[Bergmeyer H.U. (1974). Methods of enzymatic analysis. Academic Press, New York, USA.]Search in Google Scholar
[Bertram H.C., Donstrup S., Karlsson A.H., Andersen H.J., Stodkilde- Jor-gensen H. (2001). Post mortem energy metabolism and p Hdevelopment in porcine M. longissimusdorsi as affected by two different cooling regimes. A 31P-NMRspectroscopic study. MRI, 19: 993-1000.10.1016/S0730-725X(01)00412-X]Open DOISearch in Google Scholar
[Darymple R.H., Hamm R. (1973). Amethod for the extraction of glycogen and metabolites fromasingle muscle sample. J. Food Tech., 8: 439-444.]Search in Google Scholar
[Fujii J., Otsu K., Zorzato F.,de Leon S., Khanna S., Weiler V.K., O ’ Brien P.J., Maclennan D.H. (1991). Identification ofamutation in porcine ryanodine receptor associated with malignant hyperthermia. Science, 253: 448-451.]Search in Google Scholar
[Grau R., Hamm R. (1952). Eine einfache Methode zur Bestimmung der Wasserbindung in Fleisch. Fleischwirtschaft, 4: 295-297.]Search in Google Scholar
[Greaser M.L. (1986). Conversion of muscle to meat. In: Muscle asa Food, Bechtel P.J. (ed.). Academic Press Inc., Orlando, USA, pp. 37-102.10.1016/B978-0-12-084190-5.50007-2]Search in Google Scholar
[Hamilton D.N., Miller K.D., Ellis M., Mckeith F.K., Wilson E.R. (2003). Relationships between longissimus glycolytic potential and swine growth performance, carcass traits, and pork quality. J. Anim. Sci., 81: 2206-2212.]Search in Google Scholar
[Henckel P., Karlsson A., Jensen M.T., Oksbjerg N., Petersen J.S. (2002). Metabolic conditions in porcine longissimus muscle immediately pre-slaughter and its influence on peri- and post mortem energy metabolism. Meat Sci., 62: 145-155.2206140610.1016/S0309-1740(01)00239-X]Search in Google Scholar
[Honikel K.O. (2004). Water-holding capacity of meat. In: Muscle development of livestock animals: physiology, genetics and meat quality, te Pas M.F.W., Everts M.E., Haagsman H.P. (eds). CABI Publishing, pp. 389-400.10.1079/9780851998114.0389]Search in Google Scholar
[Huff - Lonergan E., Baas T.J., Malek M., Dekkers J.C.M., Prusa K., Rothschild M.F. (2002). Correlations among selected pork quality traits. J. Anim. Sci. 80: 617-627.]Search in Google Scholar
[Huff - Lonergan E., Lonergan S.M. (2005). Mechanisms of water-holding capacity of meat: The role of postmortem biochemical and structural changes. Meat Sci., 71: 194-204.]Search in Google Scholar
[Josell A.,von Seth G., Tornberg E. (2003). Sensory and meat quality traits of pork in relation to post-slaughter treatment and RNgenotype. Meat Sci., 66: 113-124.]Search in Google Scholar
[Kawasaki E.S. (1990). Sample preparation from blood cells and other fluids. In: PCRprotocols: Aguide to methods and applications, Innis M. A., Gelfamd D. H., Sninsky J. J. White T. J. (eds)., Academic Press, New York London, UK, pp. 146-152.10.1016/B978-0-12-372180-8.50022-6]Search in Google Scholar
[Kerth C.R., Carr M.A., Ramsey C.B., Brooks J.C., Johnson R.C., Cannon J.E., Mil-ler M.F. (2001). Vitamin-mineral supplementation and accelerated chilling effects on quality of pork from pigs that are monomutant or noncarriers of the halothane gene. J. Anim. Sci., 79: 2346-2355.]Search in Google Scholar
[Koćwin - Podsiadła M., Zybert A., Antosik K., Podsiadły W., Sieczkowska H., Krzęcio E. (2009). Glycogen content and the rate of glycolytic changes as the indicator of pork meat quality. Proc. 55th International Congress on Meat Science and Technology, Copenhagen, Denmark,16-21.08.2009, PE1.46.]Search in Google Scholar
[van Laack R.L.J.M. (2001). Metabolic factors influencing ultimate p H. Proc. 54th Reciprocal Meat Conference, Indianapolis, USA, 24-28.07.2001, pp. 158-160.]Search in Google Scholar
[van Laack R.L.J.M., Kauffman R.G. (1999). Glycolytic potential of red, soft, exudative pork longissimus muscle. J. Anim. Sci., 77: 2971-2973.]Search in Google Scholar
[Meadus W.J., Macinnis R. (2000). Testing for the RN- gene in retail pork chops. Meat Sci., 54: 231-237.2206069310.1016/S0309-1740(99)00084-4]Search in Google Scholar
[Monin G., Sellier P. (1985). Pork of low technological quality withanormal rate of muscle p Hfall in the immediate post-mortem period: The case of the Hampshire breed. Meat Sci., 13: 49-63.]Search in Google Scholar
[Offer G. (1991). Modelling of the formation of pale, soft and exudative meat: effect of chilling regime and rate and extent of glycolysis. Meat Sci., 30: 157-184.]Search in Google Scholar
[Oksbjerg N., Henckel P., Andersen S., Pedersen B. Nielsen B. (2004). Genetic variation of in vivo muscle glycerol, glycogen, and pigment in Danish purebred pigs. Acta Agric. Scand., Sect. A, Animal. Sci., 54: 187-192.]Search in Google Scholar
[Pohja N.S., Ninivaara F.P. (1957). Die Bestimmung der Wasserbindung des Fleisches mittels der Konstantdrückmethode. Fleischwirtschaft, 9: 193-195.]Search in Google Scholar
[Pösö A.R., Puolanne E. (2005). Carbohydrate metabolism in meat animals. Meat Sci., 70: 423-434.2206374210.1016/j.meatsci.2004.12.017]Search in Google Scholar
[Prange H., Jugert L., Scharner E. (1977). Untersuchungen zur Muskelfleischqualität beim Schwein. Arch. Exper. Veterinarmed. Leipzig, 31, 2: 235-248.]Search in Google Scholar
[Przybylski W., Vernin P., Monin G. (1994). Relationship between glycolytic potential and ultimate p Hin bovine, porcine and ovine muscles. J. Muscle Foods, 5: 245-255.]Search in Google Scholar
[Purslow P.P., Schäfer A., Kristensen L., Bertram H.C, Rosenvold K., Henckel P.R., Andersen H.J., Knight P.J., Wess T.J., Støier S., Aaslyng M. (2001). Water-holding of pork: Understanding the mechanisms. Proc. 54th Reciprocal Meat Conference, Indianapolis, USA, 24-28.07.2001, pp. 134-142.]Search in Google Scholar
[Rosenvold K., Petersen J.S., Lwerke H.N., Jensen S.K., Therkildsen M., Karls-son A.H., Møller H.S., Andersen H.J. (2001). Muscle glycogen stores and meat quality as affected by strategic finishing feeding of slaughter pigs. J. Anim. Sci., 79: 382-391.]Search in Google Scholar
[Savell J.W., Mueller S.L., Baird B.E. (2005). The chilling of carcasses. Meat Sci., 70: 449-459.2206374410.1016/j.meatsci.2004.06.027]Search in Google Scholar
[Schäfer A., Rosenvold K., Purslow P.P., Andersen H.J., Henckel P.R. (2002). Physiological and structural events post mortem of importance for drip loss in pork. Meat Sci., 61: 355-366.2206106310.1016/S0309-1740(01)00205-4]Search in Google Scholar
[Zybert A., Krzęcio E., Sieczkowska H., Antosik K., Podsiadły W., Koćwin - - Podsiadła M. (2008). Association between glycolytic potential and selected physico-chemical and functional characteristics of longissimus lumborum muscle tissue with regard to carcass chilling system (in Polish). Rocz. Nauk. PTZ, 4 (3): 301-309.]Search in Google Scholar
[Zybert A., Krzęcio E., Sieczkowska H., Podsiadły W., Przybylski W. (2007). The influence of chilling method on glycolytic changes and pork meat quality. Proc. 53rd International Congress of Meat Science and Technology, Beijing, China, 5-10.08.2007, pp. 293-294.]Search in Google Scholar
