Association of bovine chromosome 5 markers with birth and weaning weight in Hereford cattle raised under extensive conditions

Genetic markers have been used to assess the association of economically important traits with cattle under intensive feeding conditions; however, there is still the need to ascertain the usefulness of these markers under extensive production systems. Bovine chromosome 5 has been widely studied beca...

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Bibliographic Details
Published in:Livestock science 2011-02, Vol.135 (2), p.124-130
Main Authors: Rogberg-Muñoz, A., Melucci, L., Prando, A., Villegas-Castagnasso, E.E., Ripoli, M.V., Peral-García, P., Baldo, A., Añon, M.C., Giovambattista, G.
Format: Article
Language:English
Subjects:
animal performance
animal proteins
beef bulls
beef cattle
beef cows
Birth weight
calves
Cattle
chromosomes
DNA markers
genetic association
genetic correlation
genetic markers
genetic variation
genotype
Hereford
insulin-like growth factor I
linkage (genetics)
maternal weaning weight
microsatellite repeats
molecular sequence data
myogenic factor 5
Pasture system
quantitative trait loci
ranching
Weaning weight
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Summary:Genetic markers have been used to assess the association of economically important traits with cattle under intensive feeding conditions; however, there is still the need to ascertain the usefulness of these markers under extensive production systems. Bovine chromosome 5 has been widely studied because several QTLs have been detected. Microsatellite BP1 neighboring the Myogenic factor 5 gene ( Myf5), and microsatellites ETH10, IGF1 and RM029 near Insulin-like Growth Factor 1 gene ( IGF1), were selected to establish their association with BLUPs (Best Linear Unbiased Predictor) for direct Birth Weight (dBW), direct Weaning Weight (dWW) and maternal Weaning Weight (mWW). Two herds were used for this objective, one commercial and the other experimental. Associations (P ≤ 0.05) between dWW and all BTA5 loci (BP1, ETH10, IGF1, and RM029) were detected. Additional associations were observed between mWW and BP1. dBW was significantly associated (P ≤ 0.05) with ETH10 genotypes and with the interaction IGF1*Herd. In particular region near BP1 could be contributing to the rare positive correlation between dWW and mWW previously found in the INTA Balcarce Station experimental herd. We confirmed marker associations with growth traits in two BTA5 regions close to previously reported QTL obtained in intensive feeding conditions; these regions affect dBW, dWW and mWW in a pasture-based system.
ISSN:1871-1413
1878-0490
DOI:10.1016/j.livsci.2010.06.160