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Spectrophotometric Analysis of the Resazurin Reduction Test as a Tool for Assessing Canine Semen Quality

acrosomes of frozen ram spermatozoa. Vet Rec 1975, 97 , 12-13. 13. Zalata A.A., Lammertijn N., Christoper A., Comhaire F.H.: The correlates and alleged biochemical background of the resazurin reduction test in semen. Int J Androl 1998, 21 , 289-294. 14. Zini A., O'Bryan M.K., Israel L., Schlegel P.N.: Human sperm NADH and NADPH diaphorase cytochemistry: correlation with sperm motility. Urology 1998, 51 , 464-468. 15. Zrimsek P., Kurc J., Kosec M., Mrkun J.: Spectrophotometric application of resazurin reduction assay to

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Indirect relationship between lipophilicity and maximum residue limit of drugs determined for fatty tissue

of Human Drug and Biologics Applications. 1998, pp. 1–41. 11. Grabowski T., Jaroszewski J.J., Piotrowski W.: Correlations between no observed effect level and selected parameters of the chemical structure for veterinary drugs. Toxicol In Vitro 2010, 24, 953–959. 12. Grabowski T., Jaroszewski J.J., Piotrowski W., Feder M.: Qualitative structure residue relationship analysis in the determination of the maximum residue limit of veterinary drugs. Chemosphere 2012, 87, 312–318. 13. HC, Policy on Extra-Label Drug Use (ELDU) in food producing animals

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Salivary Cortisol Levels in Horses and their Riders During Three-Day-Events

References 1. Berghold P., Möstl E., Aurich C.: Effects of reproductive status and management on cortisol secretion and fertility of oestrous horse mares. Anim Reprod Sci 2007, 102 , 276-285. 2. Cadore E., Lhullier F., Brentano M., Silva E., Ambrosini M., Spinelli R., Silva R., Kruel L.: Correlations between serum and salivary hormonal concentrations in response to resistance exercise. J Sports Sci 2008, 26 , 1067-1072. 3. Cayado P., Muňoz-Escassi B., Dominguez C., Manley W., Olabarri B., Sánchez de la

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Immunohistochemical evaluation of neoangiogenesis in canine mast cell tumours

release metalloproteinase-9 on contact with activated T-cells: juxtacrine regulation by TNF-α1. J Immunol 2001, 167, 4009-4016. 4. Bossi P., Viale G., Lee A.K., Alfano R., Coggi G., Bosari S.: Angiogenesis in colorectal tumors: microvessel quantitation in adenomas and carcinomas with clinicopathological correlations. Cancer Res 1995, 55, 5049-5053. 5. Carvalho M.I., Guimarães M.J., Pires I., Prada J., Silva-Carvalho R., Lopes C., Queiroga F.L.: EGFR and microvessel density in canine malignant mammary tumours. Res Vet Sci 2013, 95, 1094

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Level of Fatty Acids, Selected Quality Traits of Longissimus Dorsi and Semimembranosus Muscles and Their Relationship with Fattening and Slaughter Performance in Polish Landrace Pigs

of pork quality through selection with particular consideration of intramuscular fat (IMF) content. Ann. Anim. Sci., 13: 33-44. Wood J.D., Wiseman J., Cole D.J. (1994). Control and manipulation of meat quality. 20. Principles of pig science. Nottingham Univ. Press, pp. 433-457. Yang K.X., Ma J.W., Guo T.F., Zhao Y.G., Ding N.S., Betti M., Plastow G.S., Huang L.S. (2010). Correlations between fat depot traits and fatty acid composition in abdominal subcutaneous adipose tissue and longissimus muscle: Results froma White Duroc

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Genetic Relationships Among Linear Type Traits and Milk Production Traits of Holstein Dairy Cattle

., Shodja J., Alijani S., Eghbal A. (2013). The relationship between temperature- humidity index and test-day milk yield of Iranian Holstein dairy cattle using random regression model. Livest Sci., 157: 414-420. Brotherstone S. (1994). Genetic and phenotypic correlations between linear type traits and production traits in Holstein-Friesian dairy cattle. Anim. Prod., 59: 183-187. Campos R.V., Cobuci J.A., Costa C.N., Neto J.B. (2012). Genetic parameters for type traits in Holstein cows in Brazil. R. Bras. Zootec., 41: 2150

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Genetic parameters of carcass traits in ducks from a crossbred population

carcass traits inacommercial broiler line. Genet. Mol. Res., 9: 908-918. Hu Y.H., Poivey J.P., Rouvier R., Wang C.T., Tai C. (1998). Heritability and genetic correlation of body weight and feather length in growing muscovy selected in Taiwan. Brit. Poultry Sci., 40: 605-612. Kisiel T., Książkiewicz J. (2004). Comparison of physical and qualitative traits of meat of two Polish conservative flocks of ducks. Arch. Tierz., 47: 367-375. Kokoszyński D. (2011). Evaluation of meat traits in commercial crossbreds of Pekin type

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Preliminary Evaluation of the use Value of Jumping Horses Based on Their Results Achieved in Grand Prix Competitions

-257. Viklund Å., Näsholm A., Strandberg E., Philipsson J. (2011). Genetic trends for performance f Swedish Warmblood horses. Livest. Sci., 141: 113-122. Wallin L., Strandberg E., Philipsson J. (2003). Genetic correlations between field test results f Swedish Warmblood Riding Horses as 4-year-olds and lifetime performance results in dressage nd show jumping. Livest. Prod. Sci., 82: 61-71. Wikström Å., Viklund Å., Näsholm A., Philipsson J. (2005). Genetic parameters for ompetition traits at different ages of Swedish riding horses. Proc. 56th Ann

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Effect of Some Factors on Performance Value Assessment of Stallions During Performance Tests

-20.09.2006, 349 pp. Schröder W., Klostermann A., Stock K.F., Distl O. (2012). Agenome-wide association study for quantitative trait loci of show-jumping in Hanoverian warmblood horses. Anim. Gen., 43: 392-400. Thorén-Hellsten E., Viklund Å., Koenen E.P.C., Ricard A., Bruns E., Philips- son J. (2006). Review of genetic parameters estimated at stallion and young horse performance tests and their correlations with later results in dressage and show-jumping competition. Lives. Sci., 103: 1-12. Wallin L., Strandberg E., Philipsson J

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Genomic prediction by considering genotype × environment interaction using different genomic architectures

genomic selection by imputation of un-genotyped animals in populations of varying genetic architecture. Genet. Sel. Evol., 45: 12. Purcell S., Neale B., Todd - Brown K., Thomas L., Ferreira M.A.R., Bender D., Maller J., Sklar P.,de Bakker P.I.W., Daly M.J., Sham P.C. (2007). PLINK: Atool set for whole-genome association and population-based linkage analyses. Am. J. Hum. Genet., 81: 559-575. Robertson A. (1959). The sampling variance of the genetic correlation coefficient. Biometrics, 15: 469-485. Sargolzaei M., Schenkel F

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