The ADP-ribosylations of proteins in nuclei, plasma membrane vesicles, mitochondria, microsome vesicles and the soluble fraction of sea urchin embryos isolated at various stages of development were examined by measuring the radioactivities of proteins after exposure of these subcellular fractions to [adeno~ine-~~CINAD or [aden~late-~~P]NAD. ADP-ribosylation of proteins was detected only in the nuclear and plasma membrane fractions. In the nuclear fraction, the rate of ADP-ribosylation of the histone fraction did not change appreciably during early development. In the TCA-insoluble protein fraction of the nuclei, the rate of ADP-ribosylation increased from fertilization to the morula stage, then decreased and again increased from the mesenchyme blastula to the late gastrula stage. After exposure of the nuclear fraction to [aden~late-~~PINAD, a protein band with a molecular weight of 90 kDa was detected by SDS-polyacrylamide gel electrophoresis and radioautography at all stages examined. Its labeling intensity indicated that its ADP-ribosylation is higher at the morula and late gastrula stages than at other stages. In the plasma membrane fraction, proteins with molecular weights of 22 and 68 kDa were ADP-ribosylated and their rates of ADP-ribosylation hardly changed during early development.
In nuclei of sea urchin embryos, marked increase in ADP-ribosyltransferase activity followed by its decrease occurrs in the pre-hatching and post-hatching periods with peaks of activity at the morula and gastrula stages. Increase in its activity was blocked by cycloheximide in the pre-and post-hatching periods and by actinomycin D only in the post-hatching period. Embryo wall cells (ectoderm cells) isolated from gastrulae exhibited markedly higher activity of this enzyme than archenteron cells and mesenchyme cells. Probably, the increase in the activity of this enzyme in the post-hatching period results from expression of the gene for this enzyme mainly in ectoderm cells. In the post-hatching period, the activity increased more in animalized embryos than in normal ones, and increased little in vegetalized embryos. 3-Aminobenzamide (3-ABA), as well as luminol and nicotinamide, inhibited formation of ectoderm structures more than that of endoderm structures, such as the archenteron, in normal and animalized embryos, but had no appreciable effect on morphogenesis in vegetalized embryos. The reaction catalyzed by ADP-ribosyltransferase probably contributes to ectoderm cell differentiation. Treatment of embryos with 3-ABA in the pre-hatching period had little inhibitory effect on the morphogenesis in the post-hatching period, though it caused death of many embryos.
introductiontion more than endoderm cell differentiation.
In plasma membrane fraction isolated from eggs and embryos of sea urchin, 32P‐labeled proteins were found on the fluorographs of SDS‐polyacrylamide gel electrophoresis, performed after an exposure of the fraction to [adenylate‐32P] nicotinamide adenine dinucleotide in the presence of cholera toxin, pertussis toxin or botulinum toxin D. The molecular weights of proteins, thus ADP‐ribosylated in the presence of cholera toxin and pertussis toxin are 45 and 39 K, which correspond to Gs and Gi or Go, respectively. Protein with the molecular weight of 24 K, labeled in the presence of botulinum toxin D, corresponds to small molecular weight G‐protein. The labeling intensity of 45 K protein, probably proportional to its amount, became high at the blastula stage. The labeling intensity of 39 K protein was hardly altered up to the blastula stage. The labeling intensity of 24 K protein increased after fertilization and further increase occurred at the blastula stage. At the gastrula stage, the labeling intensities of these proteins became somewhat lower than at the blastula stage. Transmembrane signaling system, in which these G‐proteins are involved, is probably altered in its function during early development.
Two-dimensional electrophoresis (2D-PAGE) of a histone fraction isolated from nuclei of embryos of the sea urchin Hemicentrotus pulcherrimus exhibited almost all histone species at all stages examined. At the gastrula stage, a spot of H1A became evident and three spots closely associated with one another were found in place of a single spot of H2A.1. In the histone fraction isolated from [a~ienylate-~*P] NAD+-treated nuclei of all stages examined, autoradiograms of 2D-PAGE exhibited spots of mono [ADP-ribosyl]
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