The MyoD1, MyoG, Myf5, and
Mrf4 proteins belong to the family of muscle regulatory factors (MRFs) and play important roles in skeletal muscle
hyperplasia and
hypertrophy. We hypothesized that exercise would affect MRF
mRNA and
protein abundance in postnatal chicken skeletal muscle driving molecular changes that could ultimately lead to increased muscle fiber diameter. At day (d) 43, twelve hundred chickens with similar
body weight were randomly assigned to cage, pen, and free-range groups. The MRF
mRNA abundance was measured in the pectoralis major and thigh muscle at d56, d70, and d84, and the
protein levels of MRFs were determined from the thigh muscle at d84. The results showed no significant difference in
mRNA of the MRFs among the three groups at d56 (P>0.05). At d84, chicken in the pen and free-range group showed higher MyoD1, MyoG, Myf5, and
Mrf4 mRNA abundance compared to the caged chickens (P<0.05). Free-range chickens had higher
Mrf4 and MyoG expression than those in penned ones (P<0.05).
Protein abundances of all four factors were lowest in the caged group, and
Mrf4 and MyoG
protein quantities were greatest in free-range chickens (P<0.05), but Myf5 and MyoD1
protein abundance did not differ between penned and caged groups. The results suggested that exercise up-regulated MRF expression in the postnatal skeletal muscles, which led to an increase in muscle fiber diameter, and eventually affected the meat quality of the skeletal muscles in adult chickens.