Abnormal lens morphogenesis and ectopic lens formation in the absence of beta-catenin function |
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Abrogation of E-cadherin-mediated cell-cell contact in mouse embryonic stem cells results in reversible LIF-independent self-renewal. |
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Analysis of regulatory elements of E-cadherin with reporter gene constructs in transgenic mouse embryos |
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Bedeutung der Mammaepithelien des Rindes für den selektiven Transport von Immunglobulinen aus dem Plasma in das Kolostralsekret |
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Beta-catenin directly regulates Islet1 expression in cardiovascular progenitors and is required for multiple aspects of cardiogenesis |
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beta-Catenin is not required for proliferation and differentiation of epidermal mouse keratinocytes |
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Beta catenin is required for maintenance of chromosomal stability in mouse embryonic stem cells = Beta Catenin wird zur Erhaltung von Pluripotenz in Stammzellen der Maus erforderlich |
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Beta-catenin-mediated cell-adhesion is vital for embryonic forebrain development |
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beta-Catenin regulates excitatory postsynaptic strength at hippocampal synapses |
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Biological and mathematical modeling of melanocyte development |
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Cadherin-catenin complex: Protein interactions and their implications for cadherin function |
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Cdx1::Cre allele for gene analysis in the extraembryonic ectoderm and the three germ layers of mice at mid-gastrulation. |
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Cell-to-cell contact and extracellular matrix |
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The conditional inactivation of the beta-catenin gene in endothelial cells causes a defective vascular pattern and increased vascular fragility |
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Conditional inactivation of the E-cadherin gene in thyroid follicular cells affects gland development but does not impair junction formation. |
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Contact inhibition of VEGF-induced proliferation requires vascular endothelial cadherin, beta-catenin, and the phosphatase DEP-1/CD148 |
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Differential requirements for β-catenin during mouse development |
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Direct binding of Lef1 to sites in the boz promoter may mediate pre-midblastula-transition activation of boz expression |
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Dissecting Wnt/beta-catenin signaling during gastrulation using RNA interference in mouse embryos |
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E-cadherin controls adherens junctions in the epidermis and the renewal of hair follicles |
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E-cadherin inhibits cell surface localization of the pro-migratory 5T4 oncofetal antigen in mouse embryonic stem cells |
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E-cadherin is a survival factor for the lactating mouse mammary gland |
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E-cadherin is essential for in vivo epidermal barrier function by regulating tight junctions |
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E-cadherin Is Required for the Correct Formation of Autotypic Adherens Junctions of the Outer Mesaxon but Not for the Integrity of Myelinated Fibers of Peripheral Nerves |
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E-cadherin is required for the proper activation of the Lifr/Gp130 signaling pathway in mouse embryonic stem cells. |
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Ectodermal Wnt3/beta-catenin signaling is required for the establishment and maintenance of the apical ectodermal ridge |
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Editor's Highlight: Identification and Characterization of Teratogenic Chemicals Using Embryonic Stem Cells Isolated From a Wnt/β-Catenin-Reporter Transgenic Mouse Line. |
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Formation of multiple hearts in mice following deletion of beta-catenin in the embryonic endoderm |
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François Jacob's spirit |
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Functional analysis of cis-regulatory elements controlling initiation and maintenance of early Cdx1 gene expression in the mouse |
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Gene replacement reveals a specific role for E-cadherin in the formation of a functional trophectoderm |
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Genetic dissection of cadherin function during nephrogenesis |
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Homeodomain-mediated beta-catenin-dependent switching events dictate cell-lineage determination |
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Identification of a Wnt/Dvl/beta-Catenin --> Pitx2 pathway mediating cell-type-specific proliferation during development |
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Inhibition of glycogen synthase kinase-3 alleviates Tcf3 repression of the pluripotency network and increases embryonic stem cell resistance to differentiation. |
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Lineage-specific requirements of beta-catenin in neural crest development |
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Lineage specification of parietal epithelial cells requires β-catenin/Wnt signaling |
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Long-range upstream and downstream enhancers control distinct subsets of the complex spatiotemporal Sox9 expression pattern |
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Maternal beta-catenin and E-cadherin in mouse development. |
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N-cadherin can structurally substitute for E-cadherin during intestinal development but leads to polyp formation |
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N-cadherin deficiency impairs pericyte recruitment, and not endothelial differentiation or sprouting, in embryonic stem cell-derived angiogenesis |
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N-cadherin expression regulation by microRNAs in the mouse developing neocortex = N-Cadherin-Expressionsregulation von microRNAs in der Maus entwickelt Neokortex |
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N-Cadherin Transsynaptically Regulates Short-Term Plasticity at Glutamatergic Synapses in Embryonic Stem Cell-Derived Neurons |
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Nanog is required for primitive endoderm formation through a non-cell autonomous mechanism. |
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Neural progenitors of the postnatal and adult mouse forebrain retain the ability to self-replicate, form neurospheres, and undergo multipotent differentiation in vivo |
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Postsynaptic and differential localization to neuronal subtypes of protocadherin beta16 in the mammalian central nervous system |
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Protein kinase CKII regulates the interaction of beta-catenin with alpha-catenin and its protein stability |
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Protocadherins |
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Replacement of E-cadherin by N-cadherin in the mammary gland leads to fibrocystic changes and tumor formation |
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Reptin and pontin antagonistically regulate heart growth in zebrafish embryos. |
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Simultaneous loss of beta- and gamma-catenin does not perturb hematopoiesis or lymphopoiesis |
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Stabilization of beta-catenin in the mouse zygote leads to premature epithelial-mesenchymal transition in the epiblast |
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Trimethylation and Acetylation of β-Catenin at Lysine 49 Represent Key Elements in ESC Pluripotency |
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Wnt/β-catenin signaling regulates telomerase in stem cells and cancer cells |
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Wnt3a-dependent and -independent protein interaction networks of chromatin-bound β-catenin in mouse embryonic stem cells. |
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Wnt3a plays a major role in the segmentation clock controlling somitogenesis |
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Le(x) glycan mediates homotypic adhesion of embryonal cells independently from E-cadherin: a preliminary note |
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