| scholarly article | Q13442814 |
| P2093 | author name string | C Brennan | |
| N Holder | |||
| A W Boyd | |||
| B Evans | |||
| C Do | |||
| A C Oates | |||
| M Lackmann | |||
| M A Power | |||
| L M Down | |||
| P2860 | cites work | Targeted expression of a dominant negative FGF receptor blocks branching morphogenesis and epithelial differentiation of the mouse lung. | Q40792578 |
| Transparent things: cell fates and cell movements during early embryogenesis of zebrafish | Q40925811 | ||
| Mapping vertebrate embryos | Q41010345 | ||
| Novel gene families involved in neural pathfinding | Q41100006 | ||
| Eph receptor tyrosine kinases and their ligands in neural development | Q41103253 | ||
| Topographically specific effects of ELF-1 on retinal axon guidance in vitro and retinal axon mapping in vivo | Q41168628 | ||
| The Eph kinase ligand AL-1 is expressed by rostral muscles and inhibits outgrowth from caudal neurons | Q41245219 | ||
| Molecular biology of axon guidance | Q41290845 | ||
| Formation and function of Spemann's organizer | Q41689393 | ||
| Evidence for epidermal growth factor (EGF)-induced intermolecular autophosphorylation of the EGF receptors in living cells | Q42025518 | ||
| Function of the Eph-related kinase rtk1 in patterning of the zebrafish forebrain | Q47073986 | ||
| Signaling by Eph receptors and their ephrin ligands | Q47754321 | ||
| Interaction of EphB2-tyrosine kinase receptor and its ligand conveys dorsalization signal in Xenopus laevis development | Q48012427 | ||
| Distinct and overlapping expression patterns of ligands for Eph-related receptor tyrosine kinases during mouse embryogenesis | Q48058495 | ||
| Pagliaccio, a member of the Eph family of receptor tyrosine kinase genes, has localized expression in a subset of neural crest and neural tissues in Xenopus laevis embryos | Q48082310 | ||
| Ephrin-A5 (AL-1/RAGS) is essential for proper retinal axon guidance and topographic mapping in the mammalian visual system | Q48517864 | ||
| The expression pattern of the mouse receptor tyrosine kinase gene MDK1 is conserved through evolution and requires Hoxa-2 for rhombomere-specific expression in mouse embryos | Q48955238 | ||
| Disruption of cell adhesion in Xenopus embryos by Pagliaccio, an Eph-class receptor tyrosine kinase. | Q52199338 | ||
| A mutation that changes cell movement and cell fate in the zebrafish embryo. | Q52247647 | ||
| Somitogenesis: segmenting a vertebrate | Q60492569 | ||
| Induction of muscle pioneers and floor plate is distinguished by the zebrafish no tail mutation | Q70488225 | ||
| Eph receptors discriminate specific ligand oligomers to determine alternative signaling complexes, attachment, and assembly responses | Q24316974 | ||
| Molecular distinction and angiogenic interaction between embryonic arteries and veins revealed by ephrin-B2 and its receptor Eph-B4 | Q24336334 | ||
| Molecular cloning of HEK, the gene encoding a receptor tyrosine kinase expressed by human lymphoid tumor cell lines | Q24562958 | ||
| Molecular characterization of a family of ligands for eph-related tyrosine kinase receptors | Q24594149 | ||
| Eph signaling is required for segmentation and differentiation of the somites | Q24596675 | ||
| Stages of embryonic development of the zebrafish | Q27860947 | ||
| Ligands for EPH-related receptor tyrosine kinases that require membrane attachment or clustering for activity | Q28241585 | ||
| Ligand for EPH-related kinase (LERK) 7 is the preferred high affinity ligand for the HEK receptor | Q28241723 | ||
| Roles of Eph receptors and ephrins in neural crest pathfinding | Q28250439 | ||
| The Eph family of receptors | Q28251298 | ||
| The VAB-1 Eph receptor tyrosine kinase functions in neural and epithelial morphogenesis in C. elegans | Q28264908 | ||
| The ephrins and Eph receptors in neural development | Q28266706 | ||
| Distinct subdomains of the EphA3 receptor mediate ligand binding and receptor dimerization | Q28278017 | ||
| Eph receptors and ligands comprise two major specificity subclasses and are reciprocally compartmentalized during embryogenesis | Q28286738 | ||
| Role of B61, the ligand for the Eck receptor tyrosine kinase, in TNF-alpha-induced angiogenesis | Q28287785 | ||
| Complementary gradients in expression and binding of ELF-1 and Mek4 in development of the topographic retinotectal projection map | Q28295221 | ||
| Cloning of AL-1, a ligand for an Eph-related tyrosine kinase receptor involved in axon bundle formation | Q28576655 | ||
| Dominant-negative and targeted null mutations in the endothelial receptor tyrosine kinase, tek, reveal a critical role in vasculogenesis of the embryo | Q28586040 | ||
| The molecular biology of axon guidance | Q29617857 | ||
| Shared and distinct functions of RAGS and ELF-1 in guiding retinal axons | Q33886245 | ||
| In vitro guidance of retinal ganglion cell axons by RAGS, a 25 kDa tectal protein related to ligands for Eph receptor tyrosine kinases | Q34058301 | ||
| Identification of novel protein kinases expressed in the myocardium of the developing mouse heart | Q34321113 | ||
| Cloning of the zebrafish krox-20 gene (krx-20) and its expression during hindbrain development | Q34362663 | ||
| Loss of cell adhesion in Xenopus laevis embryos mediated by the cytoplasmic domain of XLerk, an erythropoietin-producing hepatocellular ligand. | Q35739762 | ||
| Identification and cloning of ELF-1, a developmentally expressed ligand for the Mek4 and Sek receptor tyrosine kinases | Q36676147 | ||
| Purification of a ligand for the EPH-like receptor HEK using a biosensor-based affinity detection approach | Q37696894 | ||
| Characterisation of five novel zebrafish Eph-related receptor tyrosine kinases suggests roles in patterning the neural plate | Q38456447 | ||
| Guidance and induction of branch formation in developing axons by target-derived diffusible factors | Q40540492 | ||
| Vertebrate embryonic induction: mesodermal and neural patterning | Q40639590 | ||
| P433 | issue | 1-2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | gastrulation | Q1141026 |
| Eph receptor A3 | Q29824616 | ||
| Ephrin-A5b | Q29826262 | ||
| P304 | page(s) | 77-94 | |
| P577 | publication date | 1999-05-01 | |
| P1433 | published in | Mechanisms of Development | Q6804657 |
| P1476 | title | An early developmental role for eph-ephrin interaction during vertebrate gastrulation | |
| P478 | volume | 83 |
| Q92886775 | Antitumour activity and tolerability of an EphA2-targeted nanotherapeutic in multiple mouse models |
| Q28214281 | Characterization of the Epha1 receptor tyrosine kinase: expression in epithelial tissues |
| Q37139551 | Conservation and early expression of zebrafish tyrosine kinases support the utility of zebrafish as a model for tyrosine kinase biology. |
| Q33941577 | Control of cell behaviour by signalling through Eph receptors and ephrins. |
| Q34783796 | Convergence and extension in vertebrate gastrulae: cell movements according to or in search of identity? |
| Q37677825 | Copy number variation analysis in 98 individuals with PHACE syndrome |
| Q35695511 | Dedifferentiation of patient-derived glioblastoma multiforme cell lines results in a cancer stem cell-like state with mitogen-independent growth |
| Q21328694 | Eph receptors and ephrin ligands: important players in angiogenesis and tumor angiogenesis |
| Q37971902 | Eph-dependent cell-cell adhesion and segregation in development and cancer. |
| Q37120500 | Eph/ephrin signaling maintains the boundary of dorsal forerunner cell cluster during morphogenesis of the zebrafish embryonic left-right organizer |
| Q38267753 | EphA3 biology and cancer. |
| Q40365399 | EphB4 receptor tyrosine kinase is expressed in bladder cancer and provides signals for cell survival. |
| Q44569763 | Ephs and ephrins during early stages of chick embryogenesis |
| Q43638563 | Expression of the receptor tyrosine kinase gene EphB3 during early stages of chick embryo development |
| Q30974711 | Form of the worm: genetics of epidermal morphogenesis in C. elegans |
| Q54120207 | Genome-Wide Identification and Characterization of Tyrosine Kinases in the Silkworm, Bombyx mori. |
| Q33612699 | High expression of EphA3 (erythropoietin-producing hepatocellular A3) in gastric cancer is associated with metastasis and poor survival. |
| Q34566091 | Hypoxia-controlled EphA3 marks a human endometrium-derived multipotent mesenchymal stromal cell that supports vascular growth |
| Q24815816 | Investigation of the expression of the EphB4 receptor tyrosine kinase in prostate carcinoma. |
| Q34068064 | Lzts2 regulates embryonic cell movements and dorsoventral patterning through interaction with and export of nuclear β-catenin in zebrafish |
| Q28205325 | Multiple roles of EPH receptors and ephrins in neural development |
| Q47073091 | Nlz belongs to a family of zinc-finger-containing repressors and controls segmental gene expression in the zebrafish hindbrain |
| Q34251271 | Pair-wise regulation of convergence and extension cell movements by four phosphatases via RhoA |
| Q48059735 | Pioneer of Eph biology and therapeutics: Martin Lackmann (1956-2014). |
| Q24798176 | Receptor protein tyrosine kinase EphB4 is up-regulated in colon cancer |
| Q35221906 | Receptor tyrosine kinase EphB4 is a survival factor in breast cancer |
| Q47073918 | Role of the zebrafish trilobite locus in gastrulation movements of convergence and extension |
| Q30458286 | Setdb2 controls convergence and extension movements during zebrafish gastrulation by transcriptional regulation of dvr1. |
| Q28210262 | Signals from Eph and ephrin proteins: a developmental tool kit |
| Q36845712 | Zebrafish gastrulation: cell movements, signals, and mechanisms |
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