientific reports,7: 45560. [see all QTL by this paper]
Fang L, SÃ¸rensen P, Sahana G, Panitz F, Su G, Zhang S, Yu Y, Li B, Ma L, Liu G, Lund MS, Thomsen B (2018). MicroRNA-guided prioritization of genome-wide association signals reveals the importance of microRNA-target gene networks for complex traits in cattle Scientific reports,8(1): 9345. [see all QTL by this paper]
Fang M, Fu W, Jiang D, Zhang Q, Sun D, Ding X, Liu J (2014). A multiple-SNP approach for genome-wide association study of milk production traits in Chinese Holstein cattle PloS one,9(8): e99544. [see all QTL by this paper]
Fink T, Tiplady K, Lopdell T, Johnson T, Snell RG, Spelman RJ, Davis SR, Littlejohn MD (2017). Functional confirmation of PLAG1 as the candidate causative gene underlying major pleiotropic effects on body weight and milk characteristics Scientific Reports,7:44793. [see all QTL by this paper]
Fomichev K A, Sazanova A L, Malewski T, Kaminski S, Sazanov A A (2012). Associations between two novel rSNPs in 5'-flanking region of the bovine casein gene cluster and milk performance traits. Gene,496 (1): 49-54. [see all QTL by this paper]
Fontanesi L, Calò D G, Galimberti G, Negrini R, Marino R, Nardone A, Ajmone-Marsan P, Russo V (2014). A candidate gene association study for nine economically important traits in Italian Holstein cattle Animal genetics,45(4): 576-80. [see all QTL by this paper]
Freyer, G; Kuhn, C; Weikard, R; Zhang, Q; Mayer, M; Hoeschele, I (2002). Multiple QTL on chromosome six in dairy cattle affecting yield and content traits. J Anim Breed Genet,119: 69-82. [see all QTL by this paper]
Friedrich J, Brand B, Ponsuksili S, Graunke KL, Langbein J, Knaust J, Kühn C, Schwerin M (2016). Detection of genetic variants affecting cattle behaviour and their impact on milk production: a genome-wide association study Animal genetics,47(1): 12-8. [see all QTL by this paper]
Fu Y, Jia R, Xu L, Su D, Li Y, Liu L, Ma Z, Sun D, Han B (2022). Fatty acid desaturase 2 affects the milk-production traits in Chinese Holsteins Animal Genetics,53(3):422-426. [see all QTL by this paper]
Galvao K N, Pighetti G M, Cheong S H, Nydam D V, Gilbert R O (2011). Association between interleukin-8 receptor-α (CXCR1) polymorphism and disease incidence, production, reproduction, and survival in Holstein cows. Journal of dairy science,94 (4): 2083-91. [see all QTL by this paper]
Gao, H; Fang, M; Liu, J; Zhang, Q (2009). Bayesian shrinkage mapping for multiple QTL in half-sib families. Heredity,103(5): 368-76. [see all QTL by this paper]
Georges M, Nielsen D, Mackinnon M, Mishra A, Okimoto R, Pasquino AT, Sargeant LS, Sorensen A, Steele MR, Zhao X, et al. (1995). Mapping quantitative trait loci controlling milk production in dairy cattle by exploiting progeny testing. Genetics,139(2):907-20.. [see all QTL by this paper]
Gervais O, Pong-Wong R, Navarro P, Haley CS, Nagamine Y (2017). Antagonistic genetic correlations for milking traits within the genome of dairy cattle. PLoS One,12(4):e0175105. [see all QTL by this paper]
Giblin L, Butler ST, Kearney BM, Waters SM, Callanan MJ, Berry DP (2010). Association of bovine leptin polymorphisms with energy output and energy storage traits in progeny tested Holstein-Friesian dairy cattle sires BMC genetics,11:73. [see all QTL by this paper]
Grisart B, Coppieters W, Farnir F, Karim L, Ford C, Berzi P, Cambisano N, Mni M, Reid S, Simon P, Spelman R, Georges M, Snell R. (2002). Positional candidate cloning of a QTL in dairy cattle: identification of a missense mutation in the bovine DGAT1 gene with major effect on milk yield and composition Genome Research,12(2):222-31. [see all QTL by this paper]
Guo J, Jorjani H, Carlborg 0 (2012). A genome-wide association study using international breeding-evaluation data identifies major loci affecting production traits and stature in the Brown Swiss cattle breed. BMC genetics,13: 82. [see all QTL by this paper]
Han B, Liang W, Liu L, Li Y, Sun D (2017). Determination of genetic effects of ATF3 and CDKN1A genes on milk yield and compositions in Chinese Holstein population BMC genetics,18(1): 47. [see all QTL by this paper]
Han B, Liang W, Liu L, Li Y, Sun D (2018). Genetic association of the ACACB gene with milk yield and composition traits in dairy cattle Animal genetics,49(3):169-177. [see all QTL by this paper]
Han B, Yuan Y, Li Y, Liu L, Sun D (2019). Single Nucleotide Polymorphisms of NUCB2 and their Genetic Associations with Milk Production Traits in Dairy Cows Genes,10(6). [see all QTL by this paper]
Han B, Yuan Y, Liang R, Li Y, Liu L, Sun D (2019). Genetic Effects of LPIN1 Polymorphisms on Milk Production Traits in Dairy Cattle Genes,10(4):E265. [see all QTL by this paper]
Harder B, Bennewitz J, Reinsch N, Thaller G, Thomsen H, Kuhn C, Schwerin M,Erhardt G, Forster M, Reinhardt F, Kalm E. (2006). Mapping of quantitative trait loci for lactation persistency traits in GermanHolstein dairy cattle. J Anim Breed Genet,123(2):89-96.. [see all QTL by this paper]
He X, Chu MX, Qiao L, He JN, Wang PQ, Feng T, Di R, Cao GL, Fang L, An YF (2012). Polymorphisms of STAT5A gene and their association with milk production traits in Holstein cows Mol Biol Rep,39(3):2901-7. [see all QTL by this paper]
He Y, Chu Q, Ma P, Wang Y, Zhang Q, Sun D, Zhang Y, Yu Y, Zhang Y (2011). Association of bovine CD4 and STAT5b single nucleotide polymorphisms with somatic cell scores and milk production traits in Chinese Holsteins J Dairy Res,25:1-8. [see all QTL by this paper]
Heck JM, Schennink A, van Valenberg HJ, Bovenhuis H, Visker MH, van Arendonk JA, van Hooijdonk AC (2009). Effects of milk protein variants on the protein composition of bovine milk J Dairy Sci,92(3): 1192-202. [see all QTL by this paper]
Heyen DW, Weller JI, Ron M, Band M, Beever JE, Feldmesser E, Da Y, Wiggans GR,VanRaden PM, Lewin HA. (1999). A genome scan for QTL influencing milk production and health traits in dairycattle. Physiol Genomics,1(3):165-75.. [see all QTL by this paper]
Hill R, Canal A, Bondioli K, Morell R, Garcia M D (2016). Molecular markers located on the DGAT1, CAST, and LEPR genes and their associations with milk production and fertility traits in Holstein cattle Genetics and molecular research : GMR,15(1). [see all QTL by this paper]
Höglund, J K; Buitenhuis, A J; Guldbrandtsen, B; Su, G; Thomsen, B; Lund, M S; (2009). Overlapping chromosomal regions for fertility traits and production traits in the Danish Holstein population. Journal of dairy science,92(11): 5712-9. [see all QTL by this paper]
Ibeagha-Awemu EM, Peters SO, Akwanji KA, Imumorin IG, Zhao X (2016). High density genome wide genotyping-by-sequencing and association identifies common and low frequency SNPs, and novel candidate genes influencing cow milk traits Scientific reports,6: 31109. [see all QTL by this paper]
Iso-Touru T, Sahana G, Guldbrandtsen B, Lund M S, Vilkki J (2016). Genome-wide association analysis of milk yield traits in Nordic Red Cattle using imputed whole genome sequence variants BMC genetics,17: 55. [see all QTL by this paper]
Iung LHS, Petrini J, RamÃrez-DÃaz J, Salvian M, Rovadoscki GA, Pilonetto F, Dauria BD, Machado PF, Coutinho LL, Wiggans GR, MourÃ£o GB (2019). Genome-wide association study for milk production traits in a Brazilian Holstein population Journal of dairy science,102(6):5305-5314. [see all QTL by this paper]
Jia R, Fu Y, Xu L, Li H, Li Y, Liu L, Ma Z, Sun D, Han B (2021). Associations between polymorphisms of SLC22A7, NGFR, ARNTL and PPP2R2B genes and Milk production traits in Chinese Holstein BMC genomic data,22(1): 47. [see all QTL by this paper]
Jia R, Xu L, Sun D, Han B (2022). Genetic marker identification of SEC13 gene for milk production traits in Chinese holstein Frontiers in Genetics,13: 1065096. [see all QTL by this paper]
Jiang J, Liu L, Gao Y, Shi L, Li Y, Liang W, Sun D (2019). Determination of genetic associations between indels in 11 candidate genes and milk composition traits in Chinese Holstein population BMC genetics,20(1): 48. [see all QTL by this paper]
Jiang J, Ma L, Prakapenka D, VanRaden PM, Cole JB, Da Y (2019). A Large-Scale Genome-Wide Association Study in U.S. Holstein Cattle Frontiers in genetics,10: 412. [see all QTL by this paper]
Jiang J, Shen B, O'Connell JR, VanRaden PM, Cole JB, Ma L (2017). Dissection of additive, dominance, and imprinting effects for production and reproduction traits in Holstein cattle BMC genomics,18(1): 425. [see all QTL by this paper]
Jiang L, Liu J, Sun D, Ma P, Ding X, Yu Y, Zhang Q (2010). Genome wide association studies for milk production traits in Chinese Holstein population PloS one,5(10): e13661. [see all QTL by this paper]
Jiang L, Liu X, Yang J, Wang H, Jiang J, Liu L, He S, Ding X, Liu J, Zhang Q (2014). Targeted resequencing of GWAS loci reveals novel genetic variants for milk production traits BMC genomics,15(1): 1105. [see all QTL by this paper]
Jiang Z, De S, Garcia MD, Griffin KB, Wu XL, Xiao Q, Michal JJ, Sharma BS, Jansen GB (2005). An independent confirmation of a quantitative trait locus for milk yield and composition traits on bovine chromosome 26. J Anim Breed Genet,122(4):281-4.. [see all QTL by this paper]
Kadri NK, Guldbrandtsen B, Lund MS, Sahana G (2015). Genetic dissection of milk yield traits and mastitis resistance QTL on chromosome 20 in dairy cattle Journal of dairy science,98(12):9015-25. [see all QTL by this paper]
Kaupe, B; Brandt, H; Prinzenberg, E-M; Erhardt, G; (2007). Joint analysis of the influence of CYP11B1 and DGAT1 genetic variation on milk production, somatic cell score, conformation, reproduction, and productive lifespan in German Holstein cattle. J Anim Sci,1 (85): 11-21. [see all QTL by this paper]
Kemper KE, Bowman PJ, Hayes BJ, Visscher PM, Goddard ME (2018). A multi-trait Bayesian method for mapping QTL and genomic prediction Genetics, Selection, Evolution : GSE,50(1): 10. [see all QTL by this paper]
Khatib, H; Zaitoun, I; Wiebelhaus-Finger, J; Chang, Y M; Rosa, G J M (2007). The association of bovine PPARGC1A and OPN genes with milk composition in two independent Holstein cattle populations. Journal of dairy science,90 (6): 2966-70. [see all QTL by this paper]
Kim S, Lim B, Cho J, Lee S, Dang CG, Jeon JH, Kim JM, Lee J (2021). Genome-Wide Identification of Candidate Genes for Milk Production Traits in Korean Holstein Cattle Animals (Basel),11(5):1392. [see all QTL by this paper]
Kolbehdari D, Wang Z, Grant J R, Murdoch B, Prasad A, Xiu Z, Marques E, Stothard P, Moore S S (2009). A whole genome scan to map QTL for milk production traits and somatic cell score in Canadian Holstein bulls Journal of animal breeding and genetics,126(3): 216-27. [see all QTL by this paper]
Kolenda M, Sitkowska B, Kamola D, Lambert BD (2021). Composite genotypes of progestogen-associated endometrial protein gene and their association with composition and quality of dairy cattle milk Animal bioscience,34(8): 1283-1289. [see all QTL by this paper]
KorkuÄ‡ P, Arends D, May K, KÃ¶nig S, Brockmann GA (2021). Genomic Loci Affecting Milk Production in German Black Pied Cattle (DSN) Frontiers in genetics,12: 640039. [see all QTL by this paper]
KriÅ¾anac AM, Reimer C, Heise J, Liu Z, Pryce JE, Bennewitz J, Thaller G, Falker-Gieske C, Tetens J (2025). Sequence-based GWAS in 180,000 German Holstein cattle reveals new candidate variants for milk production traits Genetics, selection, evolution : GSE,57(1): 3. [see all QTL by this paper]
Kucerova J, Lund MS, Sorensen P, Sahana G, Guldbrandtsen B, Nielsen VH, ThomsenB, Bendixen C. (2006). Multitrait quantitative trait Loci mapping for milk production traits in danishHolstein cattle. J Dairy Sci,89(6):2245-56.. [see all QTL by this paper]
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