SGEBP, a giant protein from starfish oocytes able to interact with ERK.

The mitogen-activated protein kinase (MAPK) pathway is a key regulator of animal meiotic divisions. It involves cascades of kinases whose specificity has been shown to depend on binding proteins acting as scaffolds. We searched for proteins interacting with starfish extracellular signal-regulated kinase (ERK) using the yeast two-hybrid system.

Evolution of cyclin B3 shows an abrupt three-fold size increase, due to the extension of a single exon in placental mammals, allowing for new protein-protein interactions.

Cyclin B3 evolution has the unique peculiarity of an abrupt 3-fold increase of the protein size in the mammalian lineage due to the extension of a single exon. We have analyzed the evolution of the gene to define the modalities of this event and the possible consequences on the function of the protein. Database searches can trace the appearance of the gene to the origin of metazoans.

CDK5 is present in sea urchin and starfish eggs and embryos and can interact with p35, cyclin E and cyclin B3.

While most cyclin-dependent kinases (CDKs) are involved in cell cycle control, CDK5 is mostly known for crucial functions in neurogenesis. However, we cloned sea urchin CDK5 from a two-cell stage cDNA library and found that the protein is present in eggs and embryos, up to the pluteus stage, but without associated kinase activity. To investigate the potential for nonneuronal roles, we screened a starfish cDNA library with the yeast two-hybrid system, for possible CDK5 partners.

Cyclin B synthesis and rapamycin-sensitive regulation of protein synthesis during starfish oocyte meiotic divisions.

Translation of cyclin mRNAs represents an important event for proper meiotic maturation and post-fertilization mitoses in many species. Translational control of cyclin B mRNA has been described to be achieved through two separate but related mechanisms: translational repression and polyadenylation. In this paper, we evaluated the contribution of global translational regulation by the cap-dependent translation repressor 4E-BP (eukaryotic initiation factor 4E-binding protein) on the cyclin B protein synthesis during meiotic maturation of the starfish oocytes.

CDC2L5, a Cdk-like kinase with RS domain, interacts with the ASF/SF2-associated protein p32 and affects splicing in vivo.

The human CDC2L5 gene encodes a protein of unknown physiological function. This protein is closely related to the cyclin-dependent kinase (Cdks) family and contains an arginine/serine-rich (RS) domain. The Cdks were first identified as crucial regulators of cell-cycle progression, more recently they were found to be involved in transcription and mRNA processing.

Natural synchronisation for the study of cell division in the green unicellular alga Ostreococcus tauri.

Ostreococcus tauri (Prasinophyceae) is a marine unicellular green alga which diverged early in the green lineage. The interest of O. tauri as a potential model to study plant cell division is based on its key phylogenetic position, its simple binary division, a very simple cellular organisation and now the availability of the full genome sequence.

Nuclear envelope breakdown may deliver an inhibitor of protein phosphatase 1 which triggers cyclin B translation in starfish oocytes.

In vertebrates, enhanced translation of mRNAs in oocytes and early embryos entering M-phase is thought to occur through polyadenylation, involving binding, hyperphosphorylation and proteolytic degradation of Aurora-activated CPEB. In starfish, an unknown component of the oocyte nucleus is required for cyclin B synthesis following the release of G2/prophase block by hormonal stimulation. We have found that CPEB cannot be hyperphosphorylated following hormonal stimulation in starfish oocytes from which the nucleus has been removed.

Atypical regulation of a green lineage-specific B-type cyclin-dependent kinase.

Cyclin-dependent kinases (CDKs) are the main regulators of cell cycle progression in eukaryotes. The role and regulation of canonical CDKs, such as the yeast (Saccharomyces cerevisiae) Cdc2 or plant CDKA, have been extensively characterized. However, the function of the plant-specific CDKB is not as well understood.

MAP kinases regulate unfertilized egg apoptosis and fertilization suppresses death via Ca2+ signaling.

The default fate for eggs from many species is death by apoptosis and thus, successful fertilization depends upon suppression of the maternal death program. Little is known about the molecular triggers which activate this process or how the fertilization signal suppresses the default maternal apoptotic pathway. The MAP kinase (MAPK) family member, ERK, plays a universal and critical role in several stages of oocyte meiotic maturation, and fertilization results in ERK inactivation.

Cybip, a starfish cyclin B-binding protein, is involved in meiotic M-phase exit.

We designed a screen to identify starfish oocyte proteins able to bind monomeric cyclin B by affinity chromatography on a cyclin B splice variant displaying low affinity for cdc2. We identified a 15kDa protein previously described as a cdk-binding protein [Biochim. Biophys.

Molecular cloning, gene localization, and structure of human cyclin B3.

Here we describe the molecular cloning of human cyclin B3, its localization, and its structure. It is localized in the subcentromeric region of the X chromosome, still not completely sequenced by the Human Genome Project. This cyclin B3 is unusually large for a mitotic cyclin.

Anti-peptide Antibody Identifies a 57 kDa Protein Tyrosine Kinase in the Sea Urchin Egg Cortex: (tyrosine kinase/fertilization/src/egg/antibody).

The egg plasma membrane and cortical structures are highly enriched in protein tyrosine kinase activity which is thought to play an important role in the fertilization process. In order to identify the tyrosine protein kinases in the egg cortex, a site directed polyclonal antibody was produced against a peptide duplicating a conserved region of the catalytic domain of the sea urchin c-abl gene product. The region chosen as an antigen had a high degree of homology (57%) to other protein tyrosine kinases.

Affinity Purification of Embryo Proteins Phosphorylated on Tyrosine In Vitro*: (phosphotyrosine/protein phosphorylation/fertilization/affinity chromatography/immobilized antibodies).

Fertilization of the sea urchin egg is accompanied by activation of one or more protein tyrosine kinases which have been shown to phosphorylate a restricted set of egg proteins in vitro. In order to characterize these tyrosine kinase substrates, we have used an antibody specific for phosphotyrosine to prepare an immunoaffinity column capable of binding phosphotyrosine containing proteins. This column bound five P-labelled proteins from detergent extracts of embryo membranes phosphorylated in vitro.

Changes in the Activity of the Maturation-Promoting Factor Are Correlated with Those of a Major Cyclic AMP and Calcium-Independent Protein Kinase During the First Mitotic Cell Cycles in the Early Starfish Embryo: (cell cycle/maturation-promoting factor/protein kinase/protein synthesis/starfish).

Many studies suggest that MPF activation depends on protein phosphorylation or that MPF is itself a protein kinase. In the present report, cyclic variations of MPF activity have been correlated in vivo with changes in the extent of protein phosphorylation or in vitro with changes of a major protein kinase during the first cell cycles of fertilized starfish eggs. This cycling protein kinase neither requires cAMP nor Ca .

One Millimeter large Oocytes as a Tool to Study Hormonal Control of Meiotic Maturation in Starfish: Role of the Nucleus in Hormone-stimulated Phosphorylation of Cytoplasmic Proteins: (nucleus/maturation-promoting factor/protein phosphorylation).

Single nuclei (germinal vesicles) manually isolated from large oocytes of the starfish Echinaster sepositus, as well as the complementary anucleated oocytes, were used to investigate the early changes of protein phosphorylation which occur from 1-MeAde addition to germinal vesicle breakdown (GVBD). Stimulation of protein phosphorylation was already evident in the nucleus shortly after 1-MeAde addition (18 min, thus about 0.40x the time required for GVBD), although it began first in the cytoplasm.

Acid Release at Activation and Fertilization of Starfish Oocytes.

Fertilization or activation by ionophore A 23187 induces a transient acid release in prophase-blocked and in maturing oocytes of Asterias rubens and Marthasterias glacialis. 1-Methyladenine-induced maturation is not accompanied by acid release. There is no significant difference in the kinetic and amount of acid release related to the nature of activation or the stage of oocytes in each species.