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Literature DB >> 2153316

Microinjection of a conserved peptide sequence of p34cdc2 induces a Ca2+ transient in oocytes.

A Picard¹, J C Cavadore, P Lory, J C Bernengo, C Ojeda, M Dorée.

Abstract

The product of the yeast cell cycle control gene cdc2, and its homologs in higher eukaryotes (p34cdc2), all contain a perfectly conserved sequence of 16 amino acids that has not been found in any other protein sequence. Microinjection of this peptide triggers a specific increase in the concentration of intracellular free Ca2+ that originates from intracellular stores in both starfish and Xenopus oocytes. Thus, p34cdc2 might interact through its conserved peptide domain with some component of the Ca2(+)-regulatory system.

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Year: 1990 PMID： 2153316 DOI： 10.1126/science.2153316

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

5 in total

4. Meiosis, egg activation, and nuclear envelope breakdown are differentially reliant on Ca2+, whereas germinal vesicle breakdown is Ca2+ independent in the mouse oocyte.

Authors: R M Tombes; C Simerly; G G Borisy; G Schatten
Journal: J Cell Biol Date: 1992-05 Impact factor: 10.539

5. Reducing inositol lipid hydrolysis, Ins(1,4,5)P3 receptor availability, or Ca2+ gradients lengthens the duration of the cell cycle in Xenopus laevis blastomeres.

Authors: J K Han; K Fukami; R Nuccitelli
Journal: J Cell Biol Date: 1992-01 Impact factor: 10.539

5 in total

Microinjection of a conserved peptide sequence of p34cdc2 induces a Ca2+ transient in oocytes.

1. An endogenous calcium oscillator may control early embryonic division.

2. Mutational analysis of the fission yeast p34cdc2 protein kinase gene.

3. Calcium dynamics during physiological acidification in Xenopus oocyte.

4. Meiosis, egg activation, and nuclear envelope breakdown are differentially reliant on Ca2+, whereas germinal vesicle breakdown is Ca2+ independent in the mouse oocyte.

5. Reducing inositol lipid hydrolysis, Ins(1,4,5)P3 receptor availability, or Ca2+ gradients lengthens the duration of the cell cycle in Xenopus laevis blastomeres.