• SHOP
    • COMBOS
    • TESTIMONIALS
    • CART
    • INGREDIENTS
      • 2-DEOXY-D-GLUCOSE (2DG)
      • ACACIA CYANOPHYLLA FLOWER
      • ACORI GRAMINEI RHIZOMA
      • AEGLE MARMELOS CORREA
      • AGARICUS BLAZEI
      • AGED GARLIC EXTRACT
      • AFRAMOMUM MELEGUETA
      • ALOE ARBORESCENS
      • ALBIZIA
      • ALPINIA OFFICINARUM
      • ALTERNANTHERA SESSILIS
      • AMERICAN GINSENG
      • AMYGDALIN
      • ANACYCLUS PYRETHRUM
      • ANGELICA ARCHANGELICA
      • ANGELICA SINENSIS
      • ANTRODIA
      • ARTICHOKE LEAF
      • ARTOCARPIN
      • AJUGA TURKESTANICA
      • ASHWAGANDHA
      • ASPALATHIN
      • ASTRAGALUS COMPLANATUS
      • AVENA SATIVA
      • BACOPA MONNIERI
      • BAVACHIN
      • BEE POLLEN
      • BETULINIC ACID
      • BOSWELLIC ACID
      • BREVILIN A
      • CAMPESTEROL
      • CAPSAICIN
      • CARCININE
      • CASTICIN
      • CHRYSIN
      • CINNAMOMUM ZEYLANICUM
      • CITRULLUS COLOCYNTHIS
      • CITRUS RETICULATA PEEL
      • CODONOPSIS
      • CONJUGATED LINOLEIC ACID
      • COSTUNOLIDE
      • CUCURBITACIN D
      • DAIDZEIN
      • DECURSIN
      • DELPHINIDIN
      • DIGITALIS PURPREA (DIGOXIN)
      • DIOSMIN
      • EMBELIN
      • GALLIC ACID
      • GLYCITEIN
      • GLYCYRRHIZIN
      • HYPERFORIN
      • ICARIIN
      • ISORHAMNETIN
      • ISOORIENTIN
      • ISOVITEXIN
      • JACEOSIDIN
      • KAEMPFEROL
      • KIGELIA AFRICANA
      • KURARINONE
      • LEMON BALM
      • LICORICIDIN
      • LIPOIC ACID
      • LUPEOL
      • MAGNOLOL
      • MULBERRY LEAF
      • NARINGENIN
      • NOBILETIN
      • OLEACEIN
      • OLEANOLIC ACID
      • OLIVE OIL
      • ORIDONIN
      • PARTHENOLIDE
      • PHLOROGLUCINOL
      • PICEATANNOL
      • PRISTIMERIN
      • PROANTHOCYANIDINS
      • PROCYANIDIN B3
      • PSEUDOLARIC ACID B
      • PTEROSTILBENE
      • RUTIN
      • SOLIDAGO VIRGAUREA
      • TANGERETIN
      • TARAXASTEROL
      • TRICHOSTATIN A
      • WEDELOLACTONE
      • WOGONIN
      • YERBA MATE
    • ABOUT
    • SCIENTIFIC STUDIES
      • ADAPTOGENS
      • ALLERGIES & CYTOKINES
      • ALDOSTERONE & OBESITY/HYPERTENSION
      • ALZHEIMER’S, DEMENTIA, PARKINSON’S
      • ANTI-ACNE EFFECT OF FLAVONOIDS AND POLYPHENOLS
      • ADVANCED GLYCATION END PRODUCTS (AGES)
      • ADIPOCYTE APOPTOSIS (KILLING FAT CELLS)
      • ADIPOCYTE DEDIFFERENTIATION (THE REVERSAL OF FAT FORMATION)
      • AMPK
      • ANTI AGING
      • ANTI-AGING EFFECTS OF FLAVONOIDS & POLYPHENOLS
      • ANTI-APOPTOTIC PATHWAYS
      • ANTI-CANCER EFFECTS OF FLAVONOIDS & POLYPHENOLS
      • ANTI COVID-19 EFFECTS OF MEDICINAL PLANTS, FLAVONOIDS & POLYPHENOLS
      • ANTI GLYCATION AGENTS
      • ANTI-INFLAMMATORY EFFECTS OF FLAVONOIDS & POLYPHENOLS
      • ANTI-VIRAL EFFECTS OF FLAVONOIDS & POLYPHENOLS
      • ANTI WRINKLE AGENTS
      • APOPTOSIS
      • AUTOPHAGY
      • BCL-2
      • BCL-W
      • BCL-XL
      • BDNF
      • BECLIN-1 & AUTOPHAGY
      • BH3 MIMETICS
      • BIM aka BCL2L11
      • BMI-1
      • BRASSINOSTEROIDS
      • CARDIOPROTECTIVE AGENTS
      • CARDIAC GLYCOSIDES
      • CELL CYCLE ARREST
      • CENTENARIANS
      • CRYOTHERAPY
      • CRYOLIPOLYSIS: FREEZING FAT TO DEATH
      • CYP2E1
      • CYTOKINES IN PAIN, INFLAMMATION & AGING
      • DAF-16
      • DIABETES & CANCER
      • DIHYDROTESTOSTERONE (DHT)
      • ELLAGITANNINS
      • EPIGENETIC MODIFIERS
      • ERGOGENIC AGENTS (INCREASE ATHLETIC PERFORMANCE)
      • EXCITOXICITY & THE BRAIN
      • FASTING & CANCER
      • FEAR EXTINCTION
      • FGF21
      • FLAVONES
      • GALLOTANNINS
      • GLUTAMATE & BRAIN
      • KLOTHO
      • FASTING, CALORIE RESTRICTION & EXTENDING LIFESPAN
      • FOXO3
      • FOXO4
      • HEPATOPROTECTIVE AGENTS (KEEPING LIVER HEALTHY)
      • HMGB1
      • HORMESIS
      • HSP90 INHIBITORS
      • HYPERINSULINEMIA
      • HYPOACTIVE SEXUAL DESIRE (WHY PEOPLE HAVE ZERO SEX DRIVE)
      • IKK
      • IL-6/STAT3
      • IRISIN
      • ISOFLAVONES
      • IMMUNOSENESCENCE
      • INFECTOBESITY
      • INFLAMMATION & ANXIETY
      • INFLAMMATION & CANCER
      • INFLAMMATION & DEPRESSION
      • INFLAMMATION & OBESITY
      • INFLAMMAGING
      • INSULIN & AGING
      • INSULIN & CANCER: HOW INSULIN LITERALLY PROTECTS CANCER CELLS FROM BEING KILLED
      • INSULIN & MTOR
      • INSULIN & OBESITY
      • INTERMITTENT FASTING
      • JAK INHIBITION ALLEVIATES SASP
      • JNK ACTIVATION PREVENTS PREMATURE SENESCENCE
      • KETONE BODIES
      • KETOGENIC DIET
      • LIFESPAN EXTENSION
      • LIPOLYTIC AGENTS
      • LIPOLYSIS (THE DECOMPOSITION OF BODY FAT)
      • LOWERING CHOLESTEROL THRU FASTING, DIET & MEDICINAL PLANTS
      • MATRIX METALLOPROTEINASES (MMPs)
      • MCL-1
      • MITOCHONDRIAL UNCOUPLING
      • MDM2 INHIBITION AS SASP INHIBITOR
      • MSG (MONOSOSODIUM GLUTAMATE)
      • MUSCLE ATROPHY (PREVENTING)
      • MYOGENESIS
      • MYOSTATIN INHIBITION
      • MYOSTATIN INHIBITION PRESERVES MUSCLE
      • mTOR: THE RAPID AGING PATHWAY
      • NATURAL AROMATASE INHIBITORS
      • NEUROGENESIS (GROWING NEW BRAIN CELLS)
      • NEUROINFLAMMATION
      • NEUROPROTECTIVE AGENTS
      • NMDA & ANXIETY & DEPRESSION
      • NMDA RECEPTOR AND FEAR
      • NON-OPIOID ANALGESICS (PLANT BASED)
      • NOOTROPICS
      • NRF2: MASTER REGULATOR OF THE AGING PROCESS
      • NF-KB
      • ONCOGENE ACTIVATION INDUCED SENESCENCE
      • OXIDATIVE STRESS & AGING
      • P16INK4A
      • P38MAPK
      • P53: TUMOR SUPRESSOR
      • PHYTOSTEROLS
      • PHYTOSTANOLS
      • PHYTOECDYSTEROIDS
      • PROANTHOCYANIDINS
      • POLYAMINES & THEIR EFFECT ON BRAIN (NMDA, DEPRESSION, SUICIDE RISK)
      • PPARY2
      • PREMATURE SENESCENCE
      • PREVENTING SKIN AGING
      • PURGATIVES
      • RAPAMYCIN (MTOR INHIBITION)
      • RENAL (KIDNEY) PROTECTIVE AGENTS
      • RESTORE INSULIN SENSITIVITY
      • SASP & ADIPOSE TISSUE
      • SENESCENT CELLS, SASP & SENOLYTICS
      • SENESCENCE-BETA-GALACTOSIDASE (SA-β-gal or SABG)
      • SGLT2 INHIBITORS
      • SKELETAL MUSCLE HYPERTROPHY (THE SCIENCE OF BUILDING MUSCLE)
      • SKIN ELASTICITY
      • SKIN PHOTOAGING (Preventing & Repairing)
      • SIRT1 & LONGEVITY
      • SUGAR & AGING
      • STAT3
      • TELOMERE SHORTENING & PREMATURE AGING
      • TRAUMATIC BRAIN INJURY (HEALING)
    • HOME
    • CONTACT
    • INTERSTELLAR 88/8: EXTREME WEIGHTLOSS PROTOCOL
    • The Ultimate Dry Fasting Resource
    0
    NEUROGENESIS (GROWING NEW BRAIN CELLS)
    March 31, 2021
    MUSCLE ATROPHY (PREVENTING)
    April 13, 2021
    1. FGF-7 (keratinocyte growth factor) expression during mouse development suggests roles in Myogenesis, forebrain regionalisation and epithelial-mesenchymal …
    2. Fgf-4 expression during gastrulation, Myogenesis, limb and tooth development in the mouse
    3. AmphiPax3/7, an amphioxus paired box gene: insights into chordate Myogenesis, neurogenesis, and the possible evolutionary precursor of definitive vertebrate …
    4. The MyoD family and Myogenesis: redundancy, networks, and thresholds
    5. Myogenin, a factor regulating Myogenesis, has a domain homologous to MyoD
    6. Immunochemical analysis of myosin heavy chain during avian Myogenesis in vivo and in vitro.
    7. Myogenin expression, cell cycle withdrawal, and phenotypic differentiation are temporally separable events that precede cell fusion upon Myogenesis.
    8. Redefining the genetic hierarchies controlling skeletal Myogenesis: Pax-3 and Myf-5 act upstream of MyoD
    9. Control of mouse cardiac morphogenesis and Myogenesis by transcription factor MEF2C
    10. The regulation of Notch signaling controls satellite cell activation and cell fate determination in postnatal Myogenesis
    11. Regulation of skeletal Myogenesis by association of the MEF2 transcription factor with class II histone deacetylases
    12. The molecular regulation of Myogenesis
    13. Growth hormone and the insulin-like growth factor system in Myogenesis
    14. A gene with homology to the myc similarity region of MyoD1 is expressed during Myogenesis and is sufficient to activate the muscle differentiation program.
    15. A role for bone morphogenetic proteins in the induction of cardiac Myogenesis.
    16. Modulation of Rho GTPase signaling regulates a switch between adipogenesis and Myogenesis
    17. The intracellular domain of mouse Notch: a constitutively activated repressor of Myogenesis directed at the basic helix-loop-helix region of MyoD
    18. Muscle LIM protein, a novel essential regulator of Myogenesis, promotes myogenic differentiation
    19. Differential activation of Myf5 and MyoD by different Wnts in explants of mouse paraxial mesoderm and the later activation of Myogenesis in the absence of Myf5
    20. Wnt signaling and the activation of Myogenesis in mammals
    21. Improved heart function with Myogenesis and angiogenesis after autologous porcine bone marrow stromal cell transplantation
    22. Temporal expression of regulatory and structural muscle proteins during Myogenesis of satellite cells on isolated adult rat fibers
    23. Roles for the integrin VLA-4 and its counter receptor VCAM-1 in Myogenesis
    24. DNA synthesis and Myogenesis
    25. Interrelations of the proliferation and differentiation processes during cardiac Myogenesis and regeneration
    26. HLH proteins, fly neurogenesis, and vertebrate Myogenesis
    27. Myogenin is required for late but not early aspects of Myogenesis during mouse development.
    28. Myostatin knockout in mice increases Myogenesis and decreases adipogenesis
    29. The MyoD family of transcription factors and skeletal Myogenesis
    30. Induction of avian cardiac Myogenesis by anterior endoderm
    31. Drosophila MEF2, a transcription factor that is essential for Myogenesis.
    32. Muscle cell differentiation of embryonic stem cells reflects Myogenesis in vivo: developmentally regulated expression of myogenic determination genes and functional …
    33. Looking back to the embryo: defining transcriptional networks in adult Myogenesis
    34. Fate of microtubule-organizing centers during Myogenesis in vitro.
    35. Stress-activated protein kinase-2/p38 and a rapamycin-sensitive pathway are required for C2C12 Myogenesis
    36. A Wnt-and β-catenin-dependent pathway for mammalian cardiac Myogenesis
    37. Myogenesis and postnatal skeletal muscle cell growth as influenced by selection
    38. Role of HuR in skeletal Myogenesis through coordinate regulation of muscle differentiation genes
    39. A novel, secreted form of human ADAM 12 (meltrin α) provokes Myogenesis in vivo
    40. Muscle LIM protein promotes Myogenesis by enhancing the activity of MyoD.
    41. Clonal analysis of Myogenesis
    42. Proliferation precedes differentiation in IGF-I-stimulated Myogenesis.
    43. Altered Myogenesis in Six1-deficient mice
    44. Delta-induced Notch signaling mediated by RBP-J inhibits MyoD expression and Myogenesis
    45. An activated Notch suppresses neurogenesis and Myogenesis but not gliogenesis in mammalian cells
    46. Identification of a BMP‐responsive element in Id1, the gene for inhibition of Myogenesis
    47. How is Myogenesis initiated in the embryo?
    48. Myogenesis: a view from Drosophila
    49. The mammalian target of rapamycin regulates C2C12 Myogenesis via a kinase-independent mechanism
    50. Myogenesis in the mouse embryo: differential onset of expression of myogenic proteins and the involvement of titin in myofibril assembly.
    51. Time course of changes in markers of Myogenesis in overloaded rat skeletal muscles
    52. A series of mutations in the D-MEF2 transcription factor reveal multiple functions in larval and adult Myogenesis in Drosophila
    53. Myostatin regulates cell survival during C2C12 Myogenesis
    54. Gene expression patterns of the fibroblast growth factors and their receptors during Myogenesis of rat satellite cells
    55. Two domains of MyoD mediate transcriptional activation of genes in repressive chromatin: a mechanism for lineage determination in Myogenesis.
    56. Disruption of the mouse MRF4 gene identifies multiple waves of Myogenesis in the myotome
    57. Regulation of avian cardiac Myogenesis by activin/TGFβ and bone morphogenetic proteins
    58. Delta 1-activated notch inhibits muscle differentiation without affecting Myf5 and Pax3 expression in chick limb Myogenesis
    59. Transcripts of alpha-cardiac and alpha-skeletal actins are early markers for Myogenesis in the mouse embryo
    60. The lipid phosphatase myotubularin is essential for skeletal muscle maintenance but not for Myogenesis in mice
    61. H36-alpha 7 is a novel integrin alpha chain that is developmentally regulated during skeletal Myogenesis.
    62. β-Catenin is essential and sufficient for skeletal Myogenesis in P19 cells
    63. Class I histone deacetylases sequentially interact with MyoD and pRb during skeletal Myogenesis
    64. Insulin-like growth factors require phosphatidylinositol 3-kinase to signal Myogenesis: dominant negative p85 expression blocks differentiation of L6E9 muscle cells
    65. Development regulation of the subcellular distribution and glycosylation of GLUT1 and GLUT4 glucose transporters during Myogenesis of L6 muscle cells.
    66. Myogenin and MEF2 function synergistically to activate the MRF4 promoter during Myogenesis.
    67. Insulin produces Myogenesis in C2C12 myoblasts by induction of NF‐κB and downregulation of AP‐1 activities
    68. IGF-II transcription in skeletal Myogenesis is controlled by mTOR and nutrients
    69. The effect of temperature on Myogenesis in embryonic development of the Atlantic salmon (Salmo salar L.)
    70. Phenotypic analysis of Meltrin α (ADAM12)-deficient mice: involvement of Meltrin α in adipogenesis and Myogenesis
    71. Deficiency in rhabdomyosarcomas of a factor required for MyoD activity and Myogenesis
    72. Differential role of p300 and CBP acetyltransferase during Myogenesis: p300 acts upstream of MyoD and Myf5
    73. Interaction of Trypanosoma cruzi with heart muscle cells: ultrastructural and cytochemical analysis of endocytic vacuole formation and effect upon Myogenesis in vitro
    74. A laminin substrate promotes Myogenesis in rat skeletal muscle cultures: analysis of replication and development using antidesmin and anti-BrdUrd monoclonal …
    75. Pax3 is essential for skeletal Myogenesis and the expression of Six1 and Eya2
    76. Hedgehog signalling is required for maintenance of myf5 and myoD expression and timely terminal differentiation in zebrafish adaxial Myogenesis
    77. The synthesis and distribution of desmin and vimentin during Myogenesis in vitro
    78. Impact of manipulations of Myogenesis in utero on the performance of adult skeletal muscle
    79. Intermediate filaments in cardiac Myogenesis: nestin in the developing mouse heart.
    80. Tumor necrosis factor-α inhibits Myogenesis through redox-dependent and-independent pathways
    81. Reparative Myogenesis in long‐term denervated skeletal muscles of adult rats results in a reduction of the satellite cell population
    82. MyoD is functionally linked to the silencing of a muscle-specific regulatory gene prior to skeletal Myogenesis
    83. Induction of cardiac Myogenesis in avian pregastrula epiblast: the role of the hypoblast and activin
    84. Transformation by activated ras or fos prevents Myogenesis by inhibiting expression of MyoD1
    85. A dominant-negative form of transcription factor MEF2 inhibits Myogenesis
    86. Developmental patterns in the expression of Myf5, MyoD, myogenin, and MRF4 during Myogenesis.
    87. Stretch-induced alternative splicing of serum response factor promotes bronchial Myogenesis and is defective in lung hypoplasia
    88. Delivery of FGF genes to wound repair cells enhances arteriogenesis and Myogenesis in skeletal muscle
    89. Stage-specific modulation of skeletal Myogenesis by inhibitors of nuclear deacetylases
    90. p53 regulates Myogenesis by triggering the differentiation activity of pRb
    91. Merosin and laminin in Myogenesis; specific requirement for merosin in myotube stability and survival.
    92. Tumor necrosis factor inhibits human Myogenesis in vitro.
    93. Distinct regulatory cascades for head and trunk Myogenesis
    94. Myogenesis: fusion, myosin synthesis, and the mitotic cycle.
    95. The transcriptional corepressor MITR is a signal-responsive inhibitor of Myogenesis
    96. The myogenic regulatory gene Mef2 is a direct target for transcriptional activation by Twist during Drosophila Myogenesis
    97. MyoD expression marks the onset of skeletal Myogenesis in Myf-5 mutant mice
    98. Myogenesis and the intermediate filament protein, nestin
    99. Altered primary Myogenesis in NFATC3−/− mice leads to decreased muscle size in the adult
    100. Gdf11 is a negative regulator of chondrogenesis and Myogenesis in the developing chick limb
    101. Drosophila Lame duck, a novel member of the Gli superfamily, acts as a key regulator of Myogenesis by controlling fusion-competent myoblast development
    102. Myogenesis in paraxial mesoderm: preferential induction by dorsal neural tube and by cells expressing Wnt-1
    103. zfh-1, the Drosophila homologue of ZEB, is a transcriptional repressor that regulates somatic Myogenesis
    104. Maturation of the regulation of GLUT4 activity by p38 MAPK during L6 cell Myogenesis
    105. Embryonic mesenchymal cells share the potential for smooth muscle differentiation: Myogenesis is controlled by the cell’s shape
    106. Critical activities of Rac1 and Cdc42Hs in skeletal Myogenesis: antagonistic effects of JNK and p38 pathways
    107. Plasmin activity is required for Myogenesis in vitro and skeletal muscle regeneration in vivo
    108. Targeted inactivation of myogenic factor genes reveals their role during mouse Myogenesis: a review.
    109. Coupling of the cell cycle and Myogenesis through the cyclin D1‐dependent interaction of MyoD with cdk4
    110. Early stages of Myogenesis in a large mammal: formation of successive generations of myotubes in sheep tibialis cranialis muscle
    111. inscuteable and numb mediate asymmetric muscle progenitor cell divisions duringDrosophila Myogenesis
    112. Diaphragm defects occur in a CDH hernia model independently of Myogenesis and lung formation
    113. The Golgi apparatus remains associated with microtubule organizing centers during Myogenesis.
    114. Activin-A and FGF-2 mimic the inductive effects of anterior endoderm on terminal cardiac Myogenesis in vitro
    115. Different splice variants of filamin-B affect Myogenesis, subcellular distribution, and determine binding to integrin β subunits
    116. TNF inhibits Myogenesis and downregulates the expression of myogenic regulatory factors myoD and myogenin.
    117. Embryonic stem cell differentiation models: cardiogenesis, Myogenesis, neurogenesis, epithelial and vascular smooth muscle cell differentiation in vitro
    118. Myogenesis and muscle patterning in Drosophila.
    119. Cyclin dependent kinase 5, cdk5, is a positive regulator of Myogenesis in mouse C2 cells
    120. … of the fibroblast KCaChannel FIK is a common mechanism for basic fibroblast growth factor and transforming growth factor-β suppression of Myogenesis
    121. Sox8 is a specific marker for muscle satellite cells and inhibits Myogenesis
    122. MyoD and the regulation of Myogenesis by helix-loop-helix proteins.
    123. Molecular and cellular mechanisms involved in the generation of fiber diversity during Myogenesis
    124. Regulated demethylation of themyoddistal enhancer during skeletal Myogenesis
    125. Myogenesis and histogenesis of skeletal muscle on flexible membranes in vitro
    126. TNFα inhibits skeletal Myogenesis through a PW1‐dependent pathway by recruitment of caspase pathways
    127. Myogenin can substitute for Myf5 in promoting Myogenesis but less efficiently
    128. Coexpression of α-sarcomeric actin, α-smooth muscle actin and desmin during Myogenesis in rat and mouse embryos I. Skeletal muscle
    129. Molecular control of Myogenesis: antagonism between growth and differentiation
    130. Comparative expression analysis of Pax3 and Pax7 during mouse Myogenesis
    131. Antisense inhibition of syndecan-3 expression during skeletal muscle differentiation accelerates Myogenesis through a basic fibroblast growth factor …
    132. IGF‐II is more active than IGF‐I in stimulating L6A1 Myogenesis: Greater mitogenic actions of IGF‐I delay differentiation
    133. The generation of fiber diversity during Myogenesis.
    134. Primary, secondary and tertiary myotubes in developing skeletal muscle: a new approach to the analysis of human Myogenesis
    135. Cytoskeletal control of Myogenesis: a desmin null mutation blocks the myogenic pathway during embryonic stem cell differentiation
    136. Novel isoforms of the fragile X related protein FXR1P are expressed during Myogenesis
    137. Critical proliferation-independent window for basic fibroblast growth factor repression of Myogenesis via the p42/p44 MAPK signaling pathway
    138. Spatiotemporal patterns of expression of NGF and the low-affinity NGF receptor in rat embryos suggest functional roles in tissue morphogenesis and Myogenesis
    139. Chiton Myogenesis: perspectives for the development and evolution of larval and adult muscle systems in molluscs
    140. IGFs, insulin, Shh, bFGF, and TGF-β1 interact synergistically to promote somite Myogenesis in vitro
    141. Muscle pattern diversification in Drosophila: the story of imaginal Myogenesis
    142. Mutagenesis of the myogenin basic region identifies an ancient protein motif critical for activation of Myogenesis.
    143. Soft-palate Myogenesis: a developmental field paradigm
    144. Myogenesis and developmental control genes
    145. Transplacental delivery of the Wnt antagonist Frzb1 inhibits development of caudal paraxial mesoderm and skeletal Myogenesis in mouse embryos
    146. Wiring diagrams: regulatory circuits and the control of skeletal Myogenesis
    147. Invertebrate Myogenesis: looking back to the future of muscle development
    148. The Expression and Regulation ofFollistatinand aFollistatin-likeGene during Avian Somite Compartmentalization and Myogenesis
    149. A role for the Ca2+-dependent adhesion molecule, N-cadherin, in myoblast interaction during Myogenesis
    150. Vitamin A inhibits chondrogenesis but not Myogenesis
    151. Enhanced myogenic differentiation by extracellular matrix is regulated at the early stages of Myogenesis
    152. Human desmin-coding gene: complete nucleotide sequence, characterization and regulation of expression during Myogenesis and development.
    153. Bcl-2 expression identifies an early stage of Myogenesis and promotes clonal expansion of muscle cells
    154. 5 Multiple Tissue Interactions and Signal Transduction Pathways Control Somite Myogenesis
    155. Ontogeny of airway smooth muscle: structure, innervation, Myogenesis and function in the fetal lung
    156. … RhoA activity maintains the undifferentiated mesenchymal cell phenotype, whereas RhoA down-regulation by laminin-2 induces smooth muscle Myogenesis
    157. Surface antigen differentiation during human Myogenesis in culture
    158. Inhibition of Myogenesis by multiple cyclin-Cdk complexes: coordinate regulation of Myogenesis and cell cycle activity at the level of E2F
    159. Changes in architecture of the Golgi complex and other subcellular organelles during Myogenesis.
    160. A model of Myogenesis in vivo, derived from detailed autoradiographic studies of regenerating skeletal muscle, challenges the concept of quantal mitosis
    161. Inhibition of Myogenesis by transforming growth factor β is density-dependent and related to the translocation of transcription factor MEF2 to the cytoplasm
    162. A kinetic analysis of Myogenesis in vitro
    163. Myogenesis in the trunk and leg during development of the tadpole of Xenopus laevis (Daudin 1802)
    164. zipper Nonmuscle myosin-II functions downstream of PS2 integrin in Drosophila Myogenesis and is necessary for myofibril formation
    165. Ultrastructural and electrophysiological correlates of cell coupling and cytoplasmic fusion during Myogenesis in vitro
    166. Redistribution of intermediate filament subunits during skeletal Myogenesis and maturation in vitro.
    167. A novel synaptobrevin/VAMP homologous protein (VAMP5) is increased during in vitro Myogenesis and present in the plasma membrane
    168. … epaxial enhancer is essential for the initial expression of the skeletal muscle determination gene Myf5 but not for subsequent, multiple phases of somitic Myogenesis
    169. Insulin stimulates Myogenesis in a rat myoblast line
    170. Temporal expression of growth factor genes during Myogenesis of satellite cells derived from the biceps femoris and pectoralis major muscles of the chicken
    171. MRF4 can substitute for myogenin during early stages of Myogenesis
    172. An analysis of Myogenesis by the use of fluorescent antimyosin
    173. Skeletal Myogenesis: The preferred pathway of chick embryo epiblast cellsin vitro
    174. Temperature and Myogenesis in embryos of the Atlantic herring Clupea harengus
    175. Homeotic genes and the regulation of myoblast migration, fusion, and fibre-specific gene expression during adult Myogenesis in Drosophila
    176. Involvement of gap junctional communication in Myogenesis
    177. Cell-to-cell communication and Myogenesis.
    178. Role of SHP-2 in fibroblast growth factor receptor-mediated suppression of Myogenesis in C2C12 myoblasts
    179. A reevaluation of the role of innervation in primary and secondary Myogenesis in developing chick muscle
    180. Notch and Ras signaling pathway effector genes expressed in fusion competent and founder cells during Drosophila Myogenesis
    181. Methylprednisolone increases dystrophin levels by inhibiting myotube death during Myogenesis of normal human muscle in vitro
    182. Compartmentalization of the somite and Myogenesis in chick embryos are influenced by wnt expression
    183. Neural tube and notochord promote in vitro Myogenesis in single somite explants
    184. Coupled Transcriptional and Translational Control of Cyclin-Dependent Kinase Inhibitor p18INK4cExpression during Myogenesis
    185. … orphan steroid receptor RVR/Rev-erbβ is dependent on the signature motif and helix 5 in the E region: functional evidence for a biological role of RVR in Myogenesis
    186. Intrinsic signals regulate the initial steps of Myogenesis in vertebrates
    187. cis-4-Hydroxy-L-proline and ethyl-3, 4-dihydroxybenzoate prevent Myogenesis of C2C12 muscle cells and block MyoD1 and myogenin expression
    188. Xenopus muscle development: From primary to secondary Myogenesis
    189. MyoD and achaete-scute: 4-5 amino acids distinguishes Myogenesis from neurogenesis.
    190. A role for the neural cell adhesion molecule, NCAM, in myoblast interaction during Myogenesis
    191. Transcriptional and posttranscriptional control of c-myc during Myogenesis: its mRNA remains inducible in differentiated cells and does not suppress the differentiated …
    192. Angiogenesis and Myogenesis as two facets of inflammatory post-ischemic tissue regeneration
    193. Differential control of tropomyosin mRNA levels during Myogenesis suggests the existence of an isoform competition-autoregulatory compensation control mechanism
    194. FGF receptor availability regulates skeletal Myogenesis
    195. Fibroblasts promote the formation of a continuous basal lamina during Myogenesis in vitro.
    196. Skeletal muscle neural cell adhesion molecule (N-CAM): changes in protein and mRNA species during Myogenesis of muscle cell lines.
    197. Differential patterns of transcript accumulation during human Myogenesis.
    198. Analysis of a key regulatory region upstream of the Myf5 gene reveals multiple phases of Myogenesis, orchestrated at each site by a combination of elements …
    199. Localization of nicotinic acetylcholine receptor alpha-subunit transcripts during Myogenesis and motor endplate development in the chick.
    200. Tetranectin is a novel marker for Myogenesis during embryonic development, muscle regeneration, and muscle cell differentiationin vitro
    201. Effect of a tumour promoter on Myogenesis
    202. Misexpression of Fgf-4 in the chick limb inhibits Myogenesis by down-regulating Frek expression
    203. Differentiation of sarcoplasmic reticulum during cardiac Myogenesis
    204. Differential expression of the IL-1 system components during in vitro Myogenesis: implication of IL-1β in induction of myogenic cell apoptosis
    205. Enhanced Myogenesis in NCAM-transfected mouse myoblasts
    206. A dual requirement for neurogenic genes in Drosophila Myogenesis
    207. Cell adhesion to collagen and decreased myogenic gene expression implicated in the control of Myogenesis by transforming growth factor beta.
    208. Temporal appearance of satellite cells during Myogenesis
    209. Prednisolone enhances Myogenesis and dystrophin‐related protein in skeletal muscle cell cultures from mdx mouse
    210. Presence and importance of connexin43 during Myogenesis
    211. Development of acetylcholine sensitivity during Myogenesis
    212. Hyaluronic acid bonded to cell culture surfaces inhibits the program of Myogenesis
    213. Coordinate regulation of cell cycle and apoptosis during Myogenesis
    214. Regulation of protein phosphatase 1 and 2A activities by insulin during Myogenesis in rat skeletal muscle cells in culture.
    215. An electron microscopic study of early developmental stages, Myogenesis, oogenesis and cnidogenesis in the anthomedusa, Podocoryne carnea M. Sars
    216. Skeletal Myogenesis on elastomeric substrates: implications for tissue engineering
    217. Inhibition of Myogenesis enables adipogenic trans‐differentiation in the C2C12 myogenic cell line
    218. 5-bromo-2′-deoxyuridine blocks Myogenesis by extinguishing expression of MyoD1
    219. Phenotypic plasticity of early Myogenesis and satellite cell numbers in Atlantic salmon spawning in upland and lowland tributaries of a river system
    220. Amplification of MDM2 inhibits MyoD-mediated Myogenesis.
    221. Expression of alpha 1 integrin, a laminin-collagen receptor, during Myogenesis and neurogenesis in the avian embryo
    222. Hypaxial muscle migration during primary Myogenesis in Xenopus laevis
    223. AN ANALYSIS OF Myogenesis IN VITRO USING FLUORESCEIN-LABELED ANTIMYOSIN
    224. Plasmin generation dependent on α-enolase-type plasminogen receptor is required for Myogenesis
    225. Sequential expression of chicken actin genes during Myogenesis.
    226. Activation of muscle genes without Myogenesis by ectopic expression of MyoD in frog embryo cells
    227. Cellular aggregation enhances MyoD-directed skeletal Myogenesis in embryonal carcinoma cells.
    228. eFGF and its mode of action in the community effect during Xenopus Myogenesis
    229. Induction of heparin-binding EGF-like growth factor expression during Myogenesis: activation of the gene by MyoD and localization of the transmembrane …
    230. M-cadherin localization in developing adult and regenerating mouse skeletal muscle: possible involvement in secondary Myogenesis
    231. The effect of mitotic inhibitors on Myogenesis in vitro
    232. Myogenesis and MyoD down-regulate Sp1: a mechanism for the repression of GLUT1 during muscle cell differentiation
    233. Gene switching in Myogenesis: differential expression of the chicken actin multigene family
    234. Expression of gap junctions in cultured rat L6 cells during Myogenesis
    235. Loss-of-function mutations reveal that the Drosophila nautilus gene is not essential for embryonic Myogenesis or viability
    236. Androgen-induced Myogenesis and chondrogenesis in the larynx of Xenopus laevis
    237. p27Kip1 is expressed transiently in developing myotomes and enhances Myogenesis.
    238. … , Lampetra japonica: A Possible Clue to Homologies between Agnathan and Gnathostome Muscles of the Mandibular Arch: (lamprey/engrailed/mandibular arch/Myogenesis …
    239. Secretion and transcriptional regulation of transforming growth factor-beta 3 during Myogenesis.
    240. Spontaneous and repetitive calcium transients in C2C12 mouse myotubes during in vitro Myogenesis
    241. The FGF Receptor–1 Tyrosine Kinase Domain Regulates Myogenesis but Is Not Sufficient to Stimulate Proliferation
    242. The muscle-specific enolase is an early marker of human Myogenesis
    243. Clonal analysis of vertebrate Myogenesis: VIII. Fibroblast growth factor (FGF)-dependent and FGF-independent muscle colony types during chick wing development
    244. The orphan nuclear receptor, COUP-TF II, inhibits Myogenesis by post-transcriptional regulation of MyoD function: COUP-TF II directly interacts with p300 and myoD
    245. Oxygen concentration regulates 5-azacytidine-induced Myogenesis in C3H/10T1/2 cultures
    246. Inhibition of p38 MAPK signaling promotes late stages of Myogenesis
    247. 5-Bromodeoxyuridine: effect on Myogenesis in vitro
    248. Skeletal Myogenesis: genetics and embryology to the fore
    249. Muscle LIM Proteins Are Associated with Muscle Sarcomeres and Require dMEF2 for Their Expression during DrosophilaMyogenesis
    250. Regulation of Myogenesis by fibroblast growth factors requires beta-gamma subunits of pertussis toxin-sensitive G proteins
    251. A muscle-specific variant of microtubule-associated protein 4 (MAP4) is required in Myogenesis
    252. GLUT1 glucose transporter gene transcription is repressed by Sp3. Evidence for a regulatory role of Sp3 during Myogenesis
    253. Calpains and Myogenesis
    254. Desmin/vimentin intermediate filaments are dispensable for many aspects of Myogenesis.
    255. Alteration in cell surface LETS protein during Myogenesis
    256. Cell elongation induces laminin α2 chain expression in mouse embryonic mesenchymal cells: role in visceral Myogenesis
    257. Monoclonal antibodies localize changes on myosin heavy chain isozymes during avian Myogenesis
    258. Control of acetylcholinesterase gene expression during Myogenesis
    259. Maternal treatment with somatotropin during early gestation affects basic events of Myogenesis in pigs
    260. Slow fiber cluster pattern in pig longissimus thoracis muscle: implications for Myogenesis
    261. Role of laminin polymerization at the epithelial mesenchymal interface in bronchial Myogenesis
    262. Clonal analysis of vertebrate Myogenesis: I. Early developmental events in the chick limb
    263. Loss of WT1 function leads to ectopic Myogenesis in Wilms’ tumour
    264. Regulation of murine cytochrome oxidase Vb gene expression in different tissues and during Myogenesis: role of a YY-1 factor-binding negative enhancer
    265. Faithful expression of the Myf-5 gene during mouse Myogenesis requires distant control regions: a transgene approach using yeast artificial chromosomes
    266. Induced Myogenesis in long-term permanent denervation: perspective role in Functional Electrical Stimulation of denervated legs in humans
    267. Embryonic signals for skeletal Myogenesis: arriving at the beginning
    268. Signaling through mitogen-activated protein kinase and Rac/Rho does not duplicate the effects of activated Ras on skeletal Myogenesis.
    269. An E box mediates activation and repression of the acetylcholine receptor delta-subunit gene during Myogenesis.
    270. Activation of Myogenesis by the homeobox gene Lbx1 requires cell proliferation
    271. Some distinctive features of zebrafish Myogenesis based on unexpected distributions of the muscle cytoskeletal proteins actin, myosin, desmin, α-actinin …
    272. Proliferative dynamics and the role of FGF2 during Myogenesis of rat satellite cells on isolated fibers
    273. Skeletal Myogenesis in the mouse esophagus does not occur through transdifferentiation
    274. Sequence and expression of amphioxus alkali myosin light chain (AmphiMLC-alk) throughout development: implications for vertebrate Myogenesis
    275. Expression of NCAM and its polysialylated isoforms during mdx mouse muscle regeneration and in vitro Myogenesis
    276. Muscle: the regulation of Myogenesis
    277. The formation of somites and early myotomal Myogenesis in Xenopus laevis, Bombina variegata and Pelobates fuscus
    278. Clonal analysis of vertebrate Myogenesis: IV. Medium-dependent classification of colony-forming cells
    279. Relationship of primary and secondary Myogenesis to fiber type development in embryonic chick muscle
    280. Patterns of abnormal Myogenesis in human cleft palates
    281. Myoblast diversity in skeletal Myogenesis: how much and to what end?
    282. Mox homeobox expression in muscle lineage of the gastropod Haliotis asinina: evidence for a conserved role in bilaterian Myogenesis
    283. Calcium regulation of skeletal Myogenesis. II. Extracellular and cell surface effects
    284. Initial steps of Myogenesis in somites are independent of influence from axial structures
    285. Antagonistic regulation of Myogenesis by two deubiquitinating enzymes, UBP45 and UBP69
    286. Two Myogenin-related Genes Are Differentially Expressed inXenopus laevis Myogenesis and Differ in Their Ability to Transactivate Muscle Structural Genes
    287. The MADS-Box factor CeMEF2 is not essential for Caenorhabditis elegans Myogenesis and development
    288. Transient expression of a winged-helix protein, MNF-beta, during Myogenesis.
    289. Myoglobin expression: early induction and subsequent modulation of myoglobin and myoglobin mRNA during Myogenesis.
    290. Pro‐and anti‐apoptotic members of the Bcl‐2 family in skeletal muscle: a distinct role for Bcl‐2 in later stages of Myogenesis
    291. Myogenesis in primary cell cultures from larvae of the abalone, Haliotis rufescens.
    292. Serum-induced inhibition of Myogenesis is differentially relieved by retinoic acid and triiodothyronine in C2 murine muscle cells
    293. A 40-base-pair sequence in the 3’end of the beta-actin gene regulates beta-actin mRNA transcription during Myogenesis
    294. Focal adhesion kinase tyrosine phosphorylation is associated with Myogenesis and modulated by insulin
    295. Differential expression and distribution of chicken skeletal-and smooth-muscle-type alpha-actinins during Myogenesis in culture.
    296. Activated Raf inhibits avian Myogenesis through a MAPK-dependent mechanism
    297. … the synthesis of skeletal muscle actin, myosin heavy chain, and myosin light chain and the accumulation of corresponding mRNA sequences during Myogenesis
    298. Fibronectin expression during Myogenesis.
    299. Characterization of an amphioxus Wnt gene, AmphiWnt11, with possible roles in Myogenesis and tail outgrowth
    300. Dissociated expression of c-myc and a fos-related competence gene during cardiac Myogenesis.
    301. A myotrophic protein from chick embryo extract: its purification, identity to transferrin, and indispensability for avian Myogenesis
    302. Myogenesis of avian striated muscle in vitro: role of collagen in myofiber formation
    303. Control of Myogenesis in the mouse myogenic C2 cell line by medium composition and by insulin: characterization of permissive and inducible C2 myoblasts
    304. Regulation of Myogenesis in paralyzed muscles in the mouse mutants peroneal muscular atrophy and muscular dysgenesis
    305. Manipulation of Myogenesis in vitro: reversible inhibition by DMSO
    306. Thymic Myogenesis, T‐lymphocytes and the pathogenesis of myasthenia gravis
    307. Myogenesis in adult mammalian skeletal muscle in vitro.
    308. Influence of PDGF-BB on proliferation and transition through the MyoD-myogenin-MEF2A expression program during Myogenesis in mouse C2 myoblasts
    309. Modulation of histone H3 variant synthesis during the myoblast-myotube transition of chicken Myogenesis
    310. Changes in the mRNA population of chick myoblasts during Myogenesis in vitro
    311. Voltage‐dependent K+ channel β subunits in muscle: Differential regulation during postnatal development and Myogenesis
    312. Opposing effects of interferon produced in bacteria and of tumor promoters on Myogenesis in human myoblast cultures
    313. Expression of myogenic regulatory factors during muscle development of Xenopus: Myogenin mRNA accumulation is limited strictly to secondary Myogenesis
    314. Location of myostatin expression during bovine Myogenesis in vivo and in vitro
    315. Inhibition of urokinase-type plasminogen activator (uPA) abrogates Myogenesis in vitro
    316. Cloning and developmental expression of Nsk2, a novel receptor tyrosine kinase implicated in skeletal Myogenesis.
    317. Clonal analysis of vertebrate Myogenesis: II. Environmental influences upon human muscle differentiation
    318. Spatiotemporal distribution of heparan sulfate epitopes during Myogenesis and synaptogenesis: a study in developing mouse intercostal muscle
    319. Dystrophy and Myogenesis in mdx diaphragm muscle
    320. Short-term culture of ovine embryos modifies fetal Myogenesis
    321. Molecular aspects of Myogenesis
    322. Muscle determination: another key player in Myogenesis?
    323. Helix-loop-helix transcription factors E12 and E47 are not essential for skeletal or cardiac Myogenesis, erythropoiesis, chondrogenesis, or neurogenesis
    324. Proteasome and Myogenesis
    325. Calcium regulation of skeletal Myogenesis. I. Cell content critical to myotube formation
    326. Changes in protein synthesis during Myogenesis in a clonal cell line
    327. Comparative analysis of the expression patterns of Wnts and Frizzleds during early Myogenesis in chick embryos
    328. Ras p21Val inhibits Myogenesis without altering the DNA binding or transcriptional activities of the myogenic basic helix-loop-helix factors.
    329. Developmental regulation of intermediate filament and actin mRNAs during Myogenesis is disrupted by oncogenic ras genes.
    330. Identification of a regulatory function for an orphan receptor in muscle: COUP-TF II affects the expression of the myoD gene family during Myogenesis
    331. Ex-FABP: a fatty acid binding lipocalin developmentally regulated in chicken endochondral bone formation and Myogenesis
    332. Retinoic acid receptors and muscle b-HLH proteins: partners in retinoid-induced Myogenesis
    333. Heterogeneous nuclear ribonucleoprotein-H plays a suppressive role in visceral Myogenesis
    334. PKC-regulated Myogenesis is associated with increased tyrosine phosphorylation of FAK, Cas, and paxillin, formation of Cas-CRK complex, and JNK activation
    335. Multinucleation during Myogenesis of the myotome of Xenopus laevis: a qualitative study
    336. Contact-mediated Myogenesis and increased acetylcholinesterase activity in primary cultures of mouse teratocarcinoma cells
    337. Dependence of in vitro Myogenesis on a trophic protein present in chicken embryo extract
    338. Regulation of class I MHC expression in skeletal muscle: deleterious effect of aberrant expression on Myogenesis
    339. Are fibroblast growth factors regulators of Myogenesis in vivo?
    340. Mitochondrial proliferation during Myogenesis
    341. Polysialylated NCAM expression during motor axon outgrowth and Myogenesis in the fetal rat
    342. Spatial relationship of nebulin relative to other myofibrillar proteins during Myogenesis in embryonic chick skeletal muscle cells in vitro
    343. RA regulation of keratin expression and Myogenesis suggests different ways of regenerating muscle in adult amphibian limbs
    344. A role for RalGDS and a novel Ras effector in the Ras-mediated inhibition of skeletal Myogenesis
    345. Expression and synthesis of high mobility group chromosomal proteins in different rat skeletal cell lines during Myogenesis.
    346. Clonal analysis of vertebrate Myogenesis: III. Developmental changes in the muscle-colony-forming cells of the human fetal limb
    347. E2F1 and p53 are dispensable, whereas p21Waf1/Cip1 cooperates with Rb to restrict endoreduplication and apoptosis during skeletal Myogenesis
    348. Selected topics in skeletal Myogenesis
    349. The ultrastructure of normal Myogenesis in the limb of the mouse
    350. Skeletal muscle cell-derived insulin-like growth factor (IGF) binding proteins inhibit IGF-I-induced Myogenesis in rat L6E9 cells
    351. MyoD and Myogenesis in C. elegans
    352. Inhibition of retinoblastoma protein phosphorylation by Myogenesis-induced changes in the subunit composition of the cyclin-dependent kinase 4 complex.
    353. Muscle basic helix-loop-helix proteins and the regulation of Myogenesis
    354. Translation of c-myc mRNA is required for its post-transcriptional regulation during Myogenesis.
    355. Post-transcriptional regulation of Xwnt-8 expression is required for normal Myogenesis during vertebrate embryonic development
    356. Identification of a core functional and structural domain of the v-Ski oncoprotein responsible for both transformation and Myogenesis
    357. 5 Molecular Embryology of Skeletal Myogenesis
    358. Therapeutic cardiac angiogenesis and Myogenesis: the promises and challenges on a new frontier
    359. Knock-in of integrin β1D affects primary but not secondary Myogenesis in mice
    360. … 1 expression during embryogenesis: Correlation with events of epithelial differentiation, mesenchymal‐epithelial interactions, absorption, and Myogenesis
    361. Differential regulation of urokinase-type plasminogen activator expression by basic fibroblast growth factor and serum in Myogenesis: requirement of a …
    362. E1A-mediated inhibition of Myogenesis correlates with a direct physical interaction of E1A12S and basic helix-loop-helix proteins.
    363. Detection of myosin heavy chain mRNA during Myogenesis in tissue culture by in vitro and in situ hybridization
    364. … of Glycosylphosphatidylinositol (GPI)-Anchored Ncam on Mouse Skeletal-Muscle Cell-Line C2C12: The Structure of the GPI Glycan and Release During Myogenesis
    365. Secondary Myogenesis of normal muscle produces abnormal myotubes
    366. Growth and differentiation during Myogenesis in the chick embryo
    367. Sodium butyrate inhibits Myogenesis by interfering with the transcriptional activation function of MyoD and myogenin.
    368. THE EFFECT OF COLCHICINE ON Myogenesis IN VIVO IN RANA PIPIENS AND RHODNIUS PROLIXUS (HEMIPTERA)
    369. AVP induces Myogenesis through the transcriptional activation of the myocyte enhancer factor 2
    370. Myogenesis in primary cell cultures from Drosophila melanogaster: protein synthesis and actin heterogeneity during development
    371. Myotube morphology, and expression and distribution of collagen type I during normal and low score normal avian satellite cell Myogenesis
    372. Morphological study of the ureterocele: a possible clue to its embryogenesis as evidenced by a locally arrested Myogenesis
    373. 2 Drosophila Myogenesis and insights into the Role of nautilus
    374. The nitrendipine-sensitive Ca2+ channel in chick muscle cells and its appearance during Myogenesis in vitro and in vivo.
    375. Regulation of muscle gene expression: the accumulation of messenger RNAs coding for muscle-specific proteins during Myogenesis in a mouse cell line
    376. Intracellular calcium transients induced by different kinds of stimulus during Myogenesis of rat skeletal muscle cells studied by laser cytofluorimetry with Indo-1
    377. Hormonal requirements for Myogenesis of striated muscle in vitro: insulin and somatotropin
    378. Fibroblast-growth-factor-induced additional limbs in the study of initiation of limb formation, limb identity, Myogenesis, and innervation
    379. SHP-2 complex formation with the SHP-2 substrate-1 during C2C12 Myogenesis
    380. Synthesis of heat-shock proteins by cells undergoing Myogenesis.
    381. An ultrastructural study of early Myogenesis in the chick wing bud
    382. Analysis of corkscrew signaling in the Drosophila epidermal growth factor receptor pathway during Myogenesis
    383. An in vitro study of normal and mutant Myogenesis in the mouse
    384. Myogenesis in the chicken: the onset of differentiation of adult myoblasts is influenced by tissue factors
    385. Autoradiographic study of the incorporation of uridine-3H during Myogenesis in tissue culture
    386. α5 integrin is a critical component of adhesion plaques in Myogenesis
    387. Occurrence of centrioles during skeletal and cardiac Myogenesis
    388. Steady-state transcript levels of cytochrome c oxidase genes during human Myogenesis indicate subunit switching of subunit VIa and co-expression of subunit VIIa …
    389. Expression of three stage-specific transcripts of AMP deaminase during Myogenesis.
    390. Vertebrate Myogenesis
    391. Misexpression ofnautilusInduces Myogenesis in Cardioblasts and Alters the Pattern of Somatic Muscle Fibers
    392. Chemotaxis in Myogenesis
    393. Upstream regions of the hamster desmin and vimentin genes regulate expression during in vitro Myogenesis.
    394. Induction of chick cardiac Myogenesis by bone morphogenetic proteins
    395. Activation and repression of Myogenesis in somatic cell hybrids: evidence for trans-negative regulation of MyoD in primary fibroblasts
    396. DNAase I sensitivity of genes expressed during Myogenesis
    397. Proto-oncogenes in the regulatory circuit for Myogenesis
    398. Expression of myosin heavy chain isoforms and Myogenesis of intrafusal fibres in rat muscle spindles
    399. In vitro Myogenesis: expression of muscle specific function in the absence of cell fusion
    400. Proliferating satellite cells express acidic fibroblast growth factor duringin vitro Myogenesis
    401. Differential effects of Ras signaling through NFκB on skeletal Myogenesis
    402. Functional specificity of the two retinoic acid receptor RAR and RXR families in Myogenesis
    403. X-linked recessive myotubular myopathy: II. Muscle morphology and human Myogenesis
    404. DNA synthesis, mitosis, and differentiation in cardiac Myogenesis
    405. Interruption of Myogenesis by transforming growth factor β1 or EGTA inhibits expression and activity of the myogenic-associated (2′-5′) oligoadenylate synthetase …
    406. Satellite cells and Myogenesis; a study in the fruit-bat web.
    407. Involvement of the θ-type protein kinase C in translocation of myristoylated alanine-rich C kinase substrate (MARCKS) during Myogenesis of chick embryonic …
    408. Insulin‐like growth factors, hepatocyte growth factor and transforming growth factor‐α in mouse tongue Myogenesis
    409. Involvement of PKR in the regulation of Myogenesis
    410. Analysis of Dystrophin Expression after Activation of Myogenesis in Amniocytes, Chorionic-Villus Cells, and Fibroblasts–A New Method for Diagnosing …
    411. The effect of cell density, conditioned medium and cytosine arabinoside on Myogenesis in primary and secondary cultures
    412. Progressive predominance of ‘skeletal’versus ‘cardiac’types of excitation-contraction coupling during in vitro skeletal Myogenesis
    413. Thiodigalactoside binding lectin and skeletal Myogenesis
    414. Differentiation of creatine phosphokinase during Myogenesis: quantitative fractionation of isozymes
    415. Endothelial cell activation during angiogenesis in freely transplanted skeletal muscles in mice and its relationship to the onset of Myogenesis.
    416. Myogenesis: a cell lineage interpretation
    417. Positive regulation of skeletal Myogenesis by R-Ras
    418. Adhesion molecules and skeletal Myogenesis
    419. Altered secondary Myogenesis in transgenic animals expressing the neural cell adhesion molecule under the control of a skeletal muscle alpha-actin promoter.
    420. Expression of major histocompatibility complex class I antigens in rat muscle cultures: the possible developmental role in Myogenesis
    421. Identification of Myogenesis‐dependent transcriptional enhancers in promoter region of mouse γ‐sarcoglycan gene
    422. Thrombin causes a marked delay in skeletal Myogenesis that correlates with the delayed expression of myogenin and p21CIP1/WAF1
    423. Changes in the proportion and number of Pax (7+ ve) and MF20 (+ ve) myoblasts during chick Myogenesis in the head and limb.
    424. The independence of Myogenesis and chondrogenesis in micromass cultures of chick wing buds
    425. Cell-cell interaction modulates myoD-induced skeletal Myogenesis of pluripotent P19 cells in vitro
    426. Extracellular matrix (ECM) synthesis in muscle cell cultures: quantitative and qualitative studies during Myogenesis
    427. Immunohistochemical examination of Myogenesis and expression pattern of myogenic regulatory proteins (myogenin and myf-3) in pigs
    428. Switching of filamin polypeptides during Myogenesis in vitro.
    429. Differential regulation of exonic regulatory elements for muscle-specific alternative splicing during Myogenesis and cardiogenesis
    430. Calpain and Myogenesis: development of a convenient cell culture model
    431. Inhibition of Myogenesis by the H-ras oncogene: implication of a role for protein kinase C.
    432. The MurineBin1Gene Functions Early in Myogenesis and Defines a New Region of Synteny between Mouse Chromosome 18 and Human Chromosome 2
    433. α-methylprednisolone promotes skeletal Myogenesis in dystrophin-deficient and control mouse cultures
    434. Switching of subunit composition of muscle spectrin during Myogenesis in vitro
    435. … affinity tetrodotoxin binding sites in the mammalian skeletal muscle cell. Difference in functional properties and sequential appearance during rat skeletal Myogenesis.
    436. Glycosphingolipid biosynthesis during Myogenesis of rat L6 cells in vitro
    437. Comparison of the effects of heat shock and metal-ion stress on gene expression in cells undergoing Myogenesis
    438. The accumulation of basement membrane components during the onset of chondrogenesis and Myogenesis in the chick wing bud
    439. Inhibition of Myogenesis in a rat myoblast line by 5-bromodeoxyuridine
    440. Retinoblastoma antioncogene is involved in the inhibition of Myogenesis by polyomavirus large T antigen
    441. Regulation of contractile protein gene family mRNA pool sizes during Myogenesis
    442. Hormonal control of ventral diaphragm Myogenesis during metamorphosis of the moth, Manduca sexta
    443. MyoD: a regulatory gene of skeletal Myogenesis
    444. Clonal analysis of vertebrate Myogenesis: VII. Heritability of muscle colony type through sequential subclonal passages in vitro
    445. TGF‐alpha, EGF, and their cognate EGF receptor are co‐expressed with desmin during embryonic, fetal, and neonatal Myogenesis in mouse tongue development
    446. Differentiation-dependent regulation of skeletal Myogenesis by neuregulin-1
    447. Filamin isogene expression during mouse Myogenesis
    448. Myogenesis in cultures of uniparental mouse embryonic stem cells: differing patterns of expression of myogenic regulatory factors.
    449. mRNA levels of cathepsins B and D during Myogenesis.
    450. Expression of NCAM isoforms during skeletal Myogenesis in the mouse embryo
    451. Differential targeting of vesicular stomatitis virus G protein and influenza virus hemagglutinin appears during Myogenesis of L6 muscle cells
    452. Fine structure of Myogenesis and elastogenesis in the developing rat lung
    453. Alterations in surface proteins during Myogenesis of a rat myoblast cell line
    454. Differential expression of the Ca2+-binding protein parvalbumin during Myogenesis in Xenopus laevis
    455. Inhibition of protein phosphatases blocks Myogenesis by first altering MyoD binding activity.
    456. Ultrastructural studies of lizard (Anolis carolinensis) Myogenesis in vitro
    457. Identification of intracellular signaling pathways that induce myotonic dystrophy protein kinase expression during Myogenesis
    458. Activation of the gene encoding the glycolytic enzyme β-enolase during early Myogenesis precedes an increased expression during fetal muscle development
    459. Analysis of chick somite Myogenesis by in situ confocal microscopy of desmin expression.
    460. Control of Myogenesis in vitro by chick embryo extract
    461. Specific changes in cellular glycoproteins and surface proteins during Myogenesis in clonal muscle cells
    462. Inhibition of cellular differentiation by phospholipase C: I. Effects of the enzyme on Myogenesis and chondrogenesis in vitro
    463. Spatial analysis of limb bud Myogenesis: a proximodistal gradient of muscle colony-forming cells in chick embryo leg buds
    464. Characterization of a zebrafish (Danio rerio) desmin cDNA: an early molecular marker of Myogenesis
    465. Down-regulation of vimentin gene expression during Myogenesis is controlled by a 5′-flanking sequence
    466. Contact-mediated reversible suppression of Myogenesis
    467. Splicing of two alternative exon pairs in beta-tropomyosin pre-mRNA is independently controlled during Myogenesis.
    468. Phosphocholine and phosphoethanolamine during chick embryo Myogenesis: a 31P-NMR study
    469. Characterization of Myogenesis from adult satellite cells cultured in vitro.
    470. Molecular cloning and expression during Myogenesis of sequences coding for M-creatine kinase
    471. Drosophilia Myogenesis in vitro: the genesis of “small” myocytes and myotubes
    472. Repression of XMyoD expression and Myogenesis by Xhairy-1 in Xenopus early embryo
    473. Inhibition of Myogenesis by okadaic acid, an inhibitor of protein phosphatases, 1 and 2A, correlates with the induction of AP1.
    474. Involvement of a cell surface protein and an ecto-protein kinase in Myogenesis
    475. Effect of quercetin and DMSO on skeletal Myogenesis from C2C12 skeletal muscle cells with special reference to PKB/Akt activity, myogenin and Bcl-2 …
    476. Heat‐shock protein 90 and ubiquitin: Developmental regulation during Myogenesis
    477. In vitro Myogenesis of promuscle cells from the regenerating tail of the lizard, Anolis carolinensis,
    478. Myosin messenger RNA: Studies on its purification, properties and translation during Myogenesis in culture
    479. Occurrence of heterogenous forms of the subunits of creatine kinase in various muscle and nonmuscle tissues and their behaviour during Myogenesis
    480. Stimulating effects of prednisolone on acetylcholine receptor expression and Myogenesis in primary culture of newborn rat muscle cells
    481. Regulation of protein kinase and its regulatory subunits during skeletal Myogenesis.
    482. Myogenesis
    483. Alterations in iodinated cell surface proteins during Myogenesis
    484. Developmental regulation of Mac25/insulin-like growth factor-binding protein-7 expression in skeletal Myogenesis
    485. Levels of type I cAMP-dependent protein kinase regulatory subunit are regulated by changes in turnover rate during skeletal Myogenesis.
    486. Activation of the interferon system during Myogenesis in vitro
    487. Effects of triploidy on rainbow trout Myogenesis in vitro
    488. Differential effects of physiological concentrations of retinoic acid in vitro on chondrogenesis and Myogenesis in chick craniofacial mesenchyme
    489. Myogenesis: a problem of cell distribution and cell interactions
    490. Cell division and differentiation in avian embryos: techniques for study of early neurogenesis and Myogenesis
    491. Na, K-ATPase expression in C 2 C 12 cells during Myogenesis: Minimal contribution of α2 Isoform to Na, K transport
    492. Dihydropyridine receptor gene expression is regulated by inhibitors of Myogenesis and is relatively insensitive to denervation.
    493. Lazaroids enhance skeletal Myogenesis in primary cultures of dystrophin-deficient mdx mice
    494. Activated Raf inhibits Myogenesis through a mechanism independent of activator protein 1-mediated myoblast transformation
    495. Synthesis and ubiquitination of histones during Myogenesis
    496. Developmental changes in gangliosides during Myogenesis of a rat myoblast cell line and its drug resistant variants
    497. Expression of differentiative traits in the absence of cell fusion during Myogenesis in culture
    498. Expression of myogenic factors in the mouse: myf-5, the first member of the MyoD gene family to be transcribed during skeletal Myogenesis.
    499. Accumulation of muscle-specific RNA sequences during Myogenesis
    500. Decisions, decisions… SRF coactivators and smooth muscle Myogenesis
    501. Myotomal Myogenesis inBombina variegata L.
    502. The disappearance of a cyclin-like protein and the appearance of statin is correlated with the onset of differentiation during Myogenesis in vitro
    503. TBP-interacting protein 120B, which is induced in relation to Myogenesis, binds to NOT3
    504. Biosynthesis of laminin and fibronectin by rat satellite cells during Myogenesis in vitro
    505. Vimentin gene expression during Myogenesis: two functional transcripts from a single copy gene
    506. Biosynthesis of plasma-membrane proteins during Myogenesis of skeletal muscle in vitro
    507. An interferon regulatory factor‐like binding element restricts Xmyf‐5 expression in the posterior somites during Xenopus Myogenesis
    508. Isoenzymes of creatine phosphokinase during Myogenesis in vitro
    509. Delayed Myogenesis associated with muscle fiber hyperplasia in high-growth mice
    510. β‐and γ‐actin genes differ in their mechanisms of down‐regulation during Myogenesis
    511. Studies on Myogenesis in vitro: Changes of Creatine Kinase, Phosphorylase and Phosphofructokinase Isozymes
    512. Splicing of 5′ introns dictates alternative splice selection of acetylcholinesterase pre-mRNA and specific expression during Myogenesis
    513. Differential expression of troponin C genes during tongue Myogenesis
    514. Plasminogen activators and their inhibitors in the neuromuscular system: II. Serpins and serpin: protease complex receptors increase during in vitro Myogenesis
    515. Cytoskeletal and cellular adhesion proteins in zebrafish (Danio rerio) Myogenesis
    516. Developmental changes in sulphation of chondroitin sulphate proteoglycan during Myogenesis of human muscle cultures
    517. Indispensability of Iron‐bound Chick Transferrin for Chick Myogenesis in Vitro (Myogenesis/transfrrin/iron)
    518. Skeletal Myogenesis: control of proliferation in a normal cell lineage
    519. Sub-cellular distribution of the cytoplasmic myosin heavy chain mRNA during Myogenesis
    520. Suppression of Myogenesis by heterotypic and heterospecific cells in monolayer cultures
    521. Prostaglandin dependence of membrane order changes during Myogenesis in vitro
    522. Cardiac Myogenesis: overexpression of XCsx2 or XMEF2A in whole Xenopus embryos induces the precocious expression of XMHCα gene
    523. Ontogeny of insulin binding during chick skeletal Myogenesis in vitro
    524. A family of muscle gene promoter element (CArG) binding activities in Xenopus embryos: CArG/SRE discrimination and distribution during Myogenesis
    525. A dynamic requirement for community interactions during Xenopus Myogenesis.
    526. Increased expression of the LAZ3 (BCL6) proto-oncogene accompanies murine skeletal Myogenesis
    527. Inhibition of myogenin expression by activated Raf is not responsible for the block to avian Myogenesis
    528. The onset of Myogenesis in denervated mouse skeletal muscle regenerating after injury
    529. Reorganization of membrane cholesterol during membrane fusion in Myogenesis in vitro: a study using the filipin-cholesterol complex
    530. Mitochondrial development during Myogenesis
    531. P19 embryonal carcinoma cells: a model system for studying neural tube induction of skeletal Myogenesis
    532. Indispensability of Iron for the Growth of Cultured Chick Cells: (iron/transition metal/transferrin/chick embryonic cell/Myogenesis)
    533. Multiple cellular processes regulate expression of slow myosin heavy chain isoforms during avian Myogenesis in vitro
    534. Quantification of Myosin Heavy‐Chain mRNA during Myogenesis
    535. Myotube driven myogenic recruitment of cells during in vitro Myogenesis
    536. POU homeodomain genes and Myogenesis
    537. THE ROLE OF CALCIUM ION IN AVIAN Myogenesis IN VITRO
    538. Distribution and activity of endogenous lectin during Myogenesis as measured with antilectin antibody
    539. Changes in intermediate-sized filaments during Myogenesis and neurogenesis
    540. … in two mammalian species, Galea musteloides (Rodentia, Caviidae) and Tupaia belangeri (Scandentia, Tupaiidae), with comments on postnatal Myogenesis
    541. Myogenesis on microcarrier cultures
    542. Direct relationship between the expression of tumor suppressor H19 mRNA and c-mos proto-oncogene during Myogenesis.
    543. Multiple effects of interferon on Myogenesis in chicken myoblast cultures
    544. Transactivation of capn2 by myogenic regulatory factors during Myogenesis
    545. Muscle development: a transcriptional pathway in Myogenesis
    546. Dihydropyridine [methyl‐3H]PN 200–110 Binding and Myogenesis in Intact Muscle Cells In Vitro
    547. The role of cellular oncogenes in Myogenesis and muscle cell hypertrophy
    548. Activation of the gene for type-b natriuretic factor in mouse stem cell cultures induced for cardiac Myogenesis
    549. Transforming growth factor alpha up‐regulates desmin expression during embryonic mouse tongue Myogenesis
    550. The regulator role of thyroid hormones in Myogenesis. Analysis of isoforms of myosin in muscular regeneration
    551. Inhibition of FasL sustains phagocytic cells and delays Myogenesis in regenerating muscle fibers
    552. Posttranslational control of membrane-skeleton (ankyrin and alpha beta-spectrin) assembly in early Myogenesis.
    553. The intraclonal and interclonal phenotypic heterogeneity in a rhabdomyosarcoma cell line with abortive imitation of embryonic Myogenesis
    554. Accumulation of creatine kinase mRNA during Myogenesis: Molecular cloning of a B-creatine kinase cDNA
    555. Induction of Myogenesis in mesenchymal cells by MyoD depends on their degree of differentiation
    556. Studies on lectin activity during Myogenesis
    557. Rat myoblast fusion: morphological study of membrane apposition, fusion, and fission during controlled Myogenesis in vitro
    558. CAIII a marker for early Myogenesis: analysis of expression in cultured myogenic cells
    559. Changes in the H-1 histone complement during Myogenesis. I. Establishment by differential coupling of H-1 species synthesis to DNA replication.
    560. … activators and their inhibitors in the neuromuscular system: I. Developmental regulation of plasminogen activator isoforms during in vitro Myogenesis in two cell lines
    561. Down-regulation of platelet-derived growth factor receptor signaling during Myogenesis
    562. Functional expression of the L-type calcium channel in mice skeletal muscle during prenatal Myogenesis
    563. Myogenesis of striated muscle in vitro: Hormone and serum requirements for the development of glycogen synthetase in myotubes
    564. A 5-bromodeoxyuridine-sensitive interval during drosophila Myogenesis
    565. Expression and turnover of acylphosphatase (muscular isoenzyme) in L6 myoblasts during Myogenesis
    566. The contribution of embryo extract to Myogenesis of avian striated muscle in vitro
    567. Modulation of differentiation in vitro. II. Influence of cell spreading and surface events on Myogenesis
    568. Studies on the molecular biology of Myogenesis
    569. Myogenesis in chick embryo somites in vitro
    570. Effects of divalent cations on M‐cadherin expression and distribution during primary rat Myogenesis in vitro
    571. Myogenesis in vitro as demonstrated by immunofluorescent staining with antimuscle serum
    572. Alterations in glycosylation of plasma membrane proteins during Myogenesis
    573. Effects of complex extracellular matrices on 5-azacytidine-induced Myogenesis
    574. Specificity of chicken and mammalian transferrins in Myogenesis
    575. Characterization of a dominant inhibitory E47 protein that suppresses C2C12 Myogenesis
    576. Inhibition of chicken Myogenesis invitro by partially purified interferon
    577. Transforming growth factor‐beta isoform expression in insulin‐like growth factor stimulated Myogenesis
    578. Satellite cell Myogenesis is highly stimulated by the kinase inhibitor iso-H7: comparison with HA1004 and staurosporine effects
    579. Proteoglycan synthesis by clonal skeletal muscle cells during in vitro Myogenesis: Differences detected in the types and patterns from primary cultures
    580. Molecular cloning of CSF-1 receptor from rat myoblasts. Sequence analysis and regulation during Myogenesis
    581. Regenerative Myogenesis of the leg muscles during experimental lengthening
    582. Biphasic pattern of gelsolin expression and variations in gelsolin-actin interactions during Myogenesis
    583. α5 integrin subunit expression changes during Myogenesis
    584. Autocrine, paracrine, and endocrine regulation of Myogenesis
    585. Clonal analysis of vertebrate Myogenesis: VI. Acetylcholinesterase and acetylcholine receptor in myogenic and nonmyogenic clones from chick embryo leg cells
    586. Transcriptional diversity in Myogenesis
    587. Barrier inhibition of a temporal neuraxial influence on early chick somitic Myogenesis
    588. Modulation of expression and cell surface distribution of N-CAM during Myogenesis in vitro
    589. Identification of the Ca2+-release activity and ryanodine receptor in sarcoplasmic-reticulum membranes during cardiac Myogenesis
    590. Myogenesis in thymic transplants in the severe combined immunodeficient mouse model of myasthenia gravis. Differentiation of thymic myoid cells into striated muscle …
    591. Developmental and muscle-specific changes in methylation of the myosin light chain LC1f and LC3f promoters during avian Myogenesis
    592. A genetic approach to the study of neurogenesis and Myogenesis
    593. The tissue-specific RNA-binding protein COLBP is differentially regulated during Myogenesis
    594. Alternative promoter usage by aldolase A during in vitro Myogenesis
    595. Influence of external diffusible factors on Myogenesis of the cells of the line L6
    596. A possible physico-chemical mechanism of cell fusion in skeletal muscle Myogenesis by means of intercellular pinocytosis
    597. Differential expression of nuclear genes for cytochrome c oxidase during Myogenesis
    598. STUDIES IN THE DYNAMICS OF HISTOGENESIS: I. TENSION OF DIFFERENTIAL GROWTH AS A STIMULUS TO Myogenesis.
    599. Regulation of cyclic AMP-dependent protein kinase levels during skeletal Myogenesis
    600. Chondrogenesis and Myogenesis in micromass cultures of mesenchyme from mouse facial primordia
    601. STUDIES IN THE DYNAMICS OF HISTOGENESIS: II. TENSION OF DIFFERENTIAL GROWTH AS A STIMULUS TO Myogenesis IN THE ESOPHAGUS.
    602. Membrane-cytoskeleton associations during Myogenesis deviate from traditional definitions
    603. A mitochondrial factor that prevents the effects of antimycin A on Myogenesis
    604. Regulation of tropomyosin gene expression during Myogenesis.
    605. The effect of different collagen types used as substrata on Myogenesis in tissue culture
    606. Ultrastructural differentiation during embryonic Drosophila Myogenesis in vitro
    607. Patterns of N-CAM expression during Myogenesis in Xenopus laevis
    608. Spatial and temporal effects of axial structures on Myogenesis of developing somites
    609. Transcription factors mediate rRNA synthesis during Myogenesis
    610. Beta-adrenergic receptors and Myogenesis.
    611. Differential expression of the rat retinoid X receptor γ gene during skeletal muscle differentiation suggests a role in Myogenesis
    612. The community effect in Xenopus Myogenesis is promoted by dorsalizing factors.
    613. Histones synthesized at different stages of Myogenesis are differentially degraded in myotube cells
    614. The chicken vimentin gene: aspects of organization and transcription during Myogenesis.
    615. Regulation of ribosomal RNA synthesis during mammalian Myogenesis in culture
    616. The role of cyclic AMP in Myogenesis
    617. Immunological approaches to the study of Myogenesis and lens fiber junction formation
    618. Acetylcholinesterase differentiation during Myogenesis in early chick embryonic cells caused by an inducer RNA
    619. Myotomal Myogenesis in Triturus vulgaris L.(Urodela) with special reference to the role of mesenchymal cells
    620. Alteration of translation and stability of mRNA for the poly (A)‐binding protein during Myogenesis
    621. Scanning electron microscopy of Myogenesis in monolayer culture: a preliminary study
    622. Transcription factors in skeletal Myogenesis of vertebrates
    623. Muscle‐specific microtubule‐associated protein 4 is expressed early in Myogenesis and is not sufficient to induce microtubule reorganization
    624. β1 integrin expression during normal and low score normal avian Myogenesis
    625. Myogenic differentiation of L6 rat myoblasts: evidence for pleiotropic effects on Myogenesis by RNA polymerase II mutations to alpha-amanitin resistance.
    626. Purification and Characterization of 83 kDa Nonmuscle Caldesmon from Cultured Rat Cells: Changes in Its Expression upon L 6 Myogenesis
    627. Serine proteinase inhibitors in human skeletal muscle: Expression of β‐amyloid protein precursor and α1‐antichymotrypsin in vivo and during Myogenesis in vitro
    628. A quantitative assessment of dystrophic mouse (129 ReJ dy/dy) Myogenesis in vitro
    629. Difference in the expression of asymmetric acetylcholinesterase molecular forms during Myogenesis in early avian dermomyotomes and limb buds in ovo and in vitro
    630. Position‐dependent nuclear accumulation of the retinoblastoma (RB) protein during in vitro Myogenesis
    631. Utilization of yolk platelets and lipid bodies during the Myogenesis of Xenopus laevis (Daudin)
    632. Isometric contractile properties and velocity of shortening during avian Myogenesis
    633. Studies on the organisation of the chicken genome and its expression during Myogenesis in vitro
    634. Clonal analysis of vertebrate Myogenesis: V. Nerve-muscle interaction in chick limb bud chorio-allantoic membrane grafts
    635. Ultrastructural aspects of Myogenesis found in neoplasms
    636. Regulation of Myogenesis
    637. Change in a nuclear phosphoprotein during in vitro Myogenesis
    638. Transcriptional expression of non-repetitive DNA during normal and Budr-mediated inhibition of Myogenesis in culture
    639. Quantitative changes in chromosomal activity during chicken Myogenesis in vitro, a DNA-RNA hybridisation study
    640. Quantitative changes in creatine kinase isoenzymes during Myogenesis in vitro
    641. Changes in cell surface antigens during in vitro lizard Myogenesis
    642. In vitro Myogenesis of the mononucleate cells derived from regenerating muscles of adult mice
    643. Dose‐dependent initiation of Myogenesis by neurotrophic factor
    644. Propranolol retards revascularisation and impedes early Myogenesis in regenerating skeletal muscle transplants: an autoradiographic and morphometric study in …
    645. Changes in cell surface glycopeptides during Myogenesis in wild-type and non-fusing mutant L6 rat myoblasts
    646. Biosynthetic changes of myosin heavy subunit during Myogenesis in culture
    647. Immunoassay of muscle-specific creatine kinase with a monoclonal antibody and application to Myogenesis and muscular dystrophy
    648. Prostaglandin binding does not require direct cell-cell contact during chick Myogenesis in vitro
    649. Myogenesis and contraction in the early embryonic heart of the rainbow trout
    650. Activation of the gene for atrial natriuretic factor during in vitro cardiac Myogenesis by P19 embryonal carcinoma cells
    651. Ultrastructural localization of cholinesterase uring chondrogenesis and Myogenesis in the chick limb bud
    652. Lizard Myogenesis in vitro: A time-lapse and scanning electron microscopic study
    653. RNA synthesis during mammalian Myogenesis in culture
    654. Inhibition of Myogenesis by ouabain: effect on protein synthesis
    655. Acceleration of somitic Myogenesis in embryos of myogenin promoter‐MRF4 transgenic mice
    656. Somitogenesis and myotomal Myogenesis in the European Grayling Thymallus thymallus [L.][Teleostei]
    657. Endocytosis of α2-macroglobulin is developmentally regulated during Myogenesis
    658. Developmental regulation of neuraminidase-sensitive lectin-binding glycoproteins during Myogenesis of rat L6 myoblasts
    659. The effect of local anaesthetics and barbiturates on Myogenesis and myotube integrity in rat skeletal muscle cultures
    660. Rescue of the Li+-induced delay of embryonic Myogenesis in vitro by added inositol
    661. Independent control during Myogenesis of histone and high-mobility-group (HMGs) chromosomal protein heterogeneity
    662. Estimation of creatine phosphokinase and hydroxyproline in the developing limb: Its use in evaluating the effect of teratogens on Myogenesis and chondrogenesis
    663. Some comparative aspects of cardiac and skeletal Myogenesis
    664. Proteoglycan synthesis by primary chick skeletal muscle during in vitro Myogenesis
    665. Application of freeze-etching to the study of Myogenesis in cell culture
    666. An embryonal carcinoma cell line as a model system to study developmentally regulated genes during Myogenesis
    667. Histones and histone phosphorylation during quail Myogenesis in vitro
    668. Interaction of the sarcoplasmic reticulum with Z‐lines during Myogenesis in amphibian skeletal muscle
    669. Myogenesis in the mouse embryo
    670. Expression of extracellular matrix genes in relation to Myogenesis and neoplastic transformation
    671. Effects of ascorbate on Myogenesis in micromass culture
    672. Myogenesis and neurogenesis in the chick embryo: A comparative study
    673. The proximal promoter of the aldolase A gene remains active during Myogenesis in vitro and muscle development in vivo
    674. Autoradiographic studies of RNA and DNA synthesis during Myogenesis in cultures of human, chick and rat muscle
    675. Cytoskeletal organization and synthesis in substrate‐independent and‐dependent Myogenesis in chick embryos
    676. In vitro Myogenesis of the mononucleate cells derived from regenerating muscles of adult dystrophic mice
    677. Transitional expression of neural cell adhesion molecule isoforms during chicken embryonic Myogenesis
    678. Declining histone phosphorylation during Myogenesis revealed by in vivo and in vitro labeling
    679. Changes in the H-1 histone complement during Myogenesis. II. Regulation by differential coupling of H-1 variant mRNA accumulation to DNA replication.
    680. Changes in myosin and myosin light chain kinase during Myogenesis
    681. 5‐Azacytidine induced Myogenesis in a differentiation defective cell line
    682. Tenotomy delays both synapse elimination and Myogenesis in rat lateral gastrocnemius
    683. Myogenesis and neuromuscular junction formation in cultures of Periplaneta americana myoblasts and neurones
    684. The BrdU content of DNA is decreased during reversal of inhibition of Myogenesis by deoxycytidine
    685. Reversal of the relative expression of cardiac and skeletal alpha1 subunit isoforms of L-type calcium channel during in vitro Myogenesis
    686. Stem cells and cell signalling in skeletal Myogenesis
    687. Do timing and pattern of Myogenesis correlate with life history mode in anurans?
    688. Inhibitors of glycoprotein processing act at an early stage of Myogenesis
    689. The culture environment and its control of Myogenesis
    690. A model system for studying postnatal Myogenesis with tetracycline-responsive, genetically engineered clonal myoblasts in vitro and in vivo
    691. The amplified expression of factors regulating Myogenesis in L6 myoblasts.
    692. Inhibition of Myogenesis by depletion of the glycogen-associated regulatory subunit of protein phosphatase-1 in rat skeletal muscle cells
    693. Stimulation of rat satellite cell Myogenesis by inhibitors of ser/thr protein kinases
    694. Early stages of Myogenesis as seen through the action of the myf-5 gene
    695. Spatial analysis of limb bud Myogenesis: Elaboration of the proximodistal gradient of myoblasts requires the continuing presence of apical ectodermal ridge
    696. Evidence for transcriptional regulation of the myosin heavy chain gene during Myogenesis
    697. Contact-Mediated Reversible Suppression of Myogenesis: II. Reversal of Suppression by Bromodeoxyuridine
    698. Study of skeletal Myogenesis in cultures of unsegmented paraxial mesoderm
    699. Phosphatidylinositol 3-kinase in Myogenesis
    700. The effect of cholera toxin on Myogenesis in rat skeletal muscle cultures
    701. Polyomavirus genome and polyomavirus enhancer-driven gene expression during Myogenesis.
    702. One-and two-dimensional gel electrophoretic analysis of proteins and phosphoproteins synthesised by clonal muscle cells during Myogenesis
    703. Early development and Myogenesis of the posterior anuran lymph hearts
    704. Gene expression in wild-type and MyoD-null satellite cells: regulation of activation, proliferation, and Myogenesis
    705. Pentazocine-blocked Myogenesis in human foetal muscle cultures
    706. A re-evaluation of DNA repair during skeletal Myogenesis in vitro
    707. Influence of prostaglandin E2 on chick myoblasts differentiation during the Myogenesis
    708. Modulation of in vitro Myogenesis induced by different polymer substrates
    709. Selective effects of actinomycin D on myosin biosynthesis and myoblast fusion during Myogenesis in culture
    710. Human desmin-coding gene: complete nucleotide sequence, characterization and regulation of expression during Myogenesis and development
    711. Prostaglandin-dependent phosphatidylinositol signaling during embryonic chick Myogenesis
    712. Role of E and CArG boxes in developmental regulation of muscle glycogen phosphorylase promoter during Myogenesis
    713. Myogenesis in Xenopus laevis
    714. Myogenesis in vitro as seen with the scanning electron microscope
    715. Analysis of Myogenesis by somatic cell hybridization. II. Retention of myogenic competence and suppression of transformed properties in hybrids between …
    716. Atypical Myogenesis in Hamster Hereditary Polymyopathy: An in Vitro Study
    717. Analysis of Myogenesis by somatic cell hybridization: I. Myogenic competence of homotypic hybrids derived from rat L6 myoblasts
    718. Time-dependent inhibition of Myogenesis by actinomycin D
    719. α‐Actinin expression during avian Myogenesis in vivo Evidence for the existence of an embryo‐specific isoform of α‐actinin
    720. Developmental expression of the POU transcription factor qBrn-2 during somitic Myogenesis in quail.
    721. Steroid RU 486 inducible Myogenesis by 10T1/2 fibroblastic mouse cells
    722. … -induced neuromuscular syndrome: clinical, histochemical features in two cases and a tissue culture study of pentazocine-block Myogenesis in human foetal muscle.
    723. NF‐κB activation by disruption of microtubule array during Myogenesis of L6 cells
    724. An autoradiographic study of the role of satellite cells and myonuclei during Myogenesis in vitro
    725. Differentiation of actin-containing filaments during chick skeletal Myogenesis
    726. Requirement for G protein activity at a specific time during embryonic chick Myogenesis
    727. Myogenesis: differentiation of skeletal muscle fibers
    728. Interferon inhibits Myogenesis in vitro and in vivo
    729. Structural alterations in chromatin during Myogenesis in the chicken
    730. Developmental regulation of a secreted gelatin-binding protein during Myogenesis in vitro
    731. Excitation-contraction coupling in rat skeletal muscle cells: evolution during in vitro Myogenesis
    732. Applications of an autoradiographic model of skeletal muscle Myogenesis in vivo
    733. Defective maturation of a viral glycoprotein and partial loss of the Golgi stack structure during in vitro Myogenesis
    734. Cell adhesion molecules during Xenopus Myogenesis
    735. Obligatory requirement for DNA synthesis during Myogenesis, erythrogenesis and chondrogenesis
    736. Inhibition of Myogenesis in mouse C2 cells by double-stranded phosphorothioate oligodeoxynucleotides containing mef-1 sequence
    737. Biochemical and pharmacologic properties of the Ca2+ channel of skeletal muscle: appearance during Myogenesis and the relation between its structure and function
    738. Maintenance of proliferative capacity during avian Myogenesis is independent of fusion-permissive calcium ion concentration
    739. A temperature-conditional mutant of simian virus 40 large T antigen requires serum to inhibit Myogenesis and does not induce DNA synthesis in myotubes
    740. The effect of neuromuscular stimulation during Myogenesis on muscle fibre number and myogenic regulatory factor expression
    741. Co-localization of 1, 4-dihydropyridine receptor alpha 2/delta subunit and N-CAM during early Myogenesis in vitro
    742. Cell-surface events during Myogenesis: immunofluorescence analysis using monoclonal antibodies
    743. Antiserum to myosin and its use in studying myosin synthesis and accumulation during Myogenesis
    744. Infection with Moloney murine sarcoma virus inhibits Myogenesis and alters the myogenic-associated (2′-5′) oligoadenylate synthetase expression and activity
    745. Calcium regulation of skeletal Myogenesis: IV A defined culture medium permissive for myotube formation and the use of the calcium antagonist lanthanum
    746. Peptide growth factors in Myogenesis and regeneration
    747. Analysis of Myogenesis by somatic cell hybridization: III. Myogenic competence of hybrids derived from rat L6 myoblasts and mouse primary fibroblasts and myoblasts
    748. Formation of intercellular contacts in Myogenesis
    749. The elastic filament system in Myogenesis
    750. Transgenic analysis of cardiac and skeletal Myogenesis
    751. Effects of K-252a on Tyrosine Phosphorylation of 120~ 130-kDa Protein and Myogenesis in C2C12 Cells
    752. Myogenesis in Xenopus embryos
    753. Myogenesis in living cells microinjected with fluorescently labeled alpha-actinin
    754. Reduction of density and anisotropic distribution of intermediate filaments occur during avian skeletal Myogenesis
    755. A conserved developmental role of adhesion molecules in cardiac and skeletal Myogenesis
    756. A review of controversial issues in Myogenesis
    757. Stimulation of Myogenesis by 2, 2′-thiodiethanol in suboptimal tissue culture conditions.
    758. GLYCOLIPIDS IN Myogenesis.
    759. Analysis of filament population in different stages of fish and amphibian Myogenesis.
    760. Expression of α and β tropomyosin subunits during early Myogenesis in somites and limb buds of chick embryos
    761. Expression of myotonic dystrophy protein kinase gene during in vivo and in vitro mouse Myogenesis.
    762. GROWTH AS A STIMULUS TO Myogenesis
    763. Analysis of Myogenesis with recombinant DNA techniques.
    764. Electron microscopic study of the cardiac Myogenesis in a mammalian embryo
    765. A quantitative assessment of the effect of medium composition on mouse Myogenesis in vitro
    766. TGF-(3 and Myogenesis: Interference with cell cycle GI phase progression may lead to differentiation
    767. Various DNA content in myotube nuclei during myotomal Myogenesis in Hymenochirus boettgeri (Anura: Pipidae)
    768. Proliferative Growth during Myogenesis InVitro
    769. The timing and pattern of Myogenesis in Hymenochirus boettgeri
    770. MEF2 and Myogenesis
    771. Regulation of commitment and differentiation during skeletal Myogenesis.
    772. Studies of acetylcholine receptor subunit gene expression: chromatin structural changes during Myogenesis
    773. Control of myosin isozymes during Myogenesis in the rat
    774. Gene expression during skeletal muscle development: Effect of in ovo IGF-1 administration on broiler embryogenesis and postnatal Myogenesis in the mouse.
    775. STUDIES IN THE DYNAMICS OF HISTOGENESIS: Tension of Differential Growth as a Stimulus to Myogenesis VIII. the experimental transformation of the smooth …
    776. The developmental control genes in Myogenesis of vertebrates
    777. Prune belly syndrome. Study of the effects of abdominal distension on the parietal Myogenesis
    778. FGF10 stimulates avian Myogenesis in vitro but not in vivo
    779. A study on the role of neural tube in inducing somitic Myogenesis in the avian embryo.
    780. Myogenesis and Muscular Function in Frog and Rat Embryos (With 1 Plate)
    781. Skeletal Myogenesis: Evidence for a Programmed Cell Lineage
    782. Alteration of matrix assembly receptor for fibronectin during chick Myogenesis
    783. Alterations in Cellular and Plasma Membrane Glycopreteins in Chicken Myogenesis in Vitro
    784. Gene Scene: A Master Control Switch for Myogenesis Muscles Its Way Into the Clinic
    785. The Expression of Myogenin during Chicken Myogenesis
    786. Main steps in the skeletal Myogenesis in man
    787. Function of the SH2 domain-containing protein tyrosine phosphatase, SHP-2, in Myogenesis.
    788. MODULATION OF THY-1 ANTIGEN EXPRESSION DURING Myogenesis IN VITRO.
    789. Myogenesis: where and how can we get skeletal myoblasts?
    790. A new approach to the therapy of Duchenne muscular dystrophy with early precursors of Myogenesis
    791. Regulation of cell cycle activity and transcription during Myogenesis.
    792. Embryonic Stem Cell Derived Cardiogenesis and Myogenesis
    793. Molecular regulation of cardiac Myogenesis and morphology during development
    794. The appearance and changes of gap junctions during Myogenesis of Cynops embryos
    795. Intracellular cyclic AMP regulates the expression of acetylcholinesterase (AChE) during Myogenesis in C2C12 cells
    796. … and insulin response of muscle cultures derived from animals with different growth rates in vivo, and localization and accumulation of nebulin during Myogenesis
    797. Modulation of cardiac contractility in Myogenesis using antidesmin monoclonal antibody
    798. Signal transduction pathways involved in Myogenesis.
    799. Antisense oligodeoxynucleotide-mediated alterations in slow troponin C gene expression during Myogenesis.
    800. Repression of dihydrofolate reductase synthesis during Myogenesis: identification and characterization of a transcriptional regulatory mechanism
    801. Cdk5, a cdk which is required for Myogenesis, shows marked changes in sub-cellular distribution during early Myogenesis and at the G1-S transition in fibroblasts.
    802. The role of the fibroblast growth factor receptor in skeletal Myogenesis
    803. Characterization of neural tube/notochord signals that promote paraxial mesoderm Myogenesis in chick embryos.
    804. Studies of the co-ordinate regulation of the translation apparatus during Myogenesis.
    805. INTERMEDIATE FILAMENTS AND Myogenesis IN VITRO.
    806. THE EFFECT OF A PHORBOL ESTER ON AMPHIBIAN Myogenesis
    807. The temporal expression patterns of aldolase and other muscle-specific genes during chicken Myogenesis in primary cultures.
    808. PLASMA MEMBRANE PROTEIN BIOSYNTHESIS DURING Myogenesis OF CHICK SKELETAL MUSCLE IN VITRO.
    809. The effect of a phorbol ester on amphibian Myogenesis.
    810. A dissection of signal transduction pathways involved in the Ras-mediated inhibition of skeletal Myogenesis and the identification of a novel Ras-interacting protein.
    811. PROTEINS ASSOCIATED WITH TRANSCRIPTIONALLY ACTIVE CHROMATIN DURING Myogenesis.
    812. A role for mechanosensitive channels during Myogenesis and in muscular dystrophy.
    813. Pattern and mechanism of troponin C-Fast gene expression during tongue Myogenesis.
    814. CMF1: Identification of a novel heart specific factor critical for cardiac Myogenesis.
    815. LECTIN BINDING ANALYSIS OF THE EXPRESSION, DISTRIBUTION, AND MOBILITY OF CELL SURFACE GLYCOCONJUGATES DURING IN VITRO Myogenesis.
    816. Patterns of homeobox gene expression in murine limb muscle: Implications for Myogenesis.
    817. Regulation of Myogenesis by growth signals-growth factors, oncogenes and protein kinases
    818. Regulation of Acetylcholinesterase (AChE) mRNA by Ryanodine-Sensitive and L-Type Calcium Channels during Myogenesis in Vitro and Muscle Development in …
    819. Membrane-cytoskeleton associations during Myogenesis
    820. Transcriptional regulation of myogenin expression during Myogenesis by multiple intracellular signaling pathways
    821. Regulation of skeletal Myogenesis by association of the MEF2 transcription factor with class II histone deacetylases
    822. Nutritional and pharmacological manipulations of Myogenesis in the rat: a study of protein expression
    823. The cytoskeleton during muscle cell fusion in early Myogenesis.
    824. Gap junctional intercellular communication promotes Myogenesis in vitro.
    825. THE ROLE OF GLYCOSAMINOGLYCANS (GAGS) IN IN VITRO Myogenesis: ADDITION OF EXOGENOUS GAGS, ALTERATION OF ENDOGENOUS GAGS AND …
    826. Developmental regulation of the alpha (7) integrin chain during Myogenesis.
    827. Cell Surface Phosphorylation and Myogenesis in L6 Rat Myoblasts
    828. Nestin: filament formation and expression in Myogenesis and muscle disorders
    829. 2001 Gordon Research Conference on Myogenesis
    830. Molecular analysis of negative and positive regulators of Myogenesis
    831. ADVANCE IN Myogenesis AND ITS GENETIC REGULATION
    832. The role of glycosphingolipids in Myogenesis.
    833. Analysis of myogenic regulatory factors and insulin-like growth factors in early somite Myogenesis.
    834. Analysis of aldolase A alternative promoter utilization during in vitro and in vivo Myogenesis.
    835. THE CYTOPLASMIC UTILIZATION OF MUSCLE MESSENGER-RNA TRANSCRIPTS DURING Myogenesis.
    836. The role of protein kinase C and myogenic factors in teratocarcinoma differentiation and Myogenesis.
    837. Identification and characterization of muscle microtubule-associated protein 4 (mMAP4) and the role ofmMAP4 in Myogenesis.
    838. BASAL LAMINA FORMATION DURING Myogenesis IN VIVO AND IN VITRO (COLLAGEN IV, FIBROBLASTS, CELL CULTURE, BASEMENT MEMBRANE …
    839. Antisense oligodeoxynucleotide-mediated alterations in slow troponin C gene expression during Myogenesis
    840. and c-myc gene expression during Myogenesis
    841. Skeletal Muscle Myogenesis
    842. Inhibition of Skeletal Myogenesis by Activated Raf-kinase
    843. The cloning and expression of myogenin, a gene regulating Myogenesis.
    844. IMMUNOCYTOCHEMICAI STUDIES ON THE APPEARANCE AND DISTRIBUTION OF DESMIN DURING Myogenesis IN THE EMBRYOS OF CYNOPS …
    845. THE EFFECT OF 5-AZACYTIDINE ON Myogenesis.
    846. Regulation Of Cyclic-amp-dependent Protein Kinases During Skeletal Myogenesis
    847. The molecular and cellular biology of skeletal muscle Myogenesis: Practical applications
    848. MBD2b/demethylase is Involved in the Myogenesis of C2C12 Myoblasts
    849. IV-4 Myogenesis
    850. Non-neural factors for Myogenesis
    851. Myotomal Myogenesis in Hymenochirus boettgeri [Anura, Pipidae]
    852. Filamin and vinculin expressions during avian Myogenesis In Vivo
    853. Distribution of an endogenous lectin during Myogenesis as measured by antilectin antibodies
    854. … Factors: Their Overlapping Functions and Direct Regulation of MEF2C Provide a Regulatory Network for the Maintenance and Amplification of Vertebrate Myogenesis
    855. A cell culture analysis of the expression of cathepsin D activity during Myogenesis and tumor progression.
    856. A FINE-STRUCTURAL ANALYSIS OF IN VITRO Myogenesis OF MUTANT (CROOKED NECK DWARF) CHICK.
    857. VERTEBRATE LIMB Myogenesis: CELL LINEAGE RELATIONSHIPS AND FIBROBLAST GROWTH FACTOR EFFECTS.
    858. … CLONING, DNA SEQUENCING, AND ANALYSIS OF THE DEVELOPMENTAL EXPRESSION OF THE CREATINE KINASE GENES FROM CHICKEN (Myogenesis).
    859. Dystrophin expression during skeletal Myogenesis.
    860. DIFFERENTIATIVE EXPRESSION OF CONDITIONAL MUTANTS OF THE MYOBLAST CELL CYCLE (Myogenesis).
    861. Factors regulating angiogenesis during Myogenesis in the developing vertebrate limb.
    862. SPINAL MOTONEURON CELL DEATH AND DEVELOPMENTAL CHANGES IN CONTRACTILE PROTEIN EXPRESSION (Myogenesis).
    863. Orchestration of skeletal Myogenesis by the myogenic bHLH family of transcription factors.
    864. The role of alpha (7) integrin during Myogenesis.
    865. Bone marrow-derived Myogenesis.
    866. Inhibition of Myogenesis in mouse C (2) C (12) cells by double stranded oligodeoxynucleotides containing mef-1 sequence.
    867. Pax7 is required for muscle satellite cell specification and regenerative Myogenesis.
    868. … COTRANSPORT EXOCYTIC ACETYLCHOLINESTERASE AND ACETYLCHOLINE RECEPTORS IN EMBRYONIC CHICK MUSCLE CELLS (Myogenesis).
    869. Xenotransplantation of embryonic precursors of human Myogenesis for the correction of dystrophinopathy in mice with hereditary muscular dystrophy
    870. … BASIS FOR THE DEVELOPMENT OF A SEXUALLY DIMORPHIC NEUROEFFECTOR SYSTEM (MUSCLE, Myogenesis, CARTILAGE, SATELLITE CELL, FROG).
    871. NF- Activation Induced by Disruption of Microtuble Network during Myogenesis
    872. Sonic hedgehog and Indian hedgehog are critical regulators of primary and secondary Myogenesis.
    873. Regulation of Myogenesis by the homeobox-containing gene, Msx1.
    874. Actin and Myosin Genes and Their Expression During Skeletal Muscle Myogenesis
    875. Transepicardial autologous bone marrow transplantation in a porcine nonreperfused myocardial infarction model: Angiogenesis or Myogenesis?
    876. Neural factors for Myogenesis
    877. THE APPEARANCE AND CHANGES OF GAP JUNCTIONS DURING Myogenesis OF CYNOPS EMBRYOS [J]
    878. TALKS: Cell movement and differentiation during secondary Myogenesis in the rat
    879. Inhibition of Myogenesis by trifluoperazine and compound 4880
    880. 6Myocardial angiogenesis and Myogenesis by direct injection of autologous marrow stem cells in humans
    881. Some Aspects of Myogenesis in Vitro
    882. Defective Myogenesis in NFB-s mutant associated with a saturable suppression of MYF5 activity
    883. Role of Cell-Surface Glycoconjugates in Myogenesis
    884. Studies on the Cell Surface and Adhesion of Myoblasts During Early Myogenesis
    885. The effects of desoxycorticosterone, hydrocortisone, and prednisone on Myogenesis in vitro
    886. Signalling Pathways Regulating BC₃H1 Cell Myogenesis
    887. Regulation of MyoD-induced Myogenesis in P19 cells.
    888. Role of membrane structure in the formation of the myofibrillar system in Myogenesis
    889. Myostatin Function and Signaling Transduction During Myogenesis
    890. Ca release and ryanodine binding in sarcoplasmic reticulum during cardiac Myogenesis
    891. Mechanisms of early differentiation: embryogenesis, Myogenesis (cardiac differentiation) and hematopoiesis/lymphopoiesis” Barsinghausen/Germany …
    892. f) y~ trophin Exprcsltion During Skclctal Myogenesis
    893. Biophysical changes in cell membranes during Myogenesis‘ in vitro’
    894. The morphofunctional characteristics of the macrophages during reparative Myogenesis under the action of immunomodulators
    895. Regulation of the c-jun enhancer/promoter by MEF 2 proteins during Myogenesis.
    896. Novel isoforms of FXR1P, a member of the fragile X mental retardation protein family, are mRNA chaperones expressed during in vitro Myogenesis
    897. E2F site-dependent regulation of dihydrofolate reductase promotor activity during Myogenesis
    898. A physiological description of normal Myogenesis and comparison between normal and dystrophic embryonic avian sceletal muscle.
    899. FGF6 in Myogenesis
    900. Partitioning of IGFBP-5 actions in Myogenesis: IGF-independent anti-apoptotic function
    901. Modulation of cell cycle progression by 5-azacytidine is associated with early Myogenesis induction in murine myoblasts
    902. Building muscle: molecular regulation of Myogenesis
    903. Inflammatory monocytes recruited after skeletal muscle injury switch into antiinflammatory macrophages to support Myogenesis
    904. NF-κB–YY1–miR-29 regulatory circuitry in skeletal Myogenesis and rhabdomyosarcoma
    905. Muscle injury activates resident fibro/adipogenic progenitors that facilitate Myogenesis
    906. A temporal switch from notch to Wnt signaling in muscle stem cells is necessary for normal adult Myogenesis
    907. Intravenous administration of mesenchymal stem cells improves cardiac function in rats with acute myocardial infarction through angiogenesis and Myogenesis
    908. MyoD and the transcriptional control of Myogenesis
    909. Consequences of birth weight for postnatal growth performance and carcass quality in pigs as related to Myogenesis
    910. MicroRNA-26a targets the histone methyltransferase Enhancer of Zeste homolog 2 during Myogenesis
    911. TNF-α regulates Myogenesis and muscle regeneration by activating p38 MAPK
    912. Myogenic progenitor cells and skeletal Myogenesis in vertebrates
    913. Skeletal muscle satellite cells and adult Myogenesis
    914. Pax-7 up-regulation inhibits Myogenesis and cell cycle progression in satellite cells: a potential mechanism for self-renewal
    915. Cellular and molecular signatures of muscle regeneration: current concepts and controversies in adult Myogenesis
    916. The myocardin family of transcriptional coactivators: versatile regulators of cell growth, migration, and Myogenesis
    917. Lin-28 binds IGF-2 mRNA and participates in skeletal Myogenesis by increasing translation efficiency
    918. Stem cells in postnatal Myogenesis: molecular mechanisms of satellite cell quiescence, activation and replenishment
    919. A novel YY1-miR-1 regulatory circuit in skeletal Myogenesis revealed by genome-wide prediction of YY1-miRNA network
    920. R-Spondin2 is a secreted activator of Wnt/β-catenin signaling and is required for Xenopus Myogenesis
    921. Gene regulatory networks and transcriptional mechanisms that control Myogenesis
    922. Distinct roles for Pax7 and Pax3 in adult regenerative