Xenopus embryos regulate the nuclear localization of XMyoD

Xenopus embryos regulate the nuclear localization of XMyoD

Injection of Xenopus myoD mRNA into Xenopus embryos leads to only a modest activation of myogenic markers. In contrast, we show that injected mouse myoD mRNA leads to a potent activation. We postulate that XMyoD is under negative control in frog embryos, but because of slight sequence differences, m...

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Veröffentlicht in:Genes & development 1994-06, Vol.8 (11), p.1311-1323
Hauptverfasser: RUPP, R. A. W, SNIDER, L, WEINTRAUB, H
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Base Sequence
Biological and medical sciences
Blastocyst - metabolism
Cell Compartmentation
Cell Differentiation
Cell Nucleus - metabolism
Cytoplasm - metabolism
DNA Mutational Analysis
Embryonic Induction
Freshwater
Fundamental and applied biological sciences. Psychology
Gastrula - metabolism
Gene expression
Gene Expression Regulation
Immunohistochemistry
Mesoderm - metabolism
Mice
Microinjections
Molecular and cellular biology
Molecular genetics
Molecular Sequence Data
Muscles - embryology
MyoD Protein - genetics
MyoD Protein - isolation & purification
MyoD Protein - metabolism
Oligonucleotides, Antisense
RNA, Messenger - metabolism
Sequence Deletion
Species Specificity
Xenopus - embryology
Xenopus laevis
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Zusammenfassung:Injection of Xenopus myoD mRNA into Xenopus embryos leads to only a modest activation of myogenic markers. In contrast, we show that injected mouse myoD mRNA leads to a potent activation. We postulate that XMyoD is under negative control in frog embryos, but because of slight sequence differences, mouse MyoD fails to see the negative signal. Whereas mMyoD is constitutively nuclear, XMyoD is largely cytoplasmic except in a region of the embryo that includes the location where mesoderm induction occurs; there, it is nuclear. At MBT, endogenous XmyoD mRNA is expressed ubiquitously in the frog embryo. Our results suggest that this expression would lead to cytoplasmic XMyoD protein. Among other events, muscle induction might remove this negative regulation, allow MyoD to enter the nucleus, and establish an autoregulatory loop that could commit cells to myogenesis.
ISSN:0890-9369
1549-5477
DOI:10.1101/gad.8.11.1311