Full paperMyosin isozyme transitions occurring during the postnatal development of the rat soleus muscle☆
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2013, Molecular TherapyCitation Excerpt :For immunohistochemical analyses of muscle, cryosections were fixed with 4% PFA for 10 minutes at room temperature (RT), washed twice in PBS, and nonspecific binding was blocked in 1% BSA/PBS for 30 minutes at RT. Sections were then incubated with different primary antibodies: neonatal myosin heavy chain (neonatal MyHC) (rabbit polyclonal antibody, produced by GS Butler–Browne as previously described42), laminin (rabbit polyclonal, 1:400, Dako, Trappes, France), β-sarcoglycan (NCL-b-SARC, clone β Sarc/5B1, mouse monoclonal IgG1, 1:100, Novocastra, Newcastle upon Tyne, UK), dystrophin (rabbit polyclonal, 1:500, Thermo Fisher Scientific, Fremont, CA). After incubation with the primary antibodies for 1 hour at RT or at 4 °C over night (ON), sections were washed twice for 10 minutes in PBS and the primary antibody staining was visualized with appropriate fluorochrome-conjugated secondary antibodies.
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2013, Experimental GerontologyMaternal dietary protein induces opposite myofiber type transition in Meishan pigs at weaning and finishing stages
2011, Meat ScienceCitation Excerpt :The mechanisms underlying such age-dependent responses have never been discussed, mainly because none of the studies included both early and late stages in a single experiment. A developmental pattern of myosin isotope transition in rat soleus muscle was proposed by Butler-Browne and Whalen (Butler-Browne & Whalen, 1984) that embryonic MyHC may postnatally transit to either neonatal or adult slow MyHC, the neonatal MyHC may further give rise to either slow or fast MyHC and finally the fast MyHC may transit to slow MyHC (Butler-Browne & Whalen, 1984). A similar pattern of developmental transition of MyHC isoform expression was reported in longissimus dorsi muscle of Erhualian pigs, a close relative of Meishan pigs (Zhao et al., 2004).
Developmental myosin heavy chain mRNA in masseter after orthognathic surgery: A preliminary study
2011, Journal of Cranio-Maxillofacial SurgeryCitation Excerpt :It must be borne in mind that we are “looking through a window” on the adaption process 6 months following surgery. The fibre shift during regeneration might occur respective to postnatal development as a pre-programmed transition from embryonic to neonatal and then to fast MyHC after orthognathic surgery (Butler-Browne and Whalen, 1984; Jerkovic et al., 1997). An up-regulation of MYH8 in Class II patients could be due to an accelerated fibre change to fast MyHC with adaptation of muscle function.
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This work was supported by the French Ministry of Research, the Centre National de Recherche Scientifique, the American Heart Association, and the Muscular Dystrophy Association of America.