| scholarly article | Q13442814 |
| P356 | DOI | 10.1006/DBIO.2000.9765 |
| P698 | PubMed publication ID | 10898962 |
| P50 | author | Kohji Hotta | Q55860245 |
| Yutaka Satou | Q42608497 | ||
| P2093 | author name string | Takahashi H | |
| Asakura T | |||
| Satoh N | |||
| Saitoh B | |||
| Takatori N | |||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Ciona intestinalis | Q2567701 |
| P304 | page(s) | 69-80 | |
| P577 | publication date | 2000-08-01 | |
| P1433 | published in | Developmental Biology | Q3025402 |
| P1476 | title | Characterization of Brachyury-downstream notochord genes in the Ciona intestinalis embryo | |
| P478 | volume | 224 |
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| Q58413852 | A genomewide survey of developmentally relevant genes in Ciona intestinalis |
| Q44436670 | A genomewide survey of developmentally relevant genes in Ciona intestinalis. IX. Genes for muscle structural proteins |
| Q42441021 | A genomewide survey of developmentally relevant genes in Ciona intestinalis. VII. Molecules involved in the regulation of cell polarity and actin dynamics. |
| Q44654552 | A morphological and genetic characterization of metamorphosis in the ascidian Boltenia villosa |
| Q34308025 | A one-dimensional model of PCP signaling: polarized cell behavior in the notochord of the ascidian Ciona |
| Q27316021 | An equatorial contractile mechanism drives cell elongation but not cell division |
| Q51984432 | Analysis of large scale expression sequenced tags (ESTs) from the anural ascidian, Molgula tectiformis. |
| Q40808092 | Anterior-posterior regionalized gene expression in the Ciona notochord |
| Q50625473 | Application of the cis-regulatory region of a heat-shock protein 70 gene to heat-inducible gene expression in the ascidian Ciona intestinalis. |
| Q52129137 | Ascidian Wnt-5 gene is involved in the morphogenetic movement of notochord cells. |
| Q93241563 | Ascidian notochord elongation |
| Q38327799 | Both the functional specificity and autoregulative activity of two ascidian T-box genes HrBra and HrTbx6 are likely to be mediated by the DNA-binding domain |
| Q42575476 | Brachyury null mutant-induced defects in juvenile ascidian endodermal organs |
| Q36547222 | Building divergent body plans with similar genetic pathways |
| Q50629847 | Chondroitin 6-O-sulfotransferases are required for morphogenesis of the notochord in the ascidian embryo. |
| Q41807115 | Chongmague reveals an essential role for laminin-mediated boundary formation in chordate convergence and extension movements |
| Q52120454 | Ciona intestinalis cDNA projects: expressed sequence tag analyses and gene expression profiles during embryogenesis. |
| Q35172990 | Ciona intestinalis: an emerging model for whole-genome analyses |
| Q36070210 | Ciona intestinalis: chordate development made simple |
| Q45935499 | Cloning and expression of Xenopus Prickle, an orthologue of a Drosophila planar cell polarity gene. |
| Q42262014 | Conservation of notochord gene expression across chordates: insights from the Leprecan gene family |
| Q61774115 | Developmental atlas of appendicularian Oikopleura dioica actins provides new insights into the evolution of the notochord and the cardio-paraxial muscle in chordates |
| Q38302367 | Direct activation by Ets and Zic is required for initial expression of the Brachyury gene in the ascidian notochord. |
| Q42582648 | Direct activation of a notochord cis-regulatory module by Brachyury and FoxA in the ascidian Ciona intestinalis. |
| Q94419119 | Dynamic interplay of cell fate, polarity and force generation in ascidian embryos |
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| Q33798542 | Evolutionary changes in the notochord genetic toolkit: a comparative analysis of notochord genes in the ascidian Ciona and the larvacean Oikopleura |
| Q34732176 | Evolutionary conservation of vertebrate notochord genes in the ascidian Ciona intestinalis |
| Q79193416 | FGF8/17/18 functions together with FGF9/16/20 during formation of the notochord in Ciona embryos |
| Q33274793 | From notochord formation to hereditary chordoma: the many roles of Brachyury |
| Q27316668 | Functional Brachyury binding sites establish a temporal read-out of gene expression in the Ciona notochord |
| Q47681066 | Functional and evolutionary insights from the Ciona notochord transcriptome. |
| Q79789136 | Gastrulation of Gastrotheca riobambae in comparison with other frogs |
| Q51983110 | Gene expression profile during the life cycle of the urochordate Ciona intestinalis. |
| Q27025482 | Gene regulatory systems that control gene expression in the Ciona embryo |
| Q34067533 | Genome-wide identification of tissue-specific enhancers in the Ciona tadpole |
| Q33209513 | Genomic resources for ascidians: sequence/expression databases and genome projects. |
| Q38047030 | How was the notochord born? |
| Q43723258 | Interaction of notochord-derived fibrinogen-like protein with Notch regulates the patterning of the central nervous system of Ciona intestinalis embryos |
| Q24324022 | LEPREL1, a novel ER and Golgi resident member of the Leprecan family |
| Q30926153 | Large scale EST analyses in Ciona intestinalis: its application as Northern blot analyses |
| Q51982975 | Lineage-independent mosaic expression and regulation of the Ciona multidom gene in the ancestral notochord. |
| Q38300358 | Microarray analysis of Tbx2-directed gene expression: a possible role in osteogenesis. |
| Q34503837 | Molecular studies of hemichordate development: a key to understanding the evolution of bilateral animals and chordates |
| Q57054411 | Multiple inputs into a posterior-specific regulatory network in the Ciona notochord |
| Q94492201 | Netrin expressed by the ventral ectoderm lineage guides mesoderm migration in epibolic gastrulation of the leech |
| Q38258917 | On a possible evolutionary link of the stomochord of hemichordates to pharyngeal organs of chordates |
| Q48430294 | Overlapping expression of FoxA and Zic confers responsiveness to FGF signaling to specify notochord in ascidian embryos. |
| Q34732894 | Patterning the marginal zone of early ascidian embryos: localized maternal mRNA and inductive interactions |
| Q91128934 | Positioning a multifunctional basic helix-loop-helix transcription factor within the Ciona notochord gene regulatory network |
| Q46222650 | Predictable mosaic transgene expression in ascidian embryos produced with a simple electroporation device |
| Q38572339 | Psf2 plays important roles in normal eye development in Xenopus laevis. |
| Q46544696 | Redeployment of germ layers related TFs shows regionalized expression during two non-embryonic developments |
| Q38333697 | Regulation of NF-kappaB/Rel by IkappaB is essential for ascidian notochord formation. |
| Q34645494 | Specification of developmental fates in ascidian embryos: molecular approach to maternal determinants and signaling molecules. |
| Q35618181 | T-box genes in early embryogenesis |
| Q52112439 | T-box time in England. |
| Q34124665 | T-targets: clues to understanding the functions of T-box proteins |
| Q30539785 | Tbx2/3 is an essential mediator within the Brachyury gene network during Ciona notochord development |
| Q58571319 | The Ciona Myogenic Regulatory Factor Functions as a Typical MRF but Possesses a Novel N-terminus that is Essential for Activity |
| Q97645866 | The Roles of Embryonic Transcription Factor BRACHYURY in Tumorigenesis and Progression |
| Q28188226 | The ascidian tadpole larva: comparative molecular development and genomics |
| Q42211731 | The evolutionarily conserved leprecan gene: its regulation by Brachyury and its role in the developing Ciona notochord |
| Q52165749 | The expression of nonchordate deuterostome Brachyury genes in the ascidian Ciona embryo can promote the differentiation of extra notochord cells. |
| Q42164448 | The identification of transcription factors expressed in the notochord of Ciona intestinalis adds new potential players to the brachyury gene regulatory network |
| Q39750801 | The prickle-related gene in vertebrates is essential for gastrulation cell movements |
| Q52017632 | Transcriptional regulation of ZicL in the Ciona intestinalis embryo. |
| Q38520593 | Zebrafish prickle, a modulator of noncanonical Wnt/Fz signaling, regulates gastrulation movements. |
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