[Ashwell M.S., Heyen D.W., Sonstegard T.S., Van Tassell C.P. , Da Y., Van Ra - den P.M., Ron M., Weller J.I., Lewin H.A. (2004). Detection of quantitative trait loci affecting milk production, health, and reproductive traits in Holstein cattle. J. Dairy Sci., 87: 468-475.]Search in Google Scholar
[Baes C., Mayer M., Tetens J., Liu Z., Reinhardt F., Thaller G., Reinsch N. (2010). Refined mapping ofa QTLfor somatic cell score on BTA27 in the German Holstein using combined linkage and linkage disequilibrium analysis. Can. J. Anim. Sci., 90: 169-178.]Search in Google Scholar
[Bannerman D.D. (2009). Pathogen-dependent induction of cytokines and other soluble inflammatory mediators during intramammary infection of dairy cows. J. Anim. Sci., 87: 10-25.]Search in Google Scholar
[Beecher C., Daly M., Childs S., Berry D.P., Magee D.A., Mc Carthy T.V., Giblin L. (2010). Polymorphisms in bovine immune genes and their associations with somatic cell count and milk production in dairy cattle. BMC Genet., 11, doi:10.1186/1471-2156-11-9910.1186/1471-2156-11-99308751121054834]Search in Google Scholar
[Cole J.B., Van Raden P.M., O ’ Connell J.R., Van Tassell C.P., Sonstegard T.S., Schnabel R.D., Taylor J.F., Wiggans G.R. (2009). Distribution and location of genetic effects for dairy traits. J. Dairy Sci., 92: 2931-2946.]Search in Google Scholar
[Fleischer P., Metzner M., Beyerbach M., Hoedemaker M., Klee W. (2001). The relationship between milk yield and the incidence of some diseases in dairy cows. J. Dairy Sci., 84: 2025-2035.]Search in Google Scholar
[Galal Abdel Hameed K., Sender G., Korwin - Kossakowska A. (2008). An association of the Bo LAalleles DRB3.2*16 and DRB3.2*23 with occurrence of mastitis caused by different bacterial species in two herds of dairy cows. Anim. Sci. Pap. Rep., 26: 37-48.]Search in Google Scholar
[Goertz I., Baes C., Weimann C., Reinsch N., Erhardt G. (2009). Association between single nucleotide polymorphisms in the CXCR1 gene and somatic cell score in Holstein dairy cattle. J. Dairy Sci., 92: 4018-4022.]Search in Google Scholar
[Hayes B.J., Pryce J., Chamberlain A.J., Bowman P.J., Goddard M.E. (2010). Genetic architecture of complex traits and accuracy of genomic prediction: coat colour, milk-fat percentage, and type in Holstein cattle as contrasting model traits. Plos Genetics, 6 (9), doi:10.1371/journal. pgen.1001139]Search in Google Scholar
[Heringstad B., Rekaya R., Gianola D., Klemetsdal G., Weigel KA. (2003). Genetic change for clinical mastitis in Norwegian cattle:athreshold model analysis. J. Dairy Sci., 86: 369-375.]Search in Google Scholar
[Heringstad B., Gianola D., Chang Y.M., Odegard J., Klemetsdal G. (2006). Genetic associations between clinical mastitis and somatic cell score in early first-lactation cows. J. Dairy Sci., 89: 2236-2244.]Search in Google Scholar
[Heringstad B., Klemetsdal G., Steine T. (2007). Selection responses for disease resistance in two selection experiments with Norwegian red cows. J. Dairy Sci., 90: 2419-2426.]Search in Google Scholar
[Heyen D.W., Weller J.I., Ron M., Band M., Beever J.E., Feldmesser E., Da Y., Wig- gans G.R., Van Raden P.M., Lewin H.A. (1999). Agenome scan for QTLinfluencing milk production and health traits in dairy cattle. Physiol. Genomics, 1: 165-175.]Search in Google Scholar
[Holmberg M., Andersson- Eklund L. (2004). Quantitative trait loci affecting health traits in Swedish dairy cattle. J. Dairy Sci., 87: 2653-2659.]Search in Google Scholar
[Hu Z-L., Park C.A., Fritz E.R., Reecy J.M. (2010). QTLdb:acomprehensive database tool building bridges between genotypes and phenotypes. Proc. 9th World Congress on Genetics Applied to Livestock Production, 1-6.08.2010, Leipzig, Germany.]Search in Google Scholar
[Ingham A., Menzies M. (2006). Identification and expression of Toll-like receptors 1-10 in selected bovine and ovine tissues. Vet. Immunol. Immunop., 109: 23-30.]Search in Google Scholar
[Khatkar M.S., Thomson P.C., Tammen I., Raadsma H.W. (2004). Quantitative trait loci mapping in dairy cattle: review and metaanalysis. Genet. Sel. Evol., 36: 163-190.]Search in Google Scholar
[Khatkar M.S., Thomson P.C., Tammen I., Raadsma H.W. (2005). Combined QTLmap of dairy cattle traits. University of Sydney. http://www.vetsci.usyd.edu.au/reprogen/QTL ]Search in Google Scholar
[Klungland H., Sabry A., Heringstad B., Olsen H.G., Gomez- Raya L., Vage D.I., Olsaker I., Odegard J., Klemetsdal G., Schulman N., Vilkki J., Ruane J., Aasland M., Ronninge K., Lien S. (2001). Quantitative trait loci affecting clinical mastitis and somatic cell count in dairy cattle. Mamm. Genome, 12: 837-842. ]Search in Google Scholar
[Kuhn C., Bennewitz J., Reinsch N., Xu N., Thomsen H., Looft C., Brock- mann G.A., Schwerin M., Weimann C., Hiendleder S., Erhardt G., Medjugo- rac I., Forster M., Brenig B., Reinhardt F., Reents R., Russ I., Averdunk G., Blumel J., Kalm E. (2003). Quantitative trait loci mapping of functional traits in the German Holstein cattle population. J. Dairy Sci., 86: 360-368.]Search in Google Scholar
[Lahouassa H., Rainard P., Caraty A., Riollet C. (2008). Identification and characterization ofanew interleukin-8 receptor in bovine species. Mol. Immunol., 45: 1153-1164.]Search in Google Scholar
[Lewandowska- Sabat A.M., Gunther J., Seyfert H.M., Olsaker I. (2012). Combining quantitative trait loci and heterogeneous microarray data analyses reveals putative candidate pathways affecting mastitis in cattle. Anim. Genet., 43: 793-799.]Search in Google Scholar
[Leyva- Baca I., Schenkel F., Martin J., Karrow N.A. (2008). Polymorphisms in the 5′ upstream region of the CXCR1 chemokine receptor gene, and their association with somatic cell score in Holstein cattle in Canada. J. Dairy Sci., 91: 407-417.]Search in Google Scholar
[Liu Y.X., Xu C.H., Gao T.Y., Sun Y. (2012). Polymorphisms of the ATP1A1 gene associated with mastitis in dairy cattle. Genet. Mol. Res., 11: 651-660.]Search in Google Scholar
[Lund M.S., Sahana G., Andersson- Eklund L., Hastings N., Fernandez A., Schulman N., Thomsen B., Viitala S., Williams J.L., Sabry A., Viinalass H., Vilkki J. (2007). Joint analysis of quantitative trait loci for clinical mastitis and somatic cell score on five chromosomes in three Nordic dairy cattle breeds. J. Dairy Sci., 90: 5282-5290.]Search in Google Scholar
[Lund M.S., Guldbrandtsen B., Buitenhuis A.J., Thomsen B., Bendixen C. (2008). Detection of quantitative trait loci in Danish Holstein cattle affecting clinical mastitis, somatic cell score, udder conformation traits, and assessment of associated effects on milk yield. J. Dairy Sci., 91: 4028-4036.]Search in Google Scholar
[Mai M.D., Rychtarova J., Zink V., Lassen J., Guldbrandtsen B. (2010). Quantitative trait loci for milk production and functional traits in two Danish cattle breeds J. Anim. Breed. Genet., 127: 469-473.]Search in Google Scholar
[Meredith B.K., Kearney F.J., Finlay E.K., Bradley D.G., Fahey A.G., Berry D.P., Lynn D.J. (2012). Genome-wide associations for milk production and somatic cell score in Holstein- Friesian cattle in Ireland. BMC Genetics, 13, p. 21.10.1186/1471-2156-13-21336148222449276]Search in Google Scholar
[Minozzi G., Nicolazzi E.L., Strozzi F., Stella A., Negrini R., Ajmone - Marsan P., Williams J.L. (2011). Genome wide scan for somatic cell counts in Holstein bulls. BMC Proceedings, 5 (Suppl 4): S17.]Search in Google Scholar
[Mitchell G.B., Albright B.N., Casewell J.L. (2003). Effect of interleukin n-8 and granulocyte colony stimulating factor on priming and activation of bovine neutrophils. Infect. Immun., 71: 1643-1649.]Search in Google Scholar
[Nash D.L., Rogers G.W., Cooper J.B., Hargrove G.L., Keown J.F. (2003). Heritability of intramammary infections at first parturition and relationships with sire transmitting abilities for somatic cell score, udder type traits, productive life, and protein yield. J. Dairy Sci., 86: 2684-2695.]Search in Google Scholar
[Ogorevc J., Kunej T., Razpet A., Dovc P. (2009). Database of cattle candidate genes and genetic markers for milk production and mastitis. Anim. Genet., 40: 832-851.]Search in Google Scholar
[Oprządek J., Urtnowski P., Sender G., Pawlik A., Łukaszewicz M. (2012). Frequency of Bo LA-DRB3 alleles in Polish Holstein-Friesian cattle. Anim. Sci. Pap. Rep., 30: 91-101.]Search in Google Scholar
[Opsal M.A., Hayes B., Berget I., Lien S., Vage D.I. (2006). Genomic organization and transcript profiling of the bovine toll-like receptor gene cluster TLR6-TLR1-TLR10. Gene, 384: 45-50.]Search in Google Scholar
[Pant S.D., Schenkel F.S., Leyva- Baca I., Sharma B.S., Karrow N.A. (2007). Identification of single nucleotide polymorphisms in bovine CARD15 and their associations with health and production traits in Canadian Holsteins. BMC Genomics, 8, doi:10.1186/1471-2164-8-42110.1186/1471-2164-8-421223425918005441]Search in Google Scholar
[Pawlik A., Sender G., Korwin - Kossakowska A. (2009). Bovine lactoferrin gene polymorphism and expression in relation to mastitis resistance -areview. Anim. Sci. Pap. Rep., 27: 263-271.]Search in Google Scholar
[Pighetti G.M., Elliott A.A. (2011). Gene polymorphisms: The key for marker assisted selection and unraveling core regulatory pathways for mastitis resistance. J. Mammary Gland Biol. Neoplasia, 16: 421-432.]Search in Google Scholar
[Quirion M.R., Gregory G.D., Umetsu S.E., Winandy S., Brown M.A (2009). Cutting Edge: Ikaros isaregulator of Th2 cell differentiation. J. Immunol., 182: 741-745. ]Search in Google Scholar
[Ron M., Feldmesser E., Golik M., Tager- Cohen I., Kliger D., Reiss V., Domo - chovsky R., Alus O., Seroussi E., Ezra E., Weller J.I. (2004). Acomplete genome scan of the Israeli Holstein population for quantitative trait loci byadaughter design. J. Dairy Sci., 87: 476-490.]Search in Google Scholar
[Rupp R., Boichard D. (2003). Genetics of resistance to mastitis in dairy cattle. Vet. Res., 34: 671-688.]Search in Google Scholar
[Sahana G., Lund M.S., Andersson- Eklund L., Hastings N., Fernandez A., Iso- Touru T., Thomsen B., Viitala S., Sorensen P., Williams J.L., Vilkki J. (2008). Fine-mapping QTLfor mastitis resistance on BTA9 in three Nordic red cattle breeds. Anim. Genet., 39: 354-362.]Search in Google Scholar
[Schrooten C., Bink M.C.A.M., Bovenhuis H. (2004). Whole genome scan to detect chromosomal regions affecting multiple traits in dairy cattle. J. Dairy Sci., 87: 3550-3560.]Search in Google Scholar
[Schulman N.F., Viitala S.M.,de Koning D.J., Virta J., Maki - Tanila A.,Vilkki J.H. (2004). Quantitative trait loci for health traits in Finnish Ayrshire cattle. J. Dairy Sci., 87: 443-449.]Search in Google Scholar
[Schulman N.F., Sahana G., Iso- Touru T., Lund M.S., Andersson- Eklund L., Vii- tala S.M., Vaerv S., Viinalass H., Vilkki J.H. (2009). Fine mapping of quantitative trait loci for mastitis resistance on bovine chromosome 11. Anim. Genet., 40: 509-515.]Search in Google Scholar
[Sender G., Galal Abdel Hameid K., Korwin - Kossakowska A., Sobczyńska M. (2008). Association of the Bo LA-DRB3 alleles with estimated breeding value for somatic cell count in Polish dairy cattle. Arch. Tierzucht., 51: 111-119.]Search in Google Scholar
[Sender G., Pawlik A., Korwin - Kossakowska A., Galal Abdel Hameid K., Sobczyńska M., Oprzadek J., Prusak B. (2010). Association of the bovine lactoferrin polymorphism with occurrence of mastitis. Milchwissenschaft, 65 (3): 242-245.]Search in Google Scholar
[Sharma B.S., Leyva I., Schenkel F., Karrow N.A. (2006). Association of toll-like receptor 4 polymorphisms with somatic cell score and lactation persistency in Holstein bulls. J. Dairy Sci., 89: 3626-3635.]Search in Google Scholar
[Sodeland M., Kent M.P., Olsen H.G., Opsal M.A., Svendsen M., Sehested E., Hayes B.J., Lien S. (2011). Quantitative trait loci for clinical mastitis on chromosomes 2, 6, 14 and 20 in Norwegian Red cattle. Anim. Genet., 42: 457-465.]Search in Google Scholar
[Sorensen L.P., Guldbrandtsen B., Thomasen J.R., Lund M.S. (2008). Pathogen-specific effects of quantitative trait loci affecting clinical mastitis and somatic cell count in Danish Holstein cattle. J. Dairy Sci., 91: 2493-2500.]Search in Google Scholar
[Starkenburg R.J., Hansen L.B., Kehrli M.E., Chester- Jones H. (1997). Frequencies and effects of alternative DRB3.2 alleles of bovine lymphocyte antigen for Holsteins in milk selection and control lines. J. Dairy Sci., 80: 3411-3419.]Search in Google Scholar
[Tal- Stein R., Fontanesi L., Dolezal M., Scotti E., Bagnato A., Russo V., Canave - si F., Friedmann A., Soller M., Lipkin E. (2010). Agenome scan for quantitative trait loci affecting milk somatic cell score in Israeli and Italian Holstein cows by means of selective DNA pooling with single- and multiple-marker mapping. J. Dairy Sci., 93: 4913-4927.]Search in Google Scholar
[Uthaisangsook S., Day N.K., Bahna S.L., Good R.A., Haragucki S. (2002). Innate immunity and its role against infections. Ann. Allerg. Asthma Im., 88: 253-264.]Search in Google Scholar
[Wang X., Xu S., Xue G., Ren H., Chen J. (2007). Genetic polymorphism of TLR4 gene and correlation with mastitis in cattle J. Genet. Genomics, 34: 406-412.]Search in Google Scholar
[Wang C., Liu M., Li Q., Ju Z., Huang J., Li J. (2011). Three novel single nucleotide polymorphisms of MBL1 gene in Chinese native cattle and their associations with milk performance traits. Vet. Immunol. Immunop., 139: 229-236.]Search in Google Scholar
[Wang X., Ju Z., Huang J., Hou M., Zhou L., Qi C., Zhang Y., Gao Q., Pan Q., Li G., Zhong J., Wang C. (2012). The relationship between the variants of the bovine MBL2 gene and milk production traits, mastitis, serum MBL-Clevels and complement activity. Vet. Immunol. Immunop., 148: 311-319.]Search in Google Scholar
[Waters S.M., Mc Cabe M.S., Howard D.J., Giblin L., Magee D.A., Mac Hugh D. E., Berry D.P. (2010). Associations between newly discovered polymorphisms in the Bos taurus growth hormone receptor gene and performance traits in Holstein-Friesian dairy cattle. Anim Genet., 42: 39-49.]Search in Google Scholar
[Wiggans G.R., Van Raden P.M., Cooper T.A. (2011). The genomic evaluation system in the United States: past, present, future. J. Dairy Sci., 94: 3202-3211. ]Search in Google Scholar
[Wijga S., Bastiaansen J.W.M., Wall E., Strandberg E.,de Haas Y., Giblin L., Bovenhuis H. (2012). Genomic associations with somatic cell score in first-lactation Holstein cows. J. Dairy Sci., 95: 899-908.]Search in Google Scholar
[Yang Y., Li Q., Ju Z., Huang J., Zhou L., Li R., Li J., Shib F., Zhonga J., Wang C. (2012). Three novel single-nucleotide polymorphisms of complement component 4 gene (C4A) in Chinese Holstein cattle and their associations with milk performance traits and CH50. Vet. Immunol. Immunop., 145: 223-232.]Search in Google Scholar
[Youngerman S.M., Saxton A.M., Oliver S.P., Pighetti G.M. (2004). Association of CXCR2 polymorphisms with subclinical and clinical mastitis in dairy cattle. J. Dairy Sci., 87: 2442-2448.]Search in Google Scholar
[Zhang C.L., Wang Y., Fang H.C.X., Gu C. (2012). The chemokine receptor 1 gene polymorphism and its association with Somatic Cell Score and milk production traits in dairy cattle. Anim. Sci. Pap. Rep., 30 (1): 25-33.]Search in Google Scholar
[Zwald N.R., Weigel K.A., Chang Y.M., Welper R.D., Clay J.S. (2006). Genetic analysis of clinical mastitis data from on-farm management software using threshold models. J. Dairy Sci., 89 (1): 330-336.]Search in Google Scholar
