Estimates of genetic parameters for chemical traits of meat quality in Japanese black cattle
- PMID: 27146072
- PMCID: PMC5298003
- DOI: 10.1111/asj.12622
Estimates of genetic parameters for chemical traits of meat quality in Japanese black cattle
Abstract
Genetic parameters for 54 carcass and chemical traits, such as general composition (moisture, crude fat and crude protein), fatty acid composition and water-soluble compounds (free amino acids, peptides, nucleotides and sugars) of 587 commercial Japanese Black cattle were assessed. Heritability estimates for carcass traits and general composition ranged between 0.19-0.28, whereas those for fatty acid composition ranged between 0.11-0.85. Most heritability estimates for water-soluble compounds were lower than 0.30; these traits were affected by aging period. Moderate heritability was observed for glutamine, alanine, taurine, anserine, inosine 5'-monophosphate (IMP), inosine and myo-inositol. In particular, heritability estimates were the highest (0.66) for taurine. Traits with moderate heritability were unaffected by aging period, with the exception of IMP, which was affected by aging period but exhibited moderate heritability (0.47). Although phenotypic correlations of water-soluble compounds with carcass weight (CW), beef marbling standard (BMS) and monounsaturated fatty acid were generally low, genetic correlations between these traits were low to high. At the genetic level, most of the water-soluble compounds were positively correlated with monounsaturated fatty acid but negatively correlated with CW and BMS. Thus, our results indicate that genetic variance and correlations could exist and be captured for some of the water-soluble compounds.
Keywords: Japanese Black cattle; carcass trait; chemical trait; genetic parameters; water-soluble compounds.
© 2016 The Authors. Animal Science Journal published by John Wiley & Sons Australia, Ltd on behalf of Japanese Society of Animal Science.
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References
-
- Arihara K. 2004. Functional foods, In: Jensen WK, Devine C, Dikeman M. (eds), Encyclopedia of Meat Sciences, pp. 492–499. Elsevier, Oxford.
-
- Cornet M, Bousset J. 1999. Free amino acids and dipeptides in porcine muscles: differences between ‘red’ and ‘white’ muscles. Meat Science 51, 215–219. - PubMed
-
- David C. 2008. Meat meter measures marbled muscles. Nature 451, 1039. - PubMed
-
- Feidt C, Petit A, Bruas‐Reignier F, Brun‐Bellut J. 1996. Release of free amino‐acids during ageing in bovine meat. Meat Science 44, 19–25. - PubMed
-
- Folch J, Lee M, Stanley GHS. 1957. A simple method for the isolation and purification of total lipids from animal tissues. Journal of Biological Chemistry 226, 497–509. - PubMed
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