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Current Opinion in Cell Biology
Volumn 4, Issue 6, 1992, Pages 923-928
Muscle differentiation
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Indexed keywords

VERTEBRATA;
EID: 0027017771     PISSN: 09550674     EISSN: None     Source Type: Journal    
DOI: 10.1016/0955-0674(92)90119-W     Document Type: Article
Times cited : (17)
References (41)
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    • of outstanding interest, Elegant demonstration using chick-quail grafts that the medial and lateral halves of the early avian somite represent distinct myogenic lira eages. These gave rise to the body and limb musculature, respectively, in reciprocal grafting experiments, although in early somites the two halves were interchangeable.
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    • The Neural Tube/Notochord Complex is Necessary for Vertebral but not Limb and Body Wall Striated Muscle Differentiation
    • of outstanding interest, The effects of separation or removal of the neural tube-notochord complex on subsequent muscle formation in the chick embryo was assessed using a monoclonal antibody specific for muscle cells. Ablation of these axial structures resulted in the degeneration of newly formed somites, due to cell death, but limb muscle nevertheless formed in these embryos. Differentiation of somites to give axial muscle required a period of contact with these axial structures and this effect was reproduced with cultured somites.
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    • Autonomy of Differentiation in Avian Brachial Somites and the Influence of Adjacent Tissues
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    • Temporal and Quantitative Analysis of Myogenic Regulatory and Growth Factor Gene Expression in the Developing Mouse Embryo
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    • Sequential Activation of Three Myogenic Regulatory Genes during Somite Morphogenesis in Quail Embryos
    • ⊎⊎]).
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    • Transient Expression of XMyoD in Non-somitic Mesoderm of Xenopus gastrulae
    • of special interest, Expression of XMyoD was detected by whole-mount in situ hybridization throughout the mesoderm of the early Xenopus gastrula embryo. Transcripts were also detected by northern blot analysis in ultra violet light-treated embryos that produce no muscle tissue and in cultured explants that form ventral mesoderm.
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    • Expression of XMyoD Protein in Early Xenopus laevis Embryos
    • of special interest, A detailed study of XMyoD protein distribution in the Xenopus embryo using a monoclonal antibody. This gave better resolution than comparable studies of the mRNA and confirmed that XMyoD protein was present in all but the most dorsal cells of the newly formed mesoderm. Expression was localized to the cell nuclei and was later restricted to premyotomal and myotomal cells. The protein was apparently present in every cell of the myotome.
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    • Hopwood1    Pluck2    Gurdon3    Dilworth4
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    • Xenopus Myf-5 Marks Early Muscle Cells and can Activate Muscle Genes Ectopically in Early Embryos
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    • Expression of the Myogenic Gene MRF4 during Xenopus Development
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    • MyoD, myogenin independent differentiation of primordial myoblasts in mouse somites
    • of special interest, The presence of MyoD, myogenin and myosin heavy-chain proteins was compared in cultured foetal mouse myoblasts. Late somites and limb buds gave rise to cells that expressed the myogenic factors before differentiation; a second population from early somites differentiated in culture without expressing either myogenic factor. These might constitute the migratory limb muscle precursors because they were also detected in cultures from limb buds. No antibody was available to identify Myf-5 protein.
    • (1992) The Journal of Cell Biology , vol.116 , pp. 1243-1255
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    • Activation of Muscle Genes without Myogenesis by Ectopic Expression of MyoD in Frog Embryo Cells
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    • Inhibition of Muscle Differentiation by the Adenovirus E1a Protein: Repression of the Transcriptional Activating Function of the HLH Protein Myf-5
    • of special interest, Expression of adenovirus E1A protein in rat L6 muscle cells blocks the activity of Myf-5 without affecting expression of the myf-5 gene or DNA-binding ability of the Myf-5 protein. In contrast, myogenin expression is blocked, suggesting that this factor lies downstream of myf-5 in the regulatory hierarchy.
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    • Braun1    Bober2    Arnold3
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    • Differential Transactivation Associated with the Muscle Regulatory Factors MyoD1, Myogenin, and MRF4
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    • Differential Transactivation of a Muscle-specific Enhancer by Myogenic Helix-Loop-Helix Proteins is Separable from DNA Binding
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    • Chakraborty1    Brennan2    Olson3
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    • Expression of MRF4, a Myogenic Helix-Loop-Helix Protein, Produces Multiple Changes in the Myogenic Program of BC3H-1 Cells
    • (1992) Mol Cell Biol , vol.12 , pp. 2484-2492
    • Block1    Miller2
  • 22
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    • Inactivation of myoD in Mice Leads to Up-regulation of the Myogenic HLH Gene myf-5 and Results in Apparently Normal Muscle Development
    • of outstanding interest, Homologous recombination in ES cells was used to construct transgenic mice lacking a functional myoD gene. These mice show no apparent abnormalities in muscle differentiation, suggesting that the gene is functionally redundant. myf-5 RNA is elevated in the muscles of the mice, indicating that the Myf-5 protein might be substituting for MyoD.
    • (1992) Cell , vol.71 , pp. 383-390
    • Rudnicki1    Braun2    Hinuma3    Jaenisch4
  • 23
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    • Targeted Inactivation of the Muscle Regulatory Gene myf-5 Results in Abnormal Rib Development and Perinatal Death
    • of outstanding interest, myf-5 is the first myogenic gene to be activated during somitogenesis in the mouse. Transgenic embryos lacking a functional myf-5 gene show a considerable delay in the first appearance of myotomal cells, but subsequent muscle differentiation is apparently normal. Interestingly, the new-born mice die at birth because they lack a normal rib cage and cannot breathe. This suggests that the myf-5 mutation affects normal differentiation of sclerotomal cells.
    • (1992) Cell , vol.71 , pp. 369-382
    • Braun1    Rudnicki2    Arnold3    Jaenisch4
  • 24
  • 25
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    • Muscle-specific Transcriptional Activation by MyoD
    • of special interest, The transcriptional-activation domain of MyoD was mapped to the amino-terminal portion of the protein as assessed by domain swap experiments. Systematic mutagenesis of the basic region identified an Ala-Thr pair of residues to be critical for MyoD function. The authors suggest that another factor that recognizes the basic region is required for MyoD function.
    • (1991) Genes Dev , vol.5 , pp. 1377-1386
    • Weintraub1    Dwarki2    Verma3    Davis4    Hollenberg5    Snider6    Lassar7    Tapscott8
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    • The Basic Region of Myogenin Cooperates with Two Transcription Activation Domains to Induce Muscle-specific Transcription
    • of special interest, Domain-swap experiments demonstrated that the transcriptional activation functions of myogenin map to both amino- and carboxyl-terminal domains of the protein. Activation of reporter genes via E-box sites requires the myogenin basic region, even with chimeric VP16-myogenin proteins, indicating that the basic region also participates in transcriptional activation function.
    • (1992) Mol Cell Biol , vol.12 , pp. 266-275
    • Schwarz1    Chakraborty2    Martin3    Zhou4    Olson5
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    • Co-operativity of Functional Domains in the Muscle-specific Transcription Factor myf-5
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    • Winter1    Braun2    Arnold3
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    • Identification of MRF4, Myogenin, and E12 Oligomer Complexes by Chemical Cross-linking and Two-dimensional Gel Electrophoresis
    • (1992) J Biol Chem , vol.267 , pp. 4773-4780
    • Lin1    Konieczny2
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    • Functional Activity of Myogenic HLH Proteins Requires Hetero-oligomerization with E12/E47-like Proteins in vivo
    • of outstanding interest, Comprehensive demonstration that E12/E47 proteins associate in vivo with MyoD and myogenin. Myogenic conversion of 10T1/2 cells by MyoD results in activation of the muscle-specific regulators, MCAT and MEF-2. The authors discuss the possibility that competition for E-proreins provides a mechanism for ensuring that different HLH-dependent developmental decisions are mutually exclusive.
    • (1991) Cell , vol.66 , pp. 305-315
    • Lassar1    Davis2    Wright3    Kadesch4    Murre5    Voronova6    Baltimore7    Weintraub8
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    • The MyoD DNA Binding Domain Contains a Recognition Code for Muscle-specific Gene Activation
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    • Davis1    Cheng2    Lassar3    Weintraub4
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    • Acquisition of Myogenic Specificity by Replacement of Three Amino Acid Residues from MyoD, into E12
    • of special interest, An E12 protein containing only two replacements (Ala-Thr) in the basic region and a third replacement (Lys) at the junction with helix 1 acquired the ability to convert 10T1/2 fibroblasts into muscle cells.
    • (1992) Science , vol.256 , pp. 1027-1030
    • Davis1    Weintraub2
  • 37
  • 39
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    • Functional Antagonism Between c-Jun and MyoD Proteins: a Direct Physical Association
    • of outstanding interest, Transactivation of the MyoD promoter, the MCK enhancer and an E-box driven reporter by MyoD were all blocked by cotransfection with a jun expression vector; in reciprocal experiments, MyoD suppressed transactivation of a reporter containing an AP-1 site by Jun. Direct interaction of the Jun and MyoD was demonstrated both in vivo and in vitro, requiring the leucine zipper domain of Jun and the HLH region of MyoD.
    • (1992) Cell , vol.68 , pp. 507-519
    • Bengal1    Ransone2    Scharfmann3    Dwarki4    Tapscott5    Weintraub6    Verma7
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    • v-jun Oncogene Prevents Terminal Differentiation and Suppresses Muscle-specific Gene Expression in ASVD17D-infected Muscle Cells
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    • Grossi1    Calconi2    Tato3
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    • Fos and Jun Repress Transcriptional Activation by Myogenin and MyoD: the Amino Terminus of Jun Can Mediate Repression
    • ⊎⊎]).
    • (1992) Genes Dev , vol.6 , pp. 676-689
    • Li1    Chambard2    Karin3    Olson4

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.