| Title | Journal | Author(s) | Aniseed Data | PMID/DOI |
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| Sequential and combinatorial inputs from Nodal, Delta2/Notch and FGF/MEK/ERK signalling pathways establish a grid-like organisation of distinct cell identities in the ascidian neural plate. | Development 2007; 134; 19:3527-37 | Hudson C, Lotito S, Yasuo H |
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| A Boolean Function for Neural Induction Reveals a Critical Role of Direct Intercellular Interactions in Patterning the Ectoderm of the Ascidian Embryo. | PLoS Comput. Biol. 2015; 11; 12:e1004687 | Ohta N, Waki K, Mochizuki A, Satou Y |
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| Snail mediates medial-lateral patterning of the ascidian neural plate. | Dev. Biol. 2015; 403; 2:172-9 | Hudson C, Sirour C, Yasuo H |
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| A Maternal System Initiating the Zygotic Developmental Program through Combinatorial Repression in the Ascidian Embryo. | PLoS Genet. 2016; 12; 5:e1006045 | Oda-Ishii I, Kubo A, Kari W, Suzuki N, Rothbächer U, Satou Y |
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| A time delay gene circuit is required for palp formation in the ascidian embryo. | Development 2013; 140; 23:4703-8 | Ikeda T, Matsuoka T, Satou Y |
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| Islet is a key determinant of ascidian palp morphogenesis. | Development 2014; 141; 15:3084-92 | Wagner E, Stolfi A, Gi Choi Y, Levine M |
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| Differential gene expression along the animal-vegetal axis in the ascidian embryo is maintained by a dual functional protein Foxd. | PLoS Genet. 2017; 13; 5:e1006741 | Tokuhiro S, Tokuoka M, Kobayashi K, Kubo A, Oda-Ishii I, Satou Y |
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| Antagonizing retinoic acid and FGF/MAPK pathways control posterior body patterning in the invertebrate chordate Ciona intestinalis. | PLoS ONE 2012; 7; 9:e46193 | Pasini A, Manenti R, Rothbächer U, Lemaire P |
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| Novel genes involved in canonical Wnt/beta-catenin signaling pathway in early Ciona intestinalis embryos. | Dev. Growth Differ. 2008; 50; 4:215-27 | Wada S, Hamada M, Kobayashi K, Satoh N |
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| FGF8/17/18 functions together with FGF9/16/20 during formation of the notochord in Ciona embryos. | Dev. Biol. 2007; 302; 1:92-103 | Yasuo H, Hudson C |
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| Induction of anterior neural fates in the ascidian Ciona intestinalis. | Mech. Dev. 2001; 100; 2:189-203 | Hudson C, Lemaire P |
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| Gene expression profiles in Ciona intestinalis tailbud embryos. | Development 2001; 128; 15:2893-904 | Satou Y, Takatori N, Yamada L, Mochizuki Y, Hamaguchi M, Ishikawa H, Chiba S, Imai K, Kano S, Murakami S, Nakayama A, Nishino A, Sasakura Y, Satoh G, Shimotori T, Shin-I T, Shoguchi E, Suzuki M, Takada N, Utsumi N, Yoshida N, Saiga H, Kohara Y, Satoh N |
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| Region specific gene expressions in the central nervous system of the ascidian embryo. | Gene Expr. Patterns 2002; 2; 3-4:319-21 | Imai K, Satoh N, Satou Y |
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| A conserved role for the MEK signalling pathway in neural tissue specification and posteriorisation in the invertebrate chordate, the ascidian Ciona intestinalis. | Development 2003; 130; 1:147-59 | Hudson C, Darras S, Caillol D, Yasuo H, Lemaire P |
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| Gene expression profiles of transcription factors and signaling molecules in the ascidian embryo: towards a comprehensive understanding of gene networks. | Development 2004; 131; 16:4047-58 | Imai K, Hino K, Yagi K, Satoh N, Satou Y |
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| Three distinct lineages of mesenchymal cells in Ciona intestinalis embryos demonstrated by specific gene expression. | Dev. Biol. 2004; 274; 1:211-24 | Tokuoka M, Imai K, Satou Y, Satoh N |
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| Patterning across the ascidian neural plate by lateral Nodal signalling sources. | Development 2005; 132; 6:1199-210 | Hudson C, Yasuo H |
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| Regulatory blueprint for a chordate embryo. | Science 2006; 312; 5777:1183-7 | Imai K, Levine M, Satoh N, Satou Y |
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| Formation of the ascidian epidermal sensory neurons: insights into the origin of the chordate peripheral nervous system. | PLoS Biol. 2006; 4; 7:e225 | Pasini A, Amiel A, Rothbächer U, Roure A, Lemaire P, Darras S |
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| Distinct regulation of in two muscle lineages of the ascidian embryo achieves temporal coordination of muscle development. | Development 2018; 145; 11: | Tokuoka M, Kobayashi K, Satou Y |
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| FGF signaling delineates the cardiac progenitor field in the simple chordate, Ciona intestinalis. | Genes Dev. 2006; 20; 19:2728-38 | Davidson B, Shi W, Beh J, Christiaen L, Levine M |
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| Co-expression of Foxa.a, Foxd and Fgf9/16/20 defines a transient mesendoderm regulatory state in ascidian embryos. | Elife 2016; 5; : | Hudson C, Sirour C, Yasuo H |
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| A Simple Method to Identify Ascidian Brain Lineage Cells at Neural Plate Stages Following In Situ Hybridization. | Methods Mol Biol 2020; 2047; :325-345 | Hudson C |
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| Gene regulatory networks underlying the compartmentalization of the Ciona central nervous system. | Development 2009; 136; 2:285-93 | Imai K, Stolfi A, Levine M, Satou Y |
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| Neural tissue in ascidian embryos is induced by FGF9/16/20, acting via a combination of maternal GATA and Ets transcription factors. | Cell 2003; 115; 5:615-27 | Bertrand V, Hudson C, Caillol D, Popovici C, Lemaire P |
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| Ci-Rga, a gene encoding an MtN3/saliva family transmembrane protein, is essential for tissue differentiation during embryogenesis of the ascidian Ciona intestinalis. | Differentiation 2005; 73; 7:364-76 | Hamada M, Wada S, Kobayashi K, Satoh N |
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