Search Results - "Dru, Philippe"

RAS-independent ERK activation by constitutively active KSR3 in non-chordate metazoa by Chessel, Aline, De Crozé, Noémie, Molina, Maria Dolores, Taberner, Laura, Dru, Philippe, Martin, Luc, Lepage, Thierry

“…During early development of the sea urchin embryo, activation of ERK signalling in mesodermal precursors is not triggered by extracellular RTK ligands but by a…”
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The genome of the jellyfish Clytia hemisphaerica and the evolution of the cnidarian life-cycle by Leclère, Lucas, Horin, Coralie, Chevalier, Sandra, Lapébie, Pascal, Dru, Philippe, Peron, Sophie, Jager, Muriel, Condamine, Thomas, Pottin, Karen, Romano, Séverine, Steger, Julia, Sinigaglia, Chiara, Barreau, Carine, Quiroga Artigas, Gonzalo, Ruggiero, Antonella, Fourrage, Cécile, Kraus, Johanna E. M., Poulain, Julie, Aury, Jean-Marc, Wincker, Patrick, Quéinnec, Eric, Technau, Ulrich, Manuel, Michaël, Momose, Tsuyoshi, Houliston, Evelyn, Copley, Richard R.

“…Jellyfish (medusae) are a distinctive life-cycle stage of medusozoan cnidarians. They are major marine predators, with integrated neurosensory, muscular and…”
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A wnt2 ortholog in the sea urchin Paracentrotus lividus by Robert, Nicolas, Hammami, Firas, Lhomond, Guy, Dru, Philippe, Lepage, Thierry, Schubert, Michael, Croce, Jenifer C.

“…Summary Members of the wnt gene family encode secreted glycoproteins that mediate critical intercellular communications in metazoans. Large‐scale genome and…”
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Differential responses to Wnt and PCP disruption predict expression and developmental function of conserved and novel genes in a cnidarian by Lapébie, Pascal, Ruggiero, Antonella, Barreau, Carine, Chevalier, Sandra, Chang, Patrick, Dru, Philippe, Houliston, Evelyn, Momose, Tsuyoshi

“…We have used Digital Gene Expression analysis to identify, without bilaterian bias, regulators of cnidarian embryonic patterning. Transcriptome comparison…”
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Cortical anchorages and cell type segregations of maternal postplasmic/PEM RNAs in ascidians by Paix, Alexandre, Yamada, Lixy, Dru, Philippe, Lecordier, Helene, Pruliere, Gerard, Chenevert, Janet, Satoh, Nori, Sardet, Christian

“…Ascidian postplasmic/PEM RNAs constitute a large class of cortical maternal RNAs which include developmental determinants (macho-1 and pem-1). We have analyzed…”
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The aPKC-PAR-6-PAR-3 cell polarity complex localizes to the centrosome attracting body, a macroscopic cortical structure responsible for asymmetric divisions in the early ascidian embryo by Patalano, Solenn, Prulière, Gérard, Prodon, François, Paix, Alexandre, Dru, Philippe, Sardet, Christian, Chenevert, Janet

“…Posterior blastomeres of 8-cell stage ascidian embryos undergo a series of asymmetric divisions that generate cells of unequal sizes and segregate muscle from…”
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Maternal determinants and mRNAs in the cortex of ascidian oocytes, zygotes and embryos by Sardet, Christian, Dru, Philippe, Prodon, François

“…The peripheral region of ascidian oocytes and zygotes contains five determinants for morphogenesis and differentiation of the embryo. The determinant for the…”
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Polarity of the ascidian egg cortex and relocalization of cER and mRNAs in the early embryo by Prodon, François, Dru, Philippe, Roegiers, Fabrice, Sardet, Christian

“…The mature ascidian oocyte is a large cell containing cytoplasmic and cortical domains polarized along a primary animal-vegetal (a-v) axis. The oocyte cortex…”
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The Mediterranean mussel Mytilus galloprovincialis: a novel model for developmental studies in mollusks by Miglioli, Angelica, Tredez, Marion, Boosten, Manon, Sant, Camille, Carvalho, João E, Dru, Philippe, Canesi, Laura, Schubert, Michael, Dumollard, Rémi

“…A model organism in developmental biology is defined by its experimental amenability and by resources created for the model system by the scientific community…”
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Identification of differentially expressed genes from multipotent epithelia at the onset of an asexual development by Ricci, Lorenzo, Chaurasia, Ankita, Lapébie, Pascal, Dru, Philippe, Helm, Rebecca R., Copley, Richard R., Tiozzo, Stefano

“…Organisms that have evolved alternative modes of reproduction, complementary to the sexual mode, are found across metazoans. The chordate Botryllus schlosseri…”
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From oocyte to 16‐cell stage: Cytoplasmic and cortical reorganizations that pattern the ascidian embryo by Sardet, Christian, Paix, Alexandre, Prodon, François, Dru, Philippe, Chenevert, Janet

“…The dorsoventral and anteroposterior axes of the ascidian embryo are defined before first cleavage by means of a series of reorganizations that reposition…”
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A minimal molecular toolkit for mineral deposition? Biochemistry and proteomics of the test matrix of adult specimens of the sea urchin Paracentrotus lividus by Karakostis, Konstantinos, Zanella-Cléon, Isabelle, Immel, Françoise, Guichard, Nathalie, Dru, Philippe, Lepage, Thierry, Plasseraud, Laurent, Matranga, Valeria, Marin, Frédéric

“…The sea urchin endoskeleton consists of a magnesium-rich biocalcite comprising a small amount of occluded organic macromolecules. This structure constitutes a…”
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Analysis of the P. lividus sea urchin genome highlights contrasting trends of genomic and regulatory evolution in deuterostomes by Marlétaz, Ferdinand, Couloux, Arnaud, Poulain, Julie, Labadie, Karine, Da Silva, Corinne, Mangenot, Sophie, Noel, Benjamin, Poustka, Albert J., Dru, Philippe, Pegueroles, Cinta, Borra, Marco, Lowe, Elijah K., Lhomond, Guy, Besnardeau, Lydia, Le Gras, Stéphanie, Ye, Tao, Gavriouchkina, Daria, Russo, Roberta, Costa, Caterina, Zito, Francesca, Anello, Letizia, Nicosia, Aldo, Ragusa, Maria Antonietta, Pascual, Marta, Molina, M. Dolores, Chessel, Aline, Di Carlo, Marta, Turon, Xavier, Copley, Richard R., Exposito, Jean-Yves, Martinez, Pedro, Cavalieri, Vincenzo, Ben Tabou de Leon, Smadar, Croce, Jenifer, Oliveri, Paola, Matranga, Valeria, Di Bernardo, Maria, Morales, Julia, Cormier, Patrick, Geneviève, Anne-Marie, Aury, Jean Marc, Barbe, Valérie, Wincker, Patrick, Arnone, Maria Ina, Gache, Christian, Lepage, Thierry

“…Sea urchins are emblematic models in developmental biology and display several characteristics that set them apart from other deuterostomes. To uncover the…”
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Differential Responses to Wnt and PCP Disruption Predict Expression and Developmental Function of Conserved and Novel Genes in a Cnidarian: e1004590 by Lapébie, Pascal, Ruggiero, Antonella, Barreau, Carine, Chevalier, Sandra, Chang, Patrick, Dru, Philippe, Houliston, Evelyn, Momose, Tsuyoshi

“…We have used Digital Gene Expression analysis to identify, without bilaterian bias, regulators of cnidarian embryonic patterning. Transcriptome comparison…”
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Rapidly Building Global Health Security Capacity — Uganda Demonstration Project, 2013 by Borchert, Jeff N., Tappero, Jordan W., Downing, Robert, Shoemaker, Trevor, Behumbiize, Prosper, Aceng, Jane, Makumbi, Issa, Dahlke, Melissa, Jarrar, Bassam, Lozano, Briana, Kasozi, Sam, Austin, Mark, Phillippe, Dru, Watson, Ian D., Evans, Tom J., Stotish, Timothy, Dowell, Scott F., Iademarco, Michael F., Ransom, Raymond, Balajee, Arunmozhi, Becknell, Kristin, Beauvais, Denise, Wuhib, Tadesse

“…Increasingly, the need to strengthen global capacity to prevent, detect, and respond to public health threats around the globe is being recognized. CDC, in…”
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Localization of domains within the Drosophila Ref(2)P protein involved in the intracellular control of sigma rhabdovirus multiplication by Wyers, F. (Centre National de la Recherche Scientifique, Gif sur Yvette, France.), Petitjean, A.M, Dru, P, Gay, P, Contamine, D

“…The ref(2)P gene of Drosophila melanogaster interferes with sigma rhabdovirus multiplication. This gene is highly variable, and the different alleles are…”
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Unusual variability of the Drosophila melanogaster ref(2)P protein which controls the multiplication of sigma rhabdovirus by Dru, P. (CNRS, Gif sur Yvette, France), Bras, F, Dezelee, S, Gay, P, Petitjean, A.M, Pierre-Deneubourg, A, Teninges, D, Contamine, D

“…The ref(2)P gene of Drosophila melanogaster was identified by the discovery of two alleles, P(o) and P(p), respectively, permissive and restrictive for sigma…”
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Immunological cross-reactions and interactions between the Drosophila melanogaster ref(2)P protein and sigma rhabdovirus proteins by Wyers, F. (Centre National de la Recherche Scientifique, Gif sur Yvette, France), Dru, P, Simonet, B, Contamine, D

“…The ref(2)P gene is one of the Drosophila melanogaster genes involved in the inhibition of sigma rhabdovirus multiplication. The partial restriction of viral…”
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