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1.
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Embryos of the sea urchin, Stronglyocentrotus purpuratus, synthesize several classes of sulfated and non-sulfated glycoproteins during gastrulation. The antibiotic tunicamycin, which is a specific inhibitor of the N-glycosylation of proteins, inhibits the synthesis of lipid-linked oligosaccharides in these embryos at concentrations which have little effect on the biosynthesis of other classes of glycolipids or on protein synthesis. As a consequence of this inhibition, glycoproteins with oligosaccharide side chains of the general type (Man)5-7-(GlcNAc)2 are not synthesized. In addition, the biosynthesis of a novel class of sulfated glycoproteins is inhibited. In contrast, no effect upon the synthesis of sulfated glycosaminoglycans is seen. The morphogenetic consequence of tunicamycin treatment is that development of embryos from the mesenchyme blastula to the gastrula stage is arrested. The results provide evidence that during development glycoproteins containing both unsulfated and sulfated N-glycosidically linked oligosaccharide chains are synthesized via the lipid-linked pathway. The biosynthesis of these molecules appears to be a prerequisite to the differentiation and morphogenesis that occurs during gastrulation.  相似文献   

3.
Glycosaminoglycans (GAGs) are a heavily sulfated component of the extracellular matrix (ECM) implicated in a variety of cell signaling events involved in patterning of embryos. Embryos of the sea urchin Strongylocentrotus purpuratus were exposed to several inhibitors that disrupt GAG function during development. Treatment with chlorate, a general inhibitor of sulfation that leads to undersulfated GAGs, reduced sulfation of the urchin blastocoelar ECM. It also prevented correct specification of the oral-aboral axis and mouth formation, resulting in a radialized phenotype characterized by the lack of an oral field, incomplete gastrulation and formation of multiple skeletal spicule rudiments. Oral markers were initially expressed in most of the prospective ectoderm of chlorate-treated early blastulae, but then declined as aboral markers became expressed throughout most of the ectoderm. Nodal expression in the presumptive oral field is necessary and sufficient to specify the oral-aboral axis in urchins. Several lines of evidence suggest a deregulation of Nodal signaling is involved in the radialization caused by chlorate: (1) Radial embryos resemble those in which Nodal expression was knocked down. (2) Chlorate disrupted localized nodal expression in oral ectoderm, even when applied after the oral-aboral axis is specified and expression of other oral markers is resistant to treatment. (3) Inhibition with SB-431542 of ALK-4/5/7 receptors that mediate Nodal signaling causes defects in ectodermal patterning similar to those caused by chlorate. (4) Intriguingly, treatment of embryos with a sub-threshold dose of SB-431542 rescued the radialization caused by low concentrations of chlorate. Our results indicate important roles for sulfated GAGs in Nodal signaling and oral-aboral axial patterning, and in the cellular processes necessary for archenteron extension and mouth formation during gastrulation. We propose that interaction of the Nodal ligand with sulfated GAGs limits its diffusion, and is required to specify an oral field in the urchin embryo and organize the oral-aboral axis.  相似文献   

4.
The behavior and differentiation processes of pigment cells were studied in embryos of a tropical sea urchin Echinometra mathaei, whose egg volume was one half of those of well-known sea urchin species. Owing to earlier accumulation of pigments, pigment cells could be detected in the vegetal plate even before the onset of gastrulation, distributed dorsally in a hemi-circle near the center of the vegetal plate. Although some pigment cells left the archenteron during gastrulation, most of them remained at the archenteron tip. At the end of gastrulation, pigment cells left the archenteron and migrated into the blastocoele. Unlike pigment cells in typical sea urchins, however, they did not enter the ectoderm, and stayed in the blastocoele even at the pluteus stage. It is of interest that the majority of pigment cells were distributed in the vicinity of the larval skeleton. Aphidicolin treatment revealed that eight blastomeres were specific to pigment cell lineage after the eighth cleavage, one cell cycle earlier than that in well-known sea urchins. The pigment founder cells divided twice, and the number of pigment cells was around 32 at the pluteus stage. It was also found that the differentiation of pigment cells was blocked with Ni2+, whereas the treatment was effective only during the first division cycle of the founder cells.  相似文献   

5.
Summary Pigment granules (PGs) are embeded in the cortex of embryos of the Japanese sea urchins,Hemicentrotus pulcherrimus and Anthocidaris crassispina. PGs in the cortex actively retreated from the vegetal pole area at the 4-cell stage and then a notable PG-distribution gradient formed along the egg axis (the polar redistribution of PGs). The polar redistribution of PGs in the cortex occurred at the same time after fertilization even in solutions of microtubule disrupting reagents such as Colcemid, vinblastine sulfate or griseofulvin. Consequently, the polar redistribution of PGs was not associated with the microtubules. However, the polar redistribution of PGs was interrupted in seawater containing cytochalasin B (CB), dithiothreitol (DTT) or tetracaine, and the distribution pattern of PGs in the cortex was definitely disturbed. Moreover, CB, DTT and tetracaine altered the division pattern of vegetal blastomeres at the 4th cleavage which is normally unequal so that all the blastomeres divided equally. Microtubule disrupting reagents did not have such an effect on the cleavage pattern. Thus the cortical movement along the egg axis reflected by the polar redistribution of PGs seems to correlate with the micromere formation.  相似文献   

6.
Various stresses, including exposure to cold or heat, can result in a sharp increase in pigmentation of sea urchin embryos and larvae. The differentiation of pigment cells is accompanied by active expression of genes involved in the biosynthesis of naphthoquinone pigments and appears to be a part of the defense system protecting sea urchins against harmful factors. To clarify numerous issues occurring at various time points after the cold injury, we studied the effect of shikimic acid, a precursor of naphthoquinone pigments, on cell viability and expression of some pigment genes such as the pks and sult before and after freezing the cultures of sea urchin embryo cells. The maximum level of the pks gene expression after a freezing–thawing cycle was found when sea urchin cells were frozen in the presence of trehalose alone. Despite naphthoquinone pigments have been reported to possess antioxidant and cryoprotectant properties, our data suggest that shikimic acid does not have any additional cryoprotective effect on freezing tolerance of sea urchin embryo pigment cells.  相似文献   

7.
An antiserum to isolated membranes of gastrula-stage embryos of the sea urchin Lytechinus variegatus was characterized by absorption and cell agglutination specificities. The antiserum was found to recognize four distinct classes of antigens on the embryonic cell surface: (1) an early embryonic class or “maternal” class present from the earliest stages of development, (2) an embryonic class of antigens which appeared on all cells beginning at gastrulation, (3) a class of antigens present on ectoderm cells, and (4) a class of antigens present on endoderm cells. All four classes of antigens were shown indirectly to be synthesized on embryonic mRNA since a hybrid embryo of the cross Tripneustes ♀ × Lytechinus ♂ expressed all four classes of Lytechinus-specific antigens beginning at gastrulation. Each class was Lytechinus specific in that hybrid cells were agglutinated if beyond the beginning of gastrulation, while normal Tripneustes ♀ × Tripneustes ♂ cells were not agglutinated.  相似文献   

8.
In an attempt to estimate the number of pigment precursor cells in sea urchin embryos, DNA synthesis and cell divisions were blocked with aphidicolin from various stages of development. Interestingly, pigment cells differentiated on a normal time schedule, even if the embryos were treated from late cleavage stages on. In most of the embryos treated from 10 h on, 10-15 pigment cells differentiated. Thereafter, the number of pigment cells in the aphidicolin-treated embryos further increased, as the initiation of the treatment was delayed. On the other hand, total cell volumes in the pigment lineage, calculated from the averaged number and diameter of differentiated pigment cells, were almost the same irrespective of the time of the initiation of aphidicolin treatment. This indicated that the increase in the number was caused by divisions of the pre-existing cells in the pigment lineage. Thus, the founder cells that exclusively produce pigment cells could be identified. They are nine times-cleaved blastomeres and specified by 10 h post-fertilization. The obtained results also clarified the division schedule in the pigment lineage; the founder cells divide once (10th) until hatching, and divide once more (11th) by the end of gastrulation.  相似文献   

9.
Based on the fact that the development of sea urchin embryos is arrested at the blastula stage in sulfate-free sea water (SFSW), we attempted in the present study to elucidate the nature of sulfated polysaccharides (PSs) which appear at the time of gastrulation in embryos of the sea urchin Clypeaster japonicus. Electrophoretic analysis of PSs prepared from embryos at different developmental stages revealed that three kinds of PSs (3A, 3B, 3C) appear de novo at the gastrula stage, and that these PSs are not found in embryos at the hatching blastula stage, nor are they found in permanent blastula reared in SFSW. These, three PSs were mostly of extracellular matrix origin. Among them, 3C was identified as dermatan sulfate on the basis of its electrophoretic mobility and sensitivity to enzymatic digestion. 3A and 3B remained to be identified. Further, a plausible precursor of 3C, which was sulfated under normal conditions, was detected as 6D in the embryos reared in SFSW. Autoradiographic analysis using [35S]sulfate revealed that these three PSs, accounted for more than 90% of [35S]sulfate incorporated into the acid PS fraction during gastrulation.  相似文献   

10.
Target recognition by the archenteron during sea urchin gastrulation   总被引:2,自引:0,他引:2  
During sea urchin gastrulation filopodia are sent out by secondary mesenchyme cells (SMCs) at the tip of the archenteron in continual cycles of extension, attachment, and retraction. Eventually the archenteron ceases its elongation and its tip localizes to the animal pole region of the embryo (Gustafson and Kinnander, 1956, Exp. Cell Res. 11, 36-57; Dan and Okazaki, 1956, Biol. Bull. 110, 29-42). We have investigated the mechanisms and specificity of this localization by analyzing filopodial behavior and by experimental manipulation of the interaction of the archenteron with the animal pole region. When the tip of the archenteron nears the animal pole, some filopodia make contact with a well-defined locus within this region. Filopodia that make contact with the locus remain attached 20-50 times longer than attachments observed at any other site along the blastocoel wall. The SMCs bearing the long-lived filopodia eventually change their phenotype by flattening and spreading onto this region. Several lines of experimental evidence indicate that contact with the animal pole locus, or "target" region, is crucial for the change in phenotype of the SMCs: (1) the phenotypic change can be induced precociously by bringing the animal pole region within reach of the tip of the archenteron early in gastrulation. Precocious contact with other regions of the blastocoel wall does not induce a similar change. (2) The phenotypic change can be delayed by placing the animal pole out of reach late in gastrulation, resulting in artificial prolongation of exploratory behavior by filopodia. (3) Ectopic combinations of animal pole ectoderm and archenterons in fused multiple embryos and chimaeras result in attachment of archenterons to the nearest available target, and (4) freely migrating SMCs are observed to migrate randomly within the blastocoel, then stop at the animal pole and undergo the change in phenotype. Filopodia rapidly attach to the animal pole when the shape of early gastrulae is altered such that the animal pole is less than 35 microns from the tip of the archenteron, even though such attachments only occur in normal embryos at the 2/3-3/4 gastrula stage. Since it has previously been shown that the archenteron elongates autonomously to 2/3 of its final length (Hardin, 1988, Development 103, 317-324), it appears that autonomous extension of the archenteron is required to place filopodia close enough to the animal pole to allow them to interact with it.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

11.
12.
Summary Collagen fibrils with a main period banding of 610 Å and 220 Å in width were observed in the blastocoel of 72-h embryos of the sea urchin,Strongylocentrotus purpuratus. Non-striated fibrils of 50 Å diameter were also observed. The collagen is seen in highest concentration in the vicinity of mesenchyme cells which are richly endowed with endoplasmic reticulum and secretory vesicles. A role for collagen in cell attachment, orientation and spicule formation is discussed.  相似文献   

13.
Agrobacterium-mediated transformation of higher plants is a well-known and powerful tool for transgene delivery to plant cells. In the present work, we studied whether Agrobacterium can transfer genetic information to animal (sea urchin) embryos. Sea urchin embryos were co-cultivated with A. tumefaciens strains carrying binary vectors containing the nptII marker gene and agrobacterial rolC and rolB oncogenes. Bacterial plasmid T-DNA-sea urchin DNA junction sites were identified in the genome of these embryos, thus indicating successful transformation. The nptII and both rol genes were expressed in the transformed embryos. The processes of transgene integration and transgene expression were suppressed when Agrobacteria contained mutated virA, virB or virG genes, suggesting that Agrobacterium transforms sea urchin cells by a mechanism similar to that which mediates T-DNA transfer to plants. Some of the embryos co-cultivated with Agrobacterium developed teratoma-like structures. The ability of Agrobacterium strains to trigger formation of teratoma-like structures was diminished when they contained the mutated vir genes. In summary, our results demonstrate that Agrobacterium is able to transform animal (sea urchin) embryonic cells, thus indicating a potential of this natural system for gene delivery to animal hosts. We also discuss the possibility of horizontal gene transfer from Agrobacterium to marine invertebrates.  相似文献   

14.
A method for separating cells from early sea urchin embryos   总被引:4,自引:0,他引:4  
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15.
Mitochondrial RNA synthesis in sea urchin embryos   总被引:5,自引:0,他引:5  
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16.
Double-stranded ribonucleic acid in sea urchin embryos   总被引:7,自引:0,他引:7  
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17.
We have developed a micronucleus assay for use in sea urchin embryos. The embryos at the early blastula stage (about 256 cells) were exposed to genotoxic chemicals overnight until control embryos have reached the gastrula stage. Then all embryos were suspended in 1 M urea, dissociated by pipetting, and fixed with methanol:acetic acid (9:1). The preparations were air-dried and stained with acridine orange. The test chemicals (mitomycin C [MMC], vinblastine and 1-beta-D-arabinofuranosylcytosine [Ara C]) induced clear micronuclei dose-dependently. The maximum frequency induced with MMC was 2-3% in Clypeaster japonicus and 1-2% in Hemicentrotus pulcherrimus.  相似文献   

18.
Three different methods for the detection and isolation of RNA that contains poly A sequences are compared. All three methods selectively bind poly A containing sequences. However only the poly dT cellulose technique gave reproducible results and did not modify the binding characteristics of the RNA initially bound to the poly dT cellulose. The proportion of the total cellular RNA that contains poly A is about the same in the blastula and gastrula stages and is lower at cleavage. The kinetics of accumulation of RNA containing poly A for the blastula stage indicates extensive turnover of poly A containing material. RNA containing poly A is characterized by its heterogeneous sedimentation. Some of the RNA containing poly A is as large as 0.5 × 106 Daltons.  相似文献   

19.
20.
cAMP-dependent protein kinase in the supernatant fraction of the homogenate of sea urchin eggs and embryos obtained by centrifugation at 105,000g was investigated in the present study. In the previous report, the dissociation constant between cAMP-binding proteins and cAMP changed during the development. This suggests that the nature of cAMP-dependent protein kinase, which has been well established to be the major cAMP receptor, changes during the development. In the present study, four protein kinases were separated through DEAE-cellulose column from the supernatant of unfertilized egg homogenate. One of them was cAMP-dependent protein kinase. The others were cAMP-independent ones. One among them was phosvitin kinase, and the others were not identified at present. The activity of cAMP-dependent protein kinase gradually increased during a period from fertilization to the swimming blastula stage. During this period, cleavages occurred at a high rate, and the rate decreased after hatching out. Thus, it is supposed that cAMP-dependent protein kinase in the supernatant may take a part in the mechanism of cleavage. The activity, however, became very low at the mesenchyme blastula, the gastrula, and the pluteus stages. cAMP-binding capacity was observed in the sedimentable fraction and the supernatant fraction, respectively, obtained by 105,000g centrifugation at all stages examined. If the structure-bound cAMP-binding protein is also cAMP-dependent protein kinase, it may play different roles in the mechanism of development.  相似文献   

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