Cattle QTL Database

Release 56
(Apr 24, 2025)

. . . from browsing trait ontology

References

On trait: Body weight

Aguilar I, Legarra A, Cardoso F, Masuda Y, Lourenco D, Misztal I (2019). Frequentist p-values for large-scale-single step genome-wide association, with an application to birth weight in American Angus cattle Genetics, Selection, Evolution : GSE,51(1): 28. [see all QTL by this paper]
Akanno EC, Chen L, Abo-Ismail MK, Crowley JJ, Wang Z, Li C, Basarab JA, MacNeil MD, Plastow GS (2018). Genome-wide association scan for heterotic quantitative trait loci in multi-breed and crossbred beef cattle Genetics, Selection, Evolution : GSE,50(1): 48. [see all QTL by this paper]
Akanno EC, Plastow G, Fitzsimmons C, Miller SP, Baron V, Ominski K, Basarab JA (2015). Genome-wide association for heifer reproduction and calf performance traits in beef cattle Genome,58(12): 549-57. [see all QTL by this paper]
Alexander, L J; Geary, T W; Snelling, W M; Macneil, M D (2007). Quantitative trait loci with additive effects on growth and carcass traits in a Wagyu-Limousin F2 population. Animal genetics,38 (4): 413-6. [see all QTL by this paper]
Allais S, Levéziel H, Payet-Duprat N, Hocquette JF, Lepetit J, Rousset S, Denoyelle C, Bernard-Capel C, Journaux L, Bonnot A, Renand G. (2010). The two mutations, Q204X and nt821, of the myostatin gene affect carcass and meat quality in young heterozygous bulls of French beef breeds J Anim Sci,88 (2):446-54. [see all QTL by this paper]
Ardiyanti A, Abe F, Kobashikawa H, Hirayama T, Sugino T, Suzuki K, Katoh K (2009). Plasma hormone and metabolite concentrations involved in the somatotropic axis of Japanese Black heifers in association with growth hormone gene polymorphism Domest Anim Endocrinol,37(4): 243-9. [see all QTL by this paper]
Baeza M C, Corva P M, Soria L A, Rincon G, Medrano J F, Pavan E, Villarreal E L, Schor A, Melucci L, Mezzadra C, Miquel M C, (2011). Genetic markers of body composition and carcass quality in grazing Brangus steers. Genetics and molecular research : GMR,10 (4): 3146-56. [see all QTL by this paper]
Bila L, Putra WPB, Malatji DP, Sanarana YP, Tyasi TL (2024). Genome-wide association study (GWAS) for body weights of sussex cattle (Bos taurus) in South Africa Heliyon,10(20): e39540. [see all QTL by this paper]
Buzanskas ME, Grossi DA, Ventura RV, Schenkel FS, Sargolzaei M, Meirelles SLC, Mokry FB, Higa RH, Mudadu MA, da Silva MVG, Niciura SCM, Júnior RAA, Alencar MM, Regitano LCA, Munari DP (2014). Genome-wide association for growth traits in Canchim beef cattle PloS one,9(4): e94802. [see all QTL by this paper]
C. Li, J. Basarab, W. M. Snelling, B. Benkel, B. MUrdoch, C. Hansen, S. S. Moore (2004). Assessment of Positional Candidate Genes myf5 and igf1 for Growth on Bovine Chromosome 5 in Commercial Lines of Bos taurus J Anim Sci,82:1-7. [see all QTL by this paper]
Cai H1, Lan X, Li A, Zhou Y, Sun J, Lei C, Zhang C, Chen H (2013). SNPs of bovine HGF gene and their association with growth traits in Nanyang cattle Research in veterinary science,95(2): 483-8. [see all QTL by this paper]
Cao XK, Wang J, Lan XY, Lei CZ, Zhang CL, Qi XL, Chen H (2013). Genetic variants in BMP8B gene are associated with growth traits in Chinese native cattle Gene,532(1): 108-13. [see all QTL by this paper]
Chen N B, Ma Y, Yang T, Lin F, Fu W W, Xu Y J, Li F, Li J Y, Gao S X (2015). Tissue expression and predicted protein structures of the bovine ANGPTL3 and association of novel SNPs with growth and meat quality traits. Animal : an international journal of animal bioscience,9(8):1285-97. [see all QTL by this paper]
Chinchilla-Vargas J, Kramer LM, Tucker JD, Hubbell DS, Powell JG, Lester TD, Backes EA, Anschutz K, Decker JE, Stalder KJ, Rothschild MF, Koltes JE (2020). Genetic Basis of Blood-Based Traits and Their Relationship With Performance and Environment in Beef Cattle at Weaning Frontiers in genetics,11: 717. [see all QTL by this paper]
Cole J B, Waurich B, Wensch-Dorendorf M, Bickhart D M, Swalve H H (2014). A genome-wide association study of calf birth weight in Holstein cattle using single nucleotide polymorphisms and phenotypes predicted from auxiliary traits Journal of dairy science,97(5): 3156-72. [see all QTL by this paper]
Collis E, Fortes M R S, Zhang Y, Tier B, Schutt K, Barendse W, Hawken R (2012). Genetic variants affecting meat and milk production traits appear to have effects on reproduction traits in cattle. Animal genetics,43 (4): 442-6. [see all QTL by this paper]
Crispim AC, Kelly MJ, Guimarães SEF, E Silva FF, Fortes MRS, Wenceslau RR, Moore S (2015). Multi-Trait GWAS and New Candidate Genes Annotation for Growth Curve Parameters in Brahman Cattle. PloS one,10(10): e0139906. [see all QTL by this paper]
da Silva Neto JB, Peripoli E, Pereira ASC, Stafuzza NB, LÃ´bo RB, Fukumasu H, Ferraz JBS, Baldi F (2023). Weighted genomic prediction for growth and carcass-related traits in Nelore cattle. Animal Genetics,54(3): 271-283. [see all QTL by this paper]
Dang Y, Li M, Yang M, Cao X, Lan X, Lei C, Zhang C, Lin Q, Chen H (2014). Identification of bovine NPC1 gene cSNPs and their effects on body size traits of Qinchuan cattle Gene,540(2): 153-60. [see all QTL by this paper]
de Camargo GMF, Porto-Neto LR, Kelly MJ, Bunch RJ, McWilliam SM, Tonhati H, Lehnert SA, Fortes MRS, Moore SS (2015). Non-synonymous mutations mapped to chromosome X associated with andrological and growth traits in beef cattle BMC genomics,16: 384. [see all QTL by this paper]
Deatley, K L; Rincon, G; Farber, C R; Medrano, J F; Luna-Nevarez, P; Enns, R M; Vanleeuwen, D M; Silver, G A; Thomas, M G (2011). Genetic analyses involving microsatellite ETH10 genotypes on bovine chromosome 5 and performance trait measures in Angus- and Brahman-influenced cattle. J Anim Sci,89(7): 2031-41. [see all QTL by this paper]
Du L, Duan X, An B, Chang T, Liang M, Xu L, Zhang L, Li J, E G, Gao H (2021). Genome-Wide Association Study Based on Random Regression Model Reveals Candidate Genes Associated with Longitudinal Data in Chinese Simmental Beef Cattle Animals (Basel),11(9):2524. [see all QTL by this paper]
E. Casas, D. D. Lunstra, and R. T. Stone (2004). Quantitative Trait Loci for Male Reproductive Traits in Beef Cattle Animal Genetics,35: 451-453. [see all QTL by this paper]
E. Casas, J. W. Keele, S. D. Shackelford, M. Koohmaraie, R. T. Stone (2003). Identification of Quantitative Trait Loci for Growth and Carcass Composition in Cattle Animal Genetics,35: 2-6. [see all QTL by this paper]
E. Casas, J. W. Keele, S. D. Shackelford, M. Koohmaraie, T. S. Sonstegard, T.P.L. Smith, S. M. Kappes, and R.T. Stone (1998). Association of the Muscle Hpertrophy Locus with Carcass Traits in Beef Cattle J Anim Sci,76: 468-473. [see all QTL by this paper]
E. Casas, S. D. Shackelford, J. W. Keele, M. Koohmaraie, T. P. L. Smith, R. T. Stone (2003). Detection of Quantitative Trait Loci for Growth and Carcass Composition in Cattle J Anim Sci,81: 2976-2983. [see all QTL by this paper]
E. Casas, S. D. Shackelford, J. W. Keele, R. T. Stone, S. M. Kappes, and M. Koohmaraie (2000). Quantitative Trait Loci Affecting Growth and Carcass Composition of Cattle Segregating Alternate Forms of Myostatin J Anim Sci,78: 560-569. [see all QTL by this paper]
Eberlein, A; Takasuga, A; Setoguchi, K; Pfuhl, R; Flisikowski, K; Fries, R; Klopp, N; Furbass, R; Weikard, R; Kuhn, C (2009). Dissection of genetic factors modulating fetal growth in cattle indicates a substantial role of the non-SMC condensin I complex, subunit G (NCAPG) gene. Genetics,183(3): 951-64. [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]
Frischknecht M, Bapst B, Seefried FR, Signer-Hasler H, Garrick D, Stricker C, Intergenomics Consortium, Fries R, Russ I, SÃ¶lkner J, Bieber A, Strillacci MG, Gredler-Grandl B, Flury C (2017). Genome-wide association studies of fertility and calving traits in Brown Swiss cattle using imputed whole-genome sequences. BMC genomics,18(1): 910. [see all QTL by this paper]
Fu W, Chen N, Han S, Huang J, Li F, Hao R, Chen H, Lei C, Ma Y (2018). Tissue expression and variation analysis of three bovine adipokine genes revealed their effect on growth traits in native Chinese cattle Reproduction in domestic animals,53(5): 1227-1234. [see all QTL by this paper]
Gutiérrez-Gil B, Wiener P, Williams J L, Haley C S (2012). Investigation of the genetic architecture of a bone carcass weight QTL on BTA6. Animal genetics,43 (6): 654-61. [see all QTL by this paper]
Gutierrez-Gil, B; Williams, J L; Homer, D; Burton, D; Haley, C S; Wiener, P (2009). Search for quantitative trait loci affecting growth and carcass traits in a cross population of beef and dairy cattle. J Anim Sci,87 (1): 24-36. [see all QTL by this paper]
Hanotte O, Ronin Y, Agaba M, Nilsson P, Gelhaus A, Horstmann R, Sugimoto Y, KempS, Gibson J, Korol A, Soller M, Teale A. (2003). Mapping of quantitative trait loci controlling trypanotolerance in a cross oftolerant West African N'Dama and susceptible East African Boran cattle. Proc Natl Acad Sci U S A.,100(13):7443-8.. [see all QTL by this paper]
He H, Liu X, Gu Y, Liu Y (2010). A novel 18-bp deletion mutation of the AMPD1 gene affects carcass traits in Qinchuan cattle Mol Biol Rep,37(8): 3945-9. [see all QTL by this paper]
He H, Liu X, Gu Y, Liu Y, Yang J (2011). Effect of genetic variation of CEBPA gene on body measurement and carcass traits of Qinchuan cattle. Molecular biology reports,38(8): 4965-9. [see all QTL by this paper]
He W, Fang X, Lu X, Liu Y, Li G, Zhao Z, Li J, Yang R (2021). Function Identification of Bovine ACSF3 Gene and Its Association With Lipid Metabolism Traits in Beef Cattle Frontiers in Veterinary Science,8: 766765. [see all QTL by this paper]
HernÃ¡ndez N, MartÃnez-GonzÃ¡lez JC, Parra-Bracamonte GM, Sifuentes-RincÃ³n AM, LÃ³pez-Villalobos N, Morris ST, Briones-Encinia F, Ortega-Rivas E, Pacheco-Contreras VI, L A Meza-GarcÃa A (2016). Association of polymorphisms in growth hormone and leptin candidate genes with live weight traits of Brahman cattle Genetics and molecular research : GMR,15(3). [see all QTL by this paper]
Huang Y, Zhang E, Wang J, Huai Y, Lan X, Ma L, Li Z, Ren G, Chen F, Lei C, Wang J, Chen H (2010). Two novel coding SNPs of SREBP1c gene are associated with body weight and average daily gain in bovine Anim Biotechnol.,21(3): 170-8. [see all QTL by this paper]
Huang YZ, He H, Wang J, Li ZJ, Lan XY, Lei CZ, Zhang EP, Zhang CL, Wang JQ, Shen QW, Chen H (2011). Sequence variants in the bovine nucleophosmin 1 gene, their linkage and their associations with body weight in native cattle breeds in China Animal Genetics,42(5):556-9. [see all QTL by this paper]
Huang YZ, He H, Zhan ZY, Sun YJ, Li MX, Lan XY, Lei CZ, Zhang CL, Chen H (2013). Relationship of polymorphisms within ZBED6 gene and growth traits in beef cattle Gene,526(2): 107-11. [see all QTL by this paper]
Huang YZ, Jing YJ, Sun YJ, Lan XY, Zhang CL, Song EL, Chen H (2015). Exploring genotype-phenotype relationships of the LHX3 gene on growth traits in beef cattle Gene,561(2): 219-24. [see all QTL by this paper]
Huang YZ, Li JJ, Zhang CL, Fang XT, Lan XY, Qi XL, Chen H (2016). Effect of Genetic Variations within the I-mfa Gene on the Growth Traits of Chinese Cattle Animal biotechnology,27(4): 278-86. [see all QTL by this paper]
Huang YZ, Sun YJ, Li MX, Wang J, Sun JJ, Zhang CL, Jia YT, Chen H (2015). Evaluation of the causality of the zinc finger BED-type containing 6 gene (ZBED6) for six important growth traits in Nanyang beef cattle Animal genetics,46(2): 225-226. [see all QTL by this paper]
Huang YZ, Wang J, Zhan ZY, Cao XK, Sun YJ, Lan XY, Lei CZ, Zhang CL, Chen H (2013). Assessment of association between variants and haplotypes of the IGF2 gene in beef cattle Gene,528(2): 139-45. [see all QTL by this paper]
Huang YZ, Wang KY, He H, Shen QW, Lei CZ, Lan XY, Zhang CL, Chen H (2013). Haplotype distribution in the GLI3 gene and their associations with growth traits in cattle Gene,513(1): 141-6. [see all QTL by this paper]
Huang YZ, Wang XL, He H, Lan XY, Lei CZ, Zhang CL, Chen H (2013). Identification and genetic effect of haplotype in the bovine BMP7 gene Gene,532(2): 281-7. [see all QTL by this paper]
Huang YZ, Zhang EP, Chen H, Wang J, Li ZJ, Huai YT, Ma L, Lan XY, Ren G, Lei CZ, Fang XT, Wang JQ (2010). Novel 12-bp deletion in the coding region of the bovine NPM1 gene affects growth traits J Appl Genet,51(2): 199-202. [see all QTL by this paper]
Igoshin A V, Yudin N S, Belonogova N M, Larkin D M (2019). Genome-wide association study for body weight in cattle populations from Siberia Animal genetics,50(3):250-253. [see all QTL by this paper]
Imumorin IG, Kim E-H, Lee Y-M, De Koning D-J, van Arendonk JA, De Donato M, Taylor JF, Kim J-J (2011). Genome scan for parent-of-origin QTL effects on bovine growth and carcass traits Frontiers in Genetics,2:44. [see all QTL by this paper]
J. J. Kim, F. Farnir, J. Savell, J. F. Taylor (2003). Detection of Quantitative Trait Loci for Growth and Beef Carcass Fatness Traits in a Cross Between Bos taurus (Angus) and Bos indicus (Brahman) Cattle J Anim Sci,81: 1933-1942. [see all QTL by this paper]
J. Kneeland, C. Li, J. Basarab, W. M. Snelling, B. Benkel, B. Murdoch, C. Hansen, and S. S. Moore (2004). Identification and fine mapping of quantitative trait loci for growth traits on bovine chromosomes 2, 6, 14, 19, 21, 23 within one commercial line of Bos taurus J Anim Sci,82: 3405-3414. [see all QTL by this paper]
J.F. Taylor, L. L. Coutinho, K. L. Herring, D. S. Gallagher Jr, R. A. Brenneman, N. Burney, J. O. Sanders, J. W. Turner, S. B. S (1998). Candidate Gene Analysis of GH1 for Effects on Growth and Carcass Composition of Cattle Animal Genetics,29: 194-201. [see all QTL by this paper]
Jahuey-MartÃnez FJ, Parra-Bracamonte GM, Sifuentes-RincÃ³n AM, MartÃnez-GonzÃ¡lez JC, Gondro C, GarcÃa-PÃ©rez CA, LÃ³pez-Bustamante LA (2016). Genomewide association analysis of growth traits in Charolais beef cattle Journal of animal science,94(11): 4570-4582. [see all QTL by this paper]
Jevsinek Skok D, Kunej T, Kovac M, Malovrh S, Potocnik K, Petric N, Zgur S, Dovc P, Horvat S (2016). FTO gene variants are associated with growth and carcass traits in cattle Animal genetics,47(2): 219-222. [see all QTL by this paper]
Jin Y, Yang Q, Gao J, Tang Q, Duan B, Yu T, Qi X, Liu J, Wang R, Dang R, Lei C, Chen H, Lan X (2018). Detection of Insertions/Deletions Within SIRT1, SIRT2 and SIRT3 Genes and Their Associations with Body Measurement Traits in Cattle Biochemical genetics,56(6):663-676. [see all QTL by this paper]
K. T. Elo, J. Vilkki, D. J. de Koning, R. J. Velmala, and A. V. Maki-Tanila (1999). A Quantitative Trait Locus for LIve Weight Maps to Bovine Chromosome 23 Mammalian genome,10: 831-835. [see all QTL by this paper]
Keogh K, Carthy T R, McClure M C, Waters S M, Kenny D A (2021). Genome-wide association study of economically important traits in Charolais and Limousin beef cows Animal : an international journal of animal bioscience,15(1): 100011. [see all QTL by this paper]
Kim Y, Ryu J, Lee C (2014). Replicated association of single-nucleotide marker on chromosome 6 with bovine yearling weight using a mixed model analysis. Animal genetics,45(1): 151-3. [see all QTL by this paper]
Komatsu M, Itoh T, Fujimori Y, Satoh M, Miyazaki Y, Takahashi H, Shimizu K, Malau-Aduli AE, Morita M (2011). Genetic association between GHSR1a 5'UTR-microsatellite and nt-7(C>A) loci and growth and carcass traits in Japanese Black cattle Anim Sci J,82(3):396-405. [see all QTL by this paper]
Kour A, Deb SM, Nayee N, Niranjan SK, Raina VS, Mukherjee A, Gupta ID, Patil CS (2023). Novel insights into genome-wide associations in Bos indicus reveal genetic linkages between fertility and growth Animal biotechnology,34(1):39-55. [see all QTL by this paper]
Li F, Chen H, Lei CZ, Ren G, Wang J, Li ZJ, Wang JQ (2010). Novel SNPs of the bovine NUCB2 gene and their association with growth traits in three native Chinese cattle breeds Mol Biol Rep,37(1): 541-6. [see all QTL by this paper]
Li F, Chen H, Lei CZ, Ren G, Wang J, Li ZJ, Wang JQ (2010). Novel SNPs of the bovine GAD1/gad67 gene and their association with growth traits in three native Chinese cattle breeds Mol Biol Rep,37(1): 501-5. [see all QTL by this paper]
Li M, Sun X, Hua L, Lai X, Lan X, Lei C, Zhang C, Qi X, Chen H (2014). SIRT1 gene polymorphisms are associated with growth traits in Nanyang cattle Molecular and cellular probes,27(5-6): 215-20. [see all QTL by this paper]
Li MX, Sun XM, Zhang LZ, Wang J, Huang YZ, Sun YJ, Hu SR, Lan XY, Lei CZ, Chen H (2013). A novel c.-274C>G polymorphism in bovine SIRT1 gene contributes to diminished promoter activity and is associated with increased body size Animal genetics,44(5): 584-7. [see all QTL by this paper]
Li Y, Gao Y, Kim YS, Iqbal A, Kim JJ (2017). A whole genome association study to detect additive and dominant single nucleotide polymorphisms for growth and carcass traits in Korean native cattle, Hanwoo Asian-Australasian journal of animal sciences,30(1): 8-19. [see all QTL by this paper]
Li Y, Kim JJ (2015). Multiple Linkage Disequilibrium Mapping Methods to Validate Additive Quantitative Trait Loci in Korean Native Cattle (Hanwoo) Asian-Australasian journal of animal sciences,28(7): 926-35. [see all QTL by this paper]
Li, C; Basarab, J; Snelling, W M; Benkel, B; Murdoch, B; Moore, S S; (2002). The identification of common haplotypes on bovine chromosome 5 within commercial lines of Bos taurus and their associations with growth traits. J Anim Sci,5 (80): 1187-94. [see all QTL by this paper]
Littlejohn M, Grala T, Sanders K, Walker C, Waghorn G, Macdonald K, Coppieters W, Georges M, Spelman R, Hillerton E, Davis S, Snell R, (2012). Genetic variation in PLAG1 associates with early life body weight and peripubertal weight and growth in Bos taurus. Animal genetics,43 (5): 591-4. [see all QTL by this paper]
Liu H, Tian W, Zan L, Wang H, Cui H (2010). Mutations of MC4R gene and its association with economic traits in Qinchuan cattle Mol Biol Rep,37(1): 535-40. [see all QTL by this paper]
Liu M, Li M, Wang S, Xu Y, Lan X, Li Z, Lei C, Yang D, Jia Y, Chen H (2014). Association analysis of bovine Foxa2 gene single sequence variant and haplotype combinations with growth traits in Chinese cattle Gene,536(2): 385-92. [see all QTL by this paper]
Liu R, Fang X, Lu X, Liu Y, Li Y, Bai X, Ding X, Yang R (2024). Polymorphisms of the SCD1 Gene and Its Association Analysis with Carcass, Meat Quality, Adipogenic Traits, Fatty Acid Composition, and Milk Production Traits in Cattle Animals : an open access journal from MDPI,14(12):1759. [see all QTL by this paper]
Liu X, Guo X Y, Xu X Z, Wu M, Zhang X, Li Q, Ma P P, Zhang Y, Wang C Y, Geng F J, Qin C H, Liu L, Shi W H, Wang Y C, Yu Y (2012). Novel single nucleotide polymorphisms of the bovine methyltransferase 3b gene and their association with meat quality traits in beef cattle Genetics and molecular research : GMR,11(3): 2569-77. [see all QTL by this paper]
Liu Y, Liu X L, He H, Gu Y L (2012). Four SNPs of insulin-induced gene 1 associated with growth and carcass traits in Qinchuan cattle in China. Genetics and molecular research : GMR,11 (2): 1209-16. [see all QTL by this paper]
Lu D, Miller S, Sargolzaei M, Kelly M, Vander Voort G, Caldwell T, Wang Z, Plastow G, Moore S (2013). Genome-wide association analyses for growth and feed efficiency traits in beef cattle Journal of animal science,91 (8): 3612-33. [see all QTL by this paper]
Lü A, Hu X, Chen H, Dong Y, Pang Y (2011). Single nucleotide polymorphisms of the prolactin receptor (PRLR) gene and its association with growth traits in Chinese cattle Mol Biol Rep,38(1): 261-6. [see all QTL by this paper]
M. D. Grosz and M. D. MacNeil (2001). Putative Quantitative Trait Locus Affecting Birth Weight on Bovine Chromosome 2 J Anim Sci,79: 68-72. [see all QTL by this paper]
MacNeil MD, Grosz MD (2002). Genome-wide scans for QTL affecting carcass traits in Hereford x composite double backcross populations J Anim Sci,80(9): 2316-24. [see all QTL by this paper]
Mahdi Saatchi, Robert D Schnabel, Jeremy F Taylor and Dorian J Garrick (2014). Large-effect pleiotropic or closely linked QTL segregate within and across ten US cattle breeds BMC Genomics,15:442. [see all QTL by this paper]
Majeres LE, Dilger AC, Shike DW, McCann JC, Beever JE (2024). Defining a Haplotype Encompassing the LCORL-NCAPG Locus Associated with Increased Lean Growth in Beef Cattle Genes,15(5):576. [see all QTL by this paper]
Maltecca, C; Weigel, K A; Khatib, H; Cowan, M; Bagnato, A (2008). Whole-genome scan for quantitative trait loci associated with birth weight, gestation length and passive immune transfer in a Holstein x Jersey crossbred population. Animal genetics,40 (1): 27-34. [see all QTL by this paper]
Mariana B. B. Machado, Maurico M. Alencar, Andrea P. Pereira, Henrique N. Oliveira (2003). QTL affecting body weight in a candidate region of cattle chromosome 5. Genetics and Molecular Biology,3: 259-265. [see all QTL by this paper]
Martinez A, Aldai N, Celaya R, Osoro K (2010). Effect of breed body size and the muscular hypertrophy gene in the production and carcass traits of concentrate-finished yearling bulls J Anim Sci,88(4): 1229-39. [see all QTL by this paper]
Martínez R, Gómez Y, Rocha J F M, (2014). Genome-wide association study on growth traits in Colombian creole breeds and crossbreeds with Zebu cattle Genetics and molecular research : GMR,13(3): 6420-32. [see all QTL by this paper]
Martins da Silva A, Rios A F L, Ramos E S, Lôbo R B, Oliveira H N, de Freitas M A R (2011). Association between IGF2 and CYP21 gene polymorphisms and characteristics of economic interest in Nellore cattle. Genetics and molecular research : GMR,10 (3): 2140-7. [see all QTL by this paper]
McClure MC, Morsci NS, Schnabel RD, Kim JW, Yao P, Rolf MM, McKay SD, Gregg SJ, Chapple RH, Northcutt SL, Taylor JF. (2010). A genome scan for quantitative trait loci influencing carcass, post-natal growth and reproductive traits in commercial Angus cattle. Animal Genetics,41 (6): 597-607. [see all QTL by this paper]
Michenet A, Barbat M, Saintilan R, Venot E, Phocas F (2016). Detection of quantitative trait loci for maternal traits using high-density genotypes of Blonde d'Aquitaine beef cattle BMC genetics,17(1): 88. [see all QTL by this paper]
Mir Asif Iquebal, Mahmoud A. Abdel Ghaffar, Jamie L Williams, Sarika Jaiswal, Ramanujam Rajendran, Leslie Leo Prince Lawrence, Amit Kumar, Sanjeev Singh, Sajidkhan Uyusufzai, James M Reecy (2023). Genome-Wide Association Studies and Genetic Parameters for Growth and Carcass Traits of American Angus Beef Cattle. BMC Genomics,. [see all QTL by this paper]
Mizoshita K, Watanabe T, Hayashi H, Kubota C, Yamakuchi H, Todoroki J, SugimotoY. (2004). Quantitative trait loci analysis for growth and carcass traits in a half-sibfamily of purebred Japanese Black (Wagyu) cattle. J Anim Sci,82(12):3415-20.. [see all QTL by this paper]
Morris, C A; Pitchford, W S; Cullen, N G; Esmailizadeh, A K; Hickey, S M; Hyndman, D; Dodds, K G; Afolayan, R A; Crawford, A M; (2009). Quantitative trait loci for live animal and carcass composition traits in Jersey and Limousin back-cross cattle finished on pasture or feedlot. Animal genetics,40(5): 648-54. [see all QTL by this paper]
Naserkheil M, Bahrami A, Lee D, Mehrban H (2020). Integrating Single-Step GWAS and Bipartite Networks Reconstruction Provides Novel Insights into Yearling Weight and Carcass Traits in Hanwoo Beef Cattle Animals : an open access journal from MDPI,10(10). [see all QTL by this paper]
Pan C, Wu C, Jia W, Xu Y, Lei C, Hu S, Lan X, Chen H (2013). A critical functional missense mutation (H173R) in the bovine PROP1 gene significantly affects growth traits in cattle Gene,531(2): 398-402. [see all QTL by this paper]
Pang Y H, Lei C Z, Zhang C L, Lan X Y, Shao S M, Gao X M, Chen H (2012). Single nucleotide polymorphisms of the bovine VEGF-B gene and their associations with growth traits in the Nanyang cattle breed Animal biotechnology,23(4): 225-32. [see all QTL by this paper]
Paredes-Sánchez FA, Sifuentes-Rincón AM, Segura Cabrera A, García Pérez CA, Parra Bracamonte GM, Ambriz Morales P (2015). Associations of SNPs located at candidate genes to bovine growth traits, prioritized with an interaction networks construction approach BMC genetics,16: 91. [see all QTL by this paper]
Peters S O, Kizilkaya K, Garrick D J, Fernando R L, Reecy J M, Weaber R L, Silver G A, Thomas M G (2012). Bayesian genome-wide association analysis of growth and yearling ultrasound measures of carcass traits in Brangus heifers. Journal of animal science,90 (10): 3398-409. [see all QTL by this paper]
Pintos D, Corva PM (2011). Association between molecular markers for beef tenderness and growth traits in Argentinian angus cattle Animal Genetics,42(3):329-32. [see all QTL by this paper]
Porto-Neto L R, Edwards S, Fortes M R S, Lehnert S A, Reverter A, McGowan M (2015). Genome-wide association for the outcome of fixed-time artificial insemination of Brahman heifers in northern Australia Journal of animal science,93(11): 5119-27. [see all QTL by this paper]
R. M. R¨ªos , S. L. Castro , D. J. Moreno , J. S. Moncaleano , M. O. Santana, R. Barahona, F. Ariza (2010). Chromosomal 5 regions associated with growth traits in the romosinuano creole cattle . Revista de la Facultad de Medicina Veterinaria y de Zootecnia,57(1):35-47. [see all QTL by this paper]
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