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Utilization of yolk platelets and lipid bodies during the myogenesis of Xenopus laevis (Daudin).
Kielbówna L.
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The premyoblast and differentiating mononuclear myoblasts of the metameric striated muscles of Xenopus laevis were analysed for vitellolysis and lipid body utilization. In the course of myoblast differentiation the stainability of platelets stained with safranin and fast green shows essential variations. The platelets appear to lose their affinity for safranin and subsequently begin to stain with fast green. The yolk platelets were found to contain basic proteins, non-histone proteins, and phospholipids. The lipid bodies appear in the myoblastcytoplasm at the onset of vitellolysis and they disappear after yolk reserves have been utilized. After the deutoplasmatic material has been used the myoblast nuclei begin to divide and this leads to the formation of polykaryocytes.
Alfert,
A Selective Staining Method for the Basic Proteins of Cell Nuclei.
1953, Pubmed
Alfert,
A Selective Staining Method for the Basic Proteins of Cell Nuclei.
1953,
Pubmed Auer,
Changes in binding between DNA and arginine residues in histone induced by cell crowding.
1970,
Pubmed Baltus,
Isolation of deoxyribonucleic acid from the yolk platelets of Xenopus laevis oöcyte.
1968,
Pubmed
,
Xenbase BROWN,
RNA SYNTHESIS DURING AMPHIBIAN DEVELOPMENT.
1964,
Pubmed Davenport,
Cytoplasmic basic proteins of the frog oocyte. Cytochemical detection and electrophoretic characterization.
1967,
Pubmed ELFTMAN,
Phospholipid fixation by dichromate-sublimate.
1957,
Pubmed Faulhaber,
[Inducing capacity of subcellular fractions from the gastrula ofXenopus laevis].
1972,
Pubmed FLICKINGER,
A study of the metabolism of amphibian neural crest cells during their migration and pigmentation in vitro.
1949,
Pubmed Hamilton,
The formation of somites in Xenopus.
1969,
Pubmed
,
Xenbase Hanocq,
Characterization of yolk DNA from Xenopus laevis oocytes ovulated in vitro.
1972,
Pubmed
,
Xenbase Hanocq-Quertier,
Studies on the DNA of Xenopus laevis oocytes.
1968,
Pubmed
,
Xenbase HOLTFRETER,
Experiments on the formed inclusions of the amphibian egg; the effect of pH and electrolytes on yolk and lipochondria.
1946,
Pubmed HORN,
Extranuclear histone in the amphibian oocyte.
1962,
Pubmed JURAND,
YOLK UTILIZATION IN THE NOTOCHORD OF NEWT AS STUDIED BY ELECTRON MICROSCOPY.
1964,
Pubmed KARASAKI,
Studies on amphibian yolk 1. The ultrastructure of the yolk platelet.
1963,
Pubmed KARASAKI,
STUDIES ON AMPHIBIAN YOLK. 5. ELECTRON MICROSCOPIC OBSERVATIONS ON THE UTILIZATION OF YOLK PLATELETS DURING EMBRYOGENESIS.
1963,
Pubmed Kaye,
The fine structure and chemical composition of nuclei during spermiogenesis in the house cricket. I. Initial stages of differentiation and the loss of nonhistone protein.
1966,
Pubmed Kelley,
A biochemical and ultrastructural study of RNA in yolk platelets of Xenopus gastrulae.
1971,
Pubmed
,
Xenbase Massover,
Nascent yolk platelets of anuran amphibian oocytes.
1971,
Pubmed OHNO,
HISTO- AND CYTOCHEMICAL STUDIES ON THE SUPERFICIAL LAYER OF YOLK PLATELETS IN THE TRITURUS EMBRYO.
1964,
Pubmed ROUNDS,
Distribution of ribonucleoprotein during neural induction in the frog embryo.
1958,
Pubmed SCHJEIDE,
A study of the yolk proteins of frog eggs by physical and chemical means.
1955,
Pubmed Selman,
The utilization of yolk platelets by tissues of Xenopus embryos studied by a safranin staining method.
1965,
Pubmed
,
Xenbase Wallace,
The induced synthesis and transport of yolk proteins and their accumulation by the oocyte in Xenopus laevis.
1968,
Pubmed
,
Xenbase WALLACE,
STUDIES ON AMPHIBIAN YOLK. III. A RESOLUTION OF YOLK PLATELET COMPONENTS.
1963,
Pubmed WALLACE,
STUDIES ON AMPHIBIAN YOLK. IV. AN ANALYSIS OF THE MAIN-BODY COMPONENT OF YOLK PLATELETS.
1963,
Pubmed
