scholarly journals Metallothionein genes MTa and MTb expressed under distinct quantitative and tissue-specific regulation in sea urchin embryos.

1987 ◽  
Vol 7 (1) ◽  
pp. 48-58 ◽  
Author(s):  
D G Wilkinson ◽  
M Nemer
Keyword(s):  
Sea Urchin ◽  
Heavy Metal Ions ◽  
Threshold Level ◽  
Developmentally Regulated ◽  
Cdna Sequences ◽  
Endogenous Expression ◽  
Endogenous Level ◽  
Sea Urchin Embryo ◽  
Specific Regulation ◽  
High Level

Sea urchin embryo metallothionein (MT) mRNAs MTa and MTb have distinct cDNA sequences and are transcripts of different genes of a multigene family. These MT mRNAs differ in size and in their 3'-untranslated sequences. They encode proteins that are unusual among MT isotypes in that the relative positions of their cysteine residues are partially out of register, suggesting potential differences in function. In pluteus larvae MTa mRNA is expressed abundantly and exclusively in the ectoderm, while MTb mRNA, which is restricted to the endomesoderm at a low endogenous level, can be induced to a high level by heavy metal ions (M2+). MT mRNA is present in the maternal reservoir of the egg and is predominantly (greater than 95%) MTa mRNA. Endogenous expression in the embryo, which is at a much higher level than in the egg, requires M2+ for gene transcription, is developmentally regulated, and is greater than 90% MTa mRNA. When induced by added M2+, however, MTa and MTb mRNAs accumulate to almost equal levels. The differences in the ratios of MTa/MTb expressed endogenously and inductively are not attributable to differences in the stabilities of these MT mRNAs, which were observed under conditions of M2+ depletion, or in their inducibilities, which were observed at moderate to high M2+ levels. We found, instead, that the MTa gene responds to M2+ at a lower threshold level than MTb, so that at very low M2+ concentrations the ratio of induced MTa/MTb mRNA is high and equivalent to the endogenous ratio. Thus, endogenous expression of the MTa gene is selectively enhanced in the ectoderm by determinants that are responsive at low M2+ threshold concentrations.

Metallothionein genes MTa and MTb expressed under distinct quantitative and tissue-specific regulation in sea urchin embryos

1987 ◽  
Vol 7 (1) ◽  
pp. 48-58
Author(s):  
D G Wilkinson ◽  
M Nemer
Keyword(s):  
Sea Urchin ◽  
Heavy Metal Ions ◽  
Threshold Level ◽  
Developmentally Regulated ◽  
Cdna Sequences ◽  
Endogenous Expression ◽  
Endogenous Level ◽  
Sea Urchin Embryo ◽  
Specific Regulation ◽  
High Level

Sea urchin embryo metallothionein (MT) mRNAs MTa and MTb have distinct cDNA sequences and are transcripts of different genes of a multigene family. These MT mRNAs differ in size and in their 3'-untranslated sequences. They encode proteins that are unusual among MT isotypes in that the relative positions of their cysteine residues are partially out of register, suggesting potential differences in function. In pluteus larvae MTa mRNA is expressed abundantly and exclusively in the ectoderm, while MTb mRNA, which is restricted to the endomesoderm at a low endogenous level, can be induced to a high level by heavy metal ions (M2+). MT mRNA is present in the maternal reservoir of the egg and is predominantly (greater than 95%) MTa mRNA. Endogenous expression in the embryo, which is at a much higher level than in the egg, requires M2+ for gene transcription, is developmentally regulated, and is greater than 90% MTa mRNA. When induced by added M2+, however, MTa and MTb mRNAs accumulate to almost equal levels. The differences in the ratios of MTa/MTb expressed endogenously and inductively are not attributable to differences in the stabilities of these MT mRNAs, which were observed under conditions of M2+ depletion, or in their inducibilities, which were observed at moderate to high M2+ levels. We found, instead, that the MTa gene responds to M2+ at a lower threshold level than MTb, so that at very low M2+ concentrations the ratio of induced MTa/MTb mRNA is high and equivalent to the endogenous ratio. Thus, endogenous expression of the MTa gene is selectively enhanced in the ectoderm by determinants that are responsive at low M2+ threshold concentrations.

scholarly journals Functional Gap Junctions in the Early Sea Urchin Embryo Are Localized to the Vegetal Pole

1999 ◽  
Vol 212 (2) ◽  
pp. 503-510 ◽  
Author(s):  
Ikuko Yazaki ◽  
Brian Dale ◽  
Elisabetta Tosti
Keyword(s):  
Gap Junctions ◽  
Sea Urchin ◽  
Sea Urchin Embryo ◽  
Vegetal Pole

scholarly journals Exogenous hyalin and sea urchin gastrulation, Part II: hyalin, an interspecies cell adhesion molecule

Zygote ◽  
2008 ◽  
Vol 16 (1) ◽  
pp. 73-78 ◽  
Author(s):  
M. Alvarez ◽  
J. Nnoli ◽  
E.J. Carroll ◽  
V. Hutchins-Carroll ◽  
Z. Razinia ◽  
...  
Keyword(s):  
Sea Urchin ◽  
Cell Adhesion Molecule ◽  
Cellular Interaction ◽  
Adhesive Interaction ◽  
Lytechinus Pictus ◽  
Developmental Effects ◽  
Sea Urchin Embryo ◽  
Repeat Domain ◽  
Precise Quantification ◽  
Main Component

SummaryThe 330 kDa fibrillar glycoprotein hyalin is a well known component of the sea urchin embryo extracellular hyaline layer. Only recently, the main component of hyalin, the hyalin repeat domain, has been identified in organisms as widely divergent as bacteria and humans using the GenBank database and therefore its possible function has garnered a great deal of interest. In the sea urchin, hyalin serves as an adhesive substrate in the developing embryo and we have recently shown that exogenously added purified hyalin from Strongylocentrotus purpuratus embryos blocks a model cellular interaction in these embryos, archenteron elongation/attachment to the blastocoel roof. It is important to demonstrate the generality of this result by observing if hyalin from one species of sea urchin blocks archenteron elongation/attachment in another species. Here we show in three repeated experiments, with 30 replicate samples for each condition, that the same concentration of S. purpuratus hyalin (57 μg/ml) that blocked the interaction in living S. purpuratus embryos blocked the same interaction in living Lytechinus pictus embryos. These results correspond with the known crossreactivity of antibody against S. purpuratus hyalin with L. pictus hyalin. We propose that hyalin–hyalin receptor binding may mediate this adhesive interaction. The use of a microplate assay that allows precise quantification of developmental effects should help facilitate identification of the function of hyalin in organisms as divergent as bacteria and humans.

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