共查询到20条相似文献,搜索用时 31 毫秒
1.
Yuma Nihashi Sayaka Shinji Koji Umezawa Takeshi Shimosato Tamao Ono Hiroshi Kagami Tomohide Takaya 《Animal Science Journal》2021,92(1):e13597
Myoblasts are myogenic precursors that develop into myotubes during muscle formation. Improving efficiency of myoblast differentiation is important for advancing meat production by domestic animals. We recently identified novel oligodeoxynucleotides (ODNs) termed myogenetic ODNs (myoDNs) that promote the differentiation of mammalian myoblasts. An isoquinoline alkaloid, berberine, forms a complex with one of the myoDNs, iSN04, and enhances its activities. This study investigated the effects of myoDNs on chicken myoblasts to elucidate their species-specific actions. Seven myoDNs (iSN01–iSN07) were found to facilitate the differentiation of chicken myoblasts into myosin heavy chain (MHC)-positive myotubes. The iSN04–berberine complex exhibited a higher myogenetic activity than iSN04 alone, which was shown to enhance the differentiation of myoblasts into myotubes and the upregulation of myogenic gene expression (MyoD, myogenin, MHC, and myomaker). These data indicate that myoDNs promoting chicken myoblast differentiation may be used as potential feed additives in broiler diets. 相似文献
2.
Somite differentiation, muscle fibres formation and growth were analysed in a non-model tropical fish Pterophyllum scalare. In this study, it was found that during somite differentiation, a primary myotome appears. The primary myotome is filled with multinucleated myotubes that constitute the major part of the somite. Subsequently, Pax-3 (paired-box protein)-positive cells, located externally to the myotomes, appear. In post-hatching stages, mononucleated proliferating cell nuclear antigen-positive cells are observed in the inter-myotomal spaces and within the myotomes. The mononucleated cells, situated in the myotomes, first express desmin in their cytoplasm and then Pax-7 (paired-box protein) in their nuclei. Expression of desmin indicates that they will enter myogenic pathway, whereas expression of Pax-7 suggests their role of satellite cells. We assume that mononucleated intramyotomal cells are myogenic precursors involved in muscle growth. In advanced (post-hatching) stages of myogenesis, myotomes contain both primary and new muscle fibres. Morphometric analyses show that in Pterophyllum scalare, growth of muscle fibres is mainly a result of hypertrophy. 相似文献
3.
Growth hormone is a major stimulator of skeletal muscle growth in animals, including cattle. In this study, we determined whether GH stimulates skeletal muscle growth in cattle by direct stimulation of proliferation or fusion of myoblasts, by direct stimulation of protein synthesis, or by direct inhibition of protein degradation in myotubes. We also determined whether these direct effects of GH are mediated by IGF-I produced by myoblasts or myotubes. Satellite cells were isolated from cattle skeletal muscle and were allowed to proliferate as myoblasts or induced to fuse into myotubes in culture. Growth hormone at 10 and 100 ng/mL increased protein synthesis in myotubes (P < 0.05), but had no effect on protein degradation in myotubes or proliferation of myoblasts (P > 0.05). Insulin-like growth factor-I at 50 and 500 ng/mL stimulated protein synthesis (P < 0.01), and this effect of IGF-I was much greater than that of GH (P < 0.05). Besides stimulating protein synthesis, IGF-I at 50 and 500 ng/mL also inhibited protein degradation in myotubes (P < 0.01), and IGF-I at 500 ng/mL stimulated proliferation of myoblasts (P < 0.05). Neither GH nor IGF-I had effects on fusion of myoblasts into myotubes (P > 0.1). These data indicate that GH and IGF-I have largely different direct effects on bovine muscle cells. Growth hormone at 10 and 100 ng/mL had no effect on IGF-I mRNA expression in either myoblasts or myotubes (P > 0.1). This lack of effect was not because the cultured myoblasts or myotubes were not responsive to GH; GH receptor mRNA was detectable in them and the expression of the cytokine-inducible SH2-containing protein (CISH) gene, a well-established GH target gene, was increased by GH in bovine myoblasts (P < 0.05). Overall, the data suggest that GH stimulates skeletal muscle growth in cattle in part through stimulation of protein synthesis in the muscle and that this stimulation is not mediated through increased IGF-I mRNA expression in the muscle. 相似文献
4.
Keisuke Suzuki Yasuhiro Kishioka Jun‐ichi Wakamatsu Takanori Nishimura 《Animal Science Journal》2013,84(9):669-674
Decorin, a small leucine‐rich proteoglycan, plays an important role in cellular activities through modification of growth factors. It also acts as a signaling molecule to non‐muscle cells through epidermal growth factor receptor or insulin‐like growth factor I receptor (IGF‐IR). However, it is unclear if decorin acts as a signaling molecule to myogenic cells. In this study, we investigated the effect of decorin on the differentiation of myoblasts and the signaling via IGF‐IR to myogenic cells. C2C12 myoblasts cultured in media containing decorin for 72 h showed more extensive formation of multinucleated myotubes than control cells cultured in the same media without decorin. The protein expressions of myogenin and myosin heavy chian were higher in decorn‐treated cells than in control cells. These results suggest that decorin enhances the differentiation of myoblasts. Western blot analysis and immunocytochemistry showed that IGF‐IR was expressed in myoblasts and myotubes. Furthermore, Akt, which is downstream of IGF‐IR, was more phosphorylated in myoblasts cultured in media containing decorin than those in media without decorin. These results suggest that decorin activates Akt downstream of IGF‐IR and enhances the differentiation of myogenic cells. 相似文献
5.
Tomohide Takaya Yuma Nihashi Shotaro Kojima Tamao Ono Hiroshi Kagami 《Animal Science Journal》2017,88(11):1880-1885
Cell‐cell fusion has been a great technology to generate valuable hybrid cells and organisms such as hybridomas. In this study, skeletal muscle myoblasts were utilized to establish a novel method for autonomous xenogenic cell fusion. Myoblasts are mononuclear myogenic precursor cells and fuse mutually to form multinuclear myotubes. We generated murine myoblasts (mMBs) expressing green fluorescent protein (GFP) termed mMB‐GFP, and the chick myoblasts (chMBs) expressing Discosoma red fluorescent protein (DsRed) termed chMB‐DsRed. mMB‐GFP and chMB‐DsRed were cocultured and induced to differentiate. After 24 h, the multinuclear myotubes expressing both GFP and DsRed were observed, indicating that mMBs and chMBs interspecifically fuse. These GFP+/DsRed+ hybrid myotubes were able to survive and grew to hyper‐multinucleated mature form. We also found that undifferentiated mMB‐GFP efficiently fuse to the chMB‐DsRed‐derived myotubes. This is the first evidence for the autonomous xenogenic fusion of mammalian and avian cells. Myoblast‐based fusogenic technique will open up an alternative direction to create novel hybrid products. 相似文献
6.
In Coregonus lavaretus, prior the mesoderm segmentation, in cells adjacent to the notochord called adaxial cells MyoD and slow myosin heavy chain (MyHC‐slow) proteins were observed. After somite formation, adaxial cells migrate towards the lateral part of the myotome and form a layer of red muscles. Deeper cells differentiate into white muscle fibres. In situ hybridization using Pax‐3 molecular probe revealed, that after somitogenesis, Pax‐3 is expressed in a layer of cells superficial to the myotome resembling the “external cells” (found in many teleosts species) or dermomyotome described in Amniota. During later developmental stages Pax‐3 gene is expressed in cells in intermyotomal space and then in myoblasts between myotubes. In these cells Pax‐7 protein was also observed. Pax‐3/7 positive cells which have migrated into the myotomes differentiate into satellite cells/secondary myoblasts and participate in hypertrophic and hyperplastic growth of muscles. 相似文献
7.
Response of C2C12 mouse and turkey skeletal muscle cells to the beta-adrenergic agonist ractopamine 总被引:1,自引:0,他引:1
The effects of ractopamine (RAC) and ractopamine stereoisomers (RR, RS, SR, and SS) on cyclic AMP (cAMP) production, total protein, and DNA concentrations in mouse skeletal muscle cells (C2C12) were evaluated. The RAC (10 microM) caused an approximately 30% increase in cell number, protein, and DNA concentrations in myoblasts after 48 h; no differences were found in myotubes. The RAC-stimulated increase of these variables in myoblasts was blocked by the presence of equimolar concentrations of propranolol. At a later passage, myoblasts failed to exhibit an increase in cell number, protein, or DNA upon exposure to RAC. Both myoblasts and myotubes increased cAMP production in response to 10 microM RAC. The RAC isomers ranked RR > SR > RS approximately SS in ability to stimulate cAMP production, with essentially no response to SS. The SR produced about 50% of the RR response. Coincubation of propranolol (10 microM) and RAC (10 microM) prevented RAC-stimulated cAMP production in myotubes but not in myoblasts (approximately 35% of cAMP produced by RAC alone). Turkey satellite cells (derived from biceps femoris of 12-wk-old toms) produced essentially no increased cAMP when exposed to 10 microM RAC stereoisomers. Stability of RAC was evaluated under laboratory storage and culture conditions. The RAC was stable for more than 4 mo when stored in deuterated DMSO (>98% purity) at room temperature or in aqueous solutions at -80 degrees C, as determined from sequential nuclear magnetic resonance studies. Radiolabeled RAC was incubated for 72 h in the presence of serum-containing medium, with or without C2C12 cells. Ninety-eight percent of the parent compound found in the medium at time zero was present in the medium as parent at the end of 72 h. The cellular cAMP response to RAC through beta-adrenergic receptors seems to be stereospecific. If the state of myoblasts and myotubes in vitro reflects the in vivo state, then the ractopamine effect in vivo on cellular processes (including cell division and protein and DNA accumulation) may be independent of beta-adrenergic receptors in muscle. 相似文献
8.
The purpose of this report is to contribute to the knowledge of the morphogenesis of the human stapedius muscle. We have studied the stapedius structure development in 17 temporal bones from human fetuses. Chronological ages were from 48 days (21 mm) to 29 weeks (270 mm). Samples were fixed in 10% formol, decalcified with 2% nitric acid, embedded in Paraplast, sectioned in sequence of 7 microns and were stained with haematoxylin & eosin and Martins' trichrome. Four maturation stages were observed in the development of the stapedius muscle structure. First, the formation of the 'primordium muscularis' in the mesenchyme of the tympanic cavity (promyoblasts) was observed in a 36-mm embryo. Second, its differentiation into myoblasts, and its next cellular fusion to form muscle tubes, was seen in a 99-mm foetus. In the third stage, myofibrogenesis phenomena were developed, to synthesize, the myotube myoblasts, myofilaments, phenomena we observed that took place during the 14th to 17th weeks of development. The last stage was characterized by the presence of striated muscle fibres, at first intermingled with myotubes (18th to 26th weeks), until in the 29th week fetuses (270 mm) the skeletal muscle fibre was completely differentiated. We conclude that in the 29th week of development (270 mm) the stapedius muscle structure is completely differentiated, although the functional development is not complete until birth. 相似文献
9.
本研究对牛骨骼肌卫星细胞进行体外分离培养、诱导分化和鉴定,采用胶原酶和胰酶联用的酶消化法分离肌卫星细胞,应用差速贴壁法进行纯化,观察卫星细胞及诱导分化后肌管的形态结构,并利用标志基因的反转录PCR(RT-PCR)和免疫荧光染色方法对分化前后细胞进行鉴定。结果显示,分离出的肌卫星细胞呈梭形生长,生长状态良好,RT-PCR和免疫荧光染色显示肌卫星细胞Pax7和MyoD呈阳性表达,纯化后的肌卫星细胞纯度大于93%;诱导分化后,卫星细胞融合生长,形成的肌管状态良好,分化标志基因MyoG和MHC呈阳性表达。本研究建立了一套从牛肌肉组织中分离和鉴定肌卫星细胞的方法,可以为肌肉的发育分化和肉牛肉质改良研究提供良好的细胞模型。 相似文献
10.
Monoclonal and polyclonal antibodies against mammalian intermediate filament (IF) proteins were used to demonstrate IF expression in tissues and lymphoma tumors of northern pikes, Esox lucius L., from the Aland Islands of Finland by indirect immunofluorescence microscopy. Frozen sections of pike tissues demonstrated IFs in a manner confirming their evolutionary conservation and subclass specificity. Tumor cells showed morphological resemblance to head kidney cells and were positive for vimentin while negative for cytokeratin, desmin, neurofilament proteins, and glial fibrillary acidic protein. The results show that the neoplasm is a mesenchymal as opposed to an epithelial, muscle, neural, or glial tumor, and is probably hemic cell derived. A rabbit anti-pike IgM antiserum showed that up to 90% of mononuclear (MN) cells isolated on Ficoll-Isopaque gradients from peripheral blood, spleen and head kidney were surface- and cytoplasmic-immunoglobulin positive by indirect immunofluorescence, while a maximum of 5% of tumor cells were positive. A maximum of 5% of MN cells from hemic tissues exhibited rosettes when incubated with AET-treated sheep red blood cells; however, only 1% of cells in the tumor formed rosettes. Lymphocyte proliferation assays were performed on MN cells from hemic tissues and tumor using phytohemagglutinin P, concanavalin A, tuberculin purified protein derivative and lipopolysaccharide W in medium supplemented with fetal calf serum or autologous pike plasma. Proliferation indices in hemic tissues were similar in the groups. However, all proliferation indices in tissues were significantly higher than corresponding values in the tumor. These assays show that pike MN cells respond when stimulated by T and B cell mitogens, but that this reactivity is lacking in the tumor. 相似文献
11.
Expression of myogenic regulating factors, Myogenin and MyoD, in two canine botryoid rhabdomyosarcomas 总被引:1,自引:0,他引:1
Kobayashi M Sakai H Hirata A Yonemaru K Yanai T Watanabe K Yamazoe K Kudo T Masegi T 《Veterinary pathology》2004,41(3):275-277
Myogenin and MyoD regulate the development of skeletal muscle, and their expressions are specific to the stages of myogenesis. Therefore, these myogenic regulatory proteins could be considered as sensitive and specific markers for rhabdomyosarcoma. In this report we investigated the immunohistochemical reactivities of myogenin and MyoD in two canine bladder botryoid rhabdomyosarcomas that were different in the degree of differentiation. MyoD was stained in the Ki-67 antigen-positive undifferentiated mesenchymal cells, which had proliferative activity similar to myoblasts differentiated from mesoblasts. In contrast, multinucleated neoplastic cells were positive for myogenin and alpha-sarcomeric actin but not for Ki-67 antigen, similar to the myotubes differentiated from myoblastic cells. The expressions of myogenin and MyoD were closely correlated to the histologic features of myogenic neoplastic cells. 相似文献
12.
J Cabezas E Lara P Pacha D Rojas D Veraguas F Saravia L Rodríguez‐Alvarez FO Castro 《Reproduction in domestic animals》2014,49(4):550-559
Endometrial stem cells have been identified in humans, mice and pigs. This study was designed to determine whether the uterine endometrium of cycling cows contains such cells, to identify markers of stemness and ultimately to isolate putative stem/progenitor cell and evaluate their capability to differentiate into mesodermal derivatives. Uteri from healthy cows in the early (days 1–5) and late luteal phases (days 13–18) of the oestrous cycle were collected. Total RNA and proteins were isolated and searched for gene markers of embryonic (OCT4, NANOG, SOX2) and mesenchymal (CD44, STAT3, CD‐117) stem cells and for protein markers (Oct4, Sox2, Cd44) in Western blots or immunostaining of paraffin‐embedded tissue. Primary cell cultures were isolated; characterized in terms of morphology, colony formation and gene/protein expression; and induced osteogenic and chondrogenic differentiation. We identified expression of embryonic (OCT4 and SOX2, but not NANOG) and mesenchymal (STAT3, CD44 and c‐KIT) gene markers in the endometrium of cycling cows and the encoded proteins (Oct4, Sox2 and Cd44) in both stages of the oestrous cycle. Derived cell lines displayed essentially the same gene expression pattern; however, at the protein level, Oct4 was not detected. No clear influence of the stage of the oestrous cycle was found. Cell lines from late luteal phase displayed osteogenic and chondrogenic differentiation potential upon chemical stimulation. In this research, we demonstrated the presence of mesenchymal progenitor cell populations of apparently mesenchymal origin in the endometrium of cycling cows, in both the early and late phases of the oestrous cycle. The cells isolated from the late luteal phase were more acquiescent to differentiate into mesodermal derivatives than cells in the early luteal phase. Our findings might have implications for the understanding of uterine stem cell biology in cows and other farm animal species. 相似文献
13.
Basic principles of muscle development and growth in meat-producing mammals as affected by the insulin-like growth factor (IGF) system 总被引:11,自引:0,他引:11
This presentation aims to describe how the basic events in prenatal muscle development and postnatal muscle growth are controlled by the insulin-like growth factor system (IGF). The prenatal events (myogenesis) cover the rate of proliferation, the rate and extent of fusion, and the differentiation of three myoblast populations, giving rise to primary fibers, secondary fibers, and a satellite cell population, respectively. The number of muscle fibers, a key determinant of the postnatal growth rate, is fixed late in gestation. The postnatal events contributing to myofiber hypertrophy comprise satellite cell proliferation and differentiation, and protein turnover. Muscle cell cultures produce IGFs and IGF binding proteins (IGFBPs) in various degrees depending on the origin (species, muscle type) and state of development of these cells, suggesting an autocrine/paracrine mode of action of IGF-related factors. In vivo studies and results based on cell lines or primary cell cultures show that IGF-I and IGF-II stimulate both proliferation and differentiation of myoblasts and satellite cells in a time and concentration-dependent way, via interaction with type I IGF receptors. However, IGF binding proteins (IGFBP) may either inhibit or potentiate the stimulating effects of IGFs on proliferation or differentiation. During postnatal growth in vivo or in fully differentiated muscle cells in culture, IGF-I stimulates the rate of protein synthesis and inhibits the rate of protein degradation, thereby enhancing myofiber hypertrophy. The possible roles and actions of the IGF system in regulating and determining muscle growth as affected by developmental stage and age, muscle type, feeding levels, treatment with growth hormone and selection for growth performance are discussed. 相似文献
14.
B A Valentine S K Chandler J F Cummings B J Cooper 《American journal of veterinary research》1991,52(1):104-107
Explants were prepared from skeletal muscle tissue from 5 nondystrophic pups and from 5 pups with X-linked muscular dystrophy; pups were 2 to 17 weeks old. A serial reexplant method resulted in optimal cell density with minimal fibroblast growth. Cultures were examined daily by use of phase-contrast microscopy; differentiated (post-fusion) cultures were examined by electron microscopy. Moderate nuclear pleomorphism and cell clustering were observed in cultures of normal and dystrophic muscle cells. Cultures were maintained to 27 days after plating. Minimal myofilament synthesis was observed in multinucleate cells from nondystrophic and dystrophic pups, but spontaneous contraction of myotubes was not observed during this period. Differences in growth, fusion, or differentiation of myogenic cells into multinucleate cells and myotubes were not found between dystrophic and normal muscle. 相似文献
15.
Yousuke MURAKAMI Erica YADA Shin‐ichi NAKANO Yuko MIYAGOE‐SUZUKI Tohru HOSOYAMA Takashi MATSUWAKI Keitaro YAMANOUCHI Masugi NISHIHARA 《Animal Science Journal》2011,82(6):764-772
The present study describes the isolation, cloning and characterization of adipogenic progenitor cells from rat skeletal muscle. Among the obtained 10 clones, the most highly adipogenic progenitor, 2G11 cells, were further characterized. In addition to their adipogenicity, 2G11 cells retain myogenic potential as revealed by formation of multinucleated myotubes when co‐cultured with myoblasts. 2G11 cells were resistant to an inhibitory effect of basic fibroblast growth factor on adipogenesis, while adipogenesis of widely used preadipogenic cell line, 3T3‐L1 cells, was suppressed almost completely by the same treatment. In vivo transplantation experiments revealed that 2G11 cells are able to possess both adipogenicity and myogenicity in vivo. These results indicate the presence of bipotent progenitor cells in rat skeletal muscle, and suggest that such cells may contribute to ectopic fat formation in skeletal muscle. 相似文献
16.
Diaphragms obtained from 40 fetal rabbits at gestational ages of 20, 22, 25 and 30 days were examined by light and transmission electron microscopes. The percentage of myogenic cells undergoing mitosis was calculated by counting mitotic nuclei in 1 micron sections. At 20 and 22 days gestation, myogenic cells (myoblasts and satellite cells) were actively proliferating with 2.66 +/- 0.41% (n = 15) and 2.18 +/- 0.20% (n = 23), of the cells in division, respectively. The myogenic cells undergoing mitosis appeared to be of both myoblasts and satellite cells at these stages of the development. The myotubes on day 20 of gestation contained a large number of lipid droplets and an abundance of glycogen particles which were reduced by day 22 of gestation. The mitotic rate on day 25 of gestation was reduced to 1.16 +/- 0.11% (n = 28). The muscle fibers were well differentiated at this stage and the majority of the dividing cells were considered to be satellite cells. In diaphragms from the full term fetuses (day 30), the mitotic rate was reduced to 0.31 +/- 0.05% (n = 24). It was suggested that myoblasts of the fetal rabbit diaphragm proliferated for the myotube formation during the earliest stage of the development (day 20 of gestation) and then the number of satellite cells increased after day 22 of gestation. Growth of the organ after day 25 of gestation appeared to be mostly due primarily to the hypertrophy and differentiation of the muscle fibers rather than proliferation of myoblasts. 相似文献
17.
18.
Epidermal growth factor (EGF) receptors are widely distributed in mammalian tissues, including muscle. One ligand of these receptors, heparin-binding epidermal growth factor-like growth factor (HB-EGF) is also strongly expressed in adult muscle. However, in vitro studies of EGF action in cultured muscle cells of different species have yielded conflicting results. The purpose of this study was to investigate the potential role of EGF and related factors in the growth and development of fetal ovine muscle. High affinity EGF receptors were detected on clonally purified ovine fetal myoblasts, using [(125)I] human EGF as a ligand (K(d) values of 47 and 54 pM in separate experiments). Competitive binding studies in mixed secondary cultures showed that EGF had the highest affinity for the fetal ovine receptor, followed by HB-EGF and transforming growth factor alpha (TGF-alpha). These ligands all stimulated DNA synthesis in clonally purified ovine myoblasts, with their relative potencies at 0.1 nM reflecting their receptor binding affinities. Maximal effects were seen at 1-10 nM. EGF (10 nM) did not significantly inhibit the differentiation of clonally purified fetal ovine myoblasts, although there was increased proliferation of nondifferentiating cells. Hence a variety of EGF receptor ligands have the potential to influence the proliferation ovine muscle cell precursors in utero, but it is unlikely that they promote differentiation. 相似文献
19.
为探究长链非编码RNA(lncRNA)对牛骨骼肌卫星细胞增殖及分化的影响,本研究以牛骨骼肌卫星细胞及已建立的体外成肌诱导分化模型为基础,以前期高通量测序获得的牛骨骼肌卫星细胞分化前后表达差异倍数较大的一个预测lncRNA为靶标,对其进行生物信息学分析及亚细胞定位,命名为lnc4351。设计合成lnc4351的siRNA,转染牛骨骼肌卫星细胞,采用EdU染色的方法检测干扰lnc4351对细胞增殖的影响;对转染siRNA的牛骨骼肌卫星细胞进行体外成肌诱导分化,观察肌管的形成状态,同时采用实时荧光定量PCR和Western blotting检测分化标志因子MyoG和MHC基因的mRNA及蛋白水平的表达变化,研究干扰lnc4351对细胞分化的影响。结果显示,lnc4351位于牛的14号染色体,不具有蛋白编码潜能,是一个未报道过的lncRNA,在牛骨骼肌卫星细胞的细胞质和细胞核内均有分布,主要存在于细胞核;干扰lnc4351表达后,EdU阳性细胞比率显著下降(P<0.05),说明下调lnc4351表达显著抑制了牛骨骼肌卫星细胞的增殖;下调lnc4351表达后肌卫星细胞经诱导分化产生的肌管量呈现增多趋势,分化标志因子MyoG和MHC的蛋白水平显著或极显著上调(P<0.05;P<0.01),说明干扰lnc4351能够促进牛骨骼肌卫星细胞的成肌分化过程。本研究结果表明,干扰lnc4351表达可以抑制牛骨骼肌卫星细胞的增殖并促进其成肌分化过程,为进一步开展lncRNA对牛骨骼肌发育的调控机制及肌肉发育相关研究提供参考。 相似文献
20.
试验旨在分离绵羊骨骼肌卫星细胞(skeletal muscle satellite cells,SMSCs),建立绵羊SMSCs体外分离、培养及鉴定体系,为后续研究提供种子细胞。以新生健康绵羊为试验动物,采用胶原酶Ⅳ和胰酶两步酶消化法和差速贴壁法分离并纯化SMSCs。用RT-PCR和免疫荧光法鉴定SMSCs标记基因配对盒基因7(paired box 7,Pax7)、结蛋白(Desmin)和生肌调节因子1(myogenic regulatory factors 1,MyoD1)的表达情况;用血清撤离法诱导SMSCs向成肌细胞方向分化,成肌诱导后观察肌管的形成,免疫荧光法检测成肌分化特异性标志肌球蛋白重链(myosin heavy chain,MHC)的表达。RT-PCR结果显示,扩增条带与预期相符,所分离细胞表达SMSCs标记基因Pax7、Desmin和MyoD1;免疫荧光鉴定结果显示,所分离细胞表达SMSCs标记蛋白Pax7、Desmin和MyoD1;成肌诱导后镜下可见细胞相互融合形成多核的肌管,并表达成肌特异性标志MHC。本试验分离了绵羊SMSCs,建立了适用于绵羊SMSCs的体外培养体系,并成功进行了成肌诱导分化,为今后研究绵羊骨骼肌生长发育机制提供了试验材料和技术支撑。 相似文献