Impact of Mutations in the NCAPG and MSTN Genes on Body Composition, Structural Properties of Skeletal Muscle, Its Fatty Acid Composition, and Meat Quality of Bulls from a Charolais × Holstein F2 Cross
Elke Albrecht, Praveen Krishna Chitneedi, Dirk Dannenberger, Christa Kühn, Steffen Maak

TL;DR
This study examines how mutations in two genes affect meat quality and body composition in crossbred bulls.
Contribution
The study identifies specific effects of NCAPG and MSTN gene mutations on carcass traits and meat quality in cattle.
Findings
Mutant alleles of NCAPG and MSTN are associated with increased muscularity and reduced fatness in bulls.
Each mutation explains about 15% of the variance in carcass and meat quality traits.
The mutations affect traits in a specific manner, influencing either dimensional or mass-related characteristics.
Abstract
Cattle breeds are optimized either for milk or meat production and secrete consumed nutrients in the form of milk or accrete nutrients as skeletal muscle tissue, respectively. Surplus energy is usually stored in the form of fat in adipose tissues. To gain more insight into the physiological and genetic background of nutrient accretion as either protein or fat, an experimental F2 population was generated crossing Charolais (CH) bulls and German Holstein (GH) cows. Mutations in two genes with known, profound effects on growth were segregating in this population: the I442M mutation in the non-SMC condensin I complex, subunit G (NCAPG) gene, and the Q204X mutation in the myostatin (MSTN) gene. The major aim of this study was to close the gap between the described effects of the NCAPG/LCORL region and MSTN SNPs on carcass and meat quality traits, as well as on the structure and composition…
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Taxonomy
TopicsMuscle Physiology and Disorders · Genetic and phenotypic traits in livestock · Genetic Mapping and Diversity in Plants and Animals
