| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/S0070-2153(04)62005-9 |
| P698 | PubMed publication ID | 15522741 |
| P2093 | author name string | Michael Klagsbrun | |
| Katsutoshi Goishi | |||
| P2860 | cites work | Vascularization of the mouse embryo: A study of flk‐1, tek, tie, and vascular endothelial growth factor expression during development | Q52208633 |
| Induction of recessive lethal and specific locus mutations in the zebrafish with ethyl nitrosourea | Q68203584 | ||
| Vascular endothelial growth factor and its receptors | Q71910454 | ||
| Roles for Fgf signaling during zebrafish fin regeneration | Q73849422 | ||
| Angiogenic network formation in the developing vertebrate trunk | Q73898704 | ||
| Convergence of distinct pathways to heart patterning revealed by the small molecule concentramide and the mutation heart-and-soul | Q74601216 | ||
| Neuropilin-1 is a placenta growth factor-2 receptor | Q77126823 | ||
| Drugs that induce repolarization abnormalities cause bradycardia in zebrafish | Q44365400 | ||
| Transmembrane sema4E guides branchiomotor axons to their targets in zebrafish. | Q44451984 | ||
| Inhibition of zebrafish epidermal growth factor receptor activity results in cardiovascular defects | Q44547164 | ||
| Semaphorin3D guides retinal axons along the dorsoventral axis of the tectum. | Q44728703 | ||
| Sensory nerves determine the pattern of arterial differentiation and blood vessel branching in the skin | Q46623662 | ||
| Positional cloning identifies zebrafish one-eyed pinhead as a permissive EGF-related ligand required during gastrulation | Q47073198 | ||
| Expression and mapping of duplicate neuropilin-1 and neuropilin-2 genes in developing zebrafish | Q47073354 | ||
| Semaphorin3a1 regulates angioblast migration and vascular development in zebrafish embryos | Q47073922 | ||
| gridlock, a localized heritable vascular patterning defect in the zebrafish | Q47073977 | ||
| sonic hedgehog and vascular endothelial growth factor act upstream of the Notch pathway during arterial endothelial differentiation | Q47074043 | ||
| tbx20, a new vertebrate T-box gene expressed in the cranial motor neurons and developing cardiovascular structures in zebrafish | Q47074187 | ||
| Cloning and embryonic expression of zebrafish neuropilin genes | Q47380985 | ||
| Semaphorin 3F is critical for development of limbic system circuitry and is required in neurons for selective CNS axon guidance events. | Q47724321 | ||
| Insights into early vasculogenesis revealed by expression of the ETS-domain transcription factor Fli-1 in wild-type and mutant zebrafish embryos | Q47891449 | ||
| Zebrafish semaphorin Z1b inhibits growing motor axons in vivo | Q47927084 | ||
| Molecular cloning, expression, and activity of zebrafish semaphorin Z1a. | Q47951997 | ||
| Vasculogenesis, angiogenesis, and growth factors: ephrins enter the fray at the border | Q47964362 | ||
| Analysis of a Zebrafish semaphorin reveals potential functions in vivo | Q47992819 | ||
| Molecular cloning and expression of two novel zebrafish semaphorins | Q47998921 | ||
| Anterior-posterior subdivision of the somite in embryonic zebrafish: implications for motor axon guidance | Q48006548 | ||
| Cloning and characterization of vascular endothelial growth factor (VEGF) from zebrafish, Danio rerio | Q48038832 | ||
| Neuropilin-semaphorin III/D-mediated chemorepulsive signals play a crucial role in peripheral nerve projection in mice | Q48042097 | ||
| A role for notochord in axial vascular development revealed by analysis of phenotype and the expression of VEGR-2 in zebrafish flh and ntl mutant embryos | Q48051417 | ||
| Vessel patterning in the embryo of the zebrafish: guidance by notochord | Q48052968 | ||
| Cellular and molecular mechanisms of embryonic haemangiogenesis and lymphangiogenesis | Q48745802 | ||
| Semaphorin-3F is an inhibitor of tumor angiogenesis. | Q51051924 | ||
| Flow regulates arterial-venous differentiation in the chick embryo yolk sac. | Q52096070 | ||
| Universal GFP reporter for the study of vascular development. | Q52163301 | ||
| Neuropilin-2 is required in vivo for selective axon guidance responses to secreted semaphorins. | Q52170285 | ||
| Sequence and embryonic expression of deltaC in the zebrafish. | Q52172693 | ||
| Neuropilin is a receptor for the axonal chemorepellent Semaphorin III | Q24310596 | ||
| Neuropilin is a semaphorin III receptor | Q24310629 | ||
| Neuropilin-1 is expressed by endothelial and tumor cells as an isoform-specific receptor for vascular endothelial growth factor | Q24321564 | ||
| Proteolytic processing regulates receptor specificity and activity of VEGF-C. | Q24532314 | ||
| Identification of a natural soluble neuropilin-1 that binds vascular endothelial growth factor: In vivo expression and antitumor activity | Q24677555 | ||
| The biology of VEGF and its receptors | Q27860704 | ||
| Neuropilin-2, a novel member of the neuropilin family, is a high affinity receptor for the semaphorins Sema E and Sema IV but not Sema III | Q28114812 | ||
| gridlock, an HLH gene required for assembly of the aorta in zebrafish | Q28138188 | ||
| Differential binding of vascular endothelial growth factor B splice and proteolytic isoforms to neuropilin-1 | Q28139948 | ||
| Neuropilin-2 is a receptor for the vascular endothelial growth factor (VEGF) forms VEGF-145 and VEGF-165 [corrected] | Q28140705 | ||
| Semaphorins A and E act as antagonists of neuropilin-1 and agonists of neuropilin-2 receptors | Q28141043 | ||
| Vascular endothelial growth factor C is required for sprouting of the first lymphatic vessels from embryonic veins | Q28186603 | ||
| Class 3 semaphorins control vascular morphogenesis by inhibiting integrin function | Q28189338 | ||
| A model for gene therapy of human hereditary lymphedema | Q28191040 | ||
| Neuropilin-2 is a receptor for semaphorin IV: insight into the structural basis of receptor function and specificity | Q28291642 | ||
| Semaphorin-neuropilin interactions underlying sympathetic axon responses to class III semaphorins | Q28293448 | ||
| Isolation of putative progenitor endothelial cells for angiogenesis | Q28302884 | ||
| Impaired myocardial angiogenesis and ischemic cardiomyopathy in mice lacking the vascular endothelial growth factor isoforms VEGF164 and VEGF188 | Q28507115 | ||
| Role of the Flt-1 receptor tyrosine kinase in regulating the assembly of vascular endothelium | Q28587604 | ||
| Cardiovascular failure in mouse embryos deficient in VEGF receptor-3 | Q28588628 | ||
| Failure of blood-island formation and vasculogenesis in Flk-1-deficient mice | Q28593600 | ||
| Preliminary note on the differentiation of angioblasts and the method by which they produce blood-vessels, blood-plasma and red blood-cells as seen in the living chick | Q29399498 | ||
| Patterns and emerging mechanisms of the angiogenic switch during tumorigenesis | Q29547178 | ||
| Effective targeted gene 'knockdown' in zebrafish | Q29547445 | ||
| Mechanisms of angiogenesis | Q29547485 | ||
| Heterozygous embryonic lethality induced by targeted inactivation of the VEGF gene | Q29547732 | ||
| Abnormal blood vessel development and lethality in embryos lacking a single VEGF allele | Q29547733 | ||
| Vascular-specific growth factors and blood vessel formation | Q29614780 | ||
| Vascular endothelial growth factor (VEGF) and its receptors | Q29615390 | ||
| In vivo imaging of embryonic vascular development using transgenic zebrafish | Q29619921 | ||
| Early adaptive responses of the vascular wall during venous arterialization in mice | Q30499404 | ||
| Zebrafish: a new model on the pharmaceutical catwalk | Q31154779 | ||
| Growth factors acting via endothelial cell-specific receptor tyrosine kinases: VEGFs, angiopoietins, and ephrins in vascular development | Q33633524 | ||
| Molecular angiogenesis | Q33696723 | ||
| Molecular and biological properties of vascular endothelial growth factor | Q33737216 | ||
| A gamma-secretase inhibitor blocks Notch signaling in vivo and causes a severe neurogenic phenotype in zebrafish | Q33758025 | ||
| Morpholino antisense oligomers: the case for an RNase H-independent structural type | Q33901587 | ||
| Zebrafish: a model system for the study of human disease | Q33927044 | ||
| Inhibition of zebrafish fgf8 pre-mRNA splicing with morpholino oligos: a quantifiable method for gene knockdown. | Q33953820 | ||
| Morpholino oligos: making sense of antisense? | Q33957798 | ||
| Turning mesoderm into blood: the formation of hematopoietic stem cells during embryogenesis | Q34007858 | ||
| Targeting of both mouse neuropilin-1 and neuropilin-2 genes severely impairs developmental yolk sac and embryonic angiogenesis | Q34019593 | ||
| Neuropilin-1 is required for vascular development and is a mediator of VEGF-dependent angiogenesis in zebrafish | Q34074705 | ||
| Differential expression of neuropilin-1 and neuropilin-2 in arteries and veins | Q34099220 | ||
| Molecular mechanisms of blood vessel growth | Q34134535 | ||
| Clinical translation of angiogenesis inhibitors | Q34152769 | ||
| Vegfc is required for vascular development and endoderm morphogenesis in zebrafish. | Q34165715 | ||
| Neurovascular congruence results from a shared patterning mechanism that utilizes Semaphorin3A and Neuropilin-1. | Q34181370 | ||
| Cell fate decisions in early blood vessel formation | Q34223103 | ||
| Vasculogenesis | Q34387300 | ||
| VEGF receptor signal transduction | Q34461939 | ||
| The neuropilins: multifunctional semaphorin and VEGF receptors that modulate axon guidance and angiogenesis | Q34498133 | ||
| Organogenesis--heart and blood formation from the zebrafish point of view | Q34499622 | ||
| The search for the hemangioblast | Q34532763 | ||
| The hemangioblast: a common progenitor of hematopoietic and endothelial cells | Q34532816 | ||
| The discovery of angiogenic factors: a historical review | Q34558863 | ||
| Notch cleavage: Nicastrin helps Presenilin make the final cut. | Q34574344 | ||
| Walking the walk: migration and other common themes in blood and vascular development | Q34602595 | ||
| Vasculogenesis and the search for the hemangioblast | Q34619720 | ||
| Endothelial cell dynamics and complexity theory | Q34633517 | ||
| Arteriolar and venular patterning in retinas of mice selectively expressing VEGF isoforms | Q34787725 | ||
| Gamma-secretase-mediated proteolysis in cell-surface-receptor signalling | Q34810184 | ||
| Arteries and veins: making a difference with zebrafish | Q34810312 | ||
| Cross-talk between hematopoiesis and angiogenesis signaling pathways | Q34873623 | ||
| Developmental plasticity in the cardiovascular system of fish, with special reference to the zebrafish | Q35005312 | ||
| Vascular endothelial growth factor (VEGF)-like protein from orf virus NZ2 binds to VEGFR2 and neuropilin-1 | Q35065442 | ||
| The role of neuropilin in vascular and tumor biology. | Q35076249 | ||
| Endothelial cell heterogeneity | Q35101946 | ||
| Endothelial signaling during development | Q35141786 | ||
| Chemical genetics: adding to the developmental biology toolbox | Q35174307 | ||
| SCL/Tal-1 transcription factor acts downstream of cloche to specify hematopoietic and vascular progenitors in zebrafish | Q35192744 | ||
| Zebrafish: a genetic model for vertebrate organogenesis and human disorders | Q35212803 | ||
| Molecular distinction between arteries and veins | Q35541174 | ||
| Zebrafish-Based Small Molecule Discovery | Q35570165 | ||
| Embryonic origins of mammalian hematopoiesis | Q35602904 | ||
| Notch function in the vasculature: insights from zebrafish, mouse and man. | Q35677633 | ||
| Discovery of semaphorin receptors, neuropilin and plexin, and their functions in neural development | Q35685275 | ||
| Spatially restricted patterning cues provided by heparin-binding VEGF-A control blood vessel branching morphogenesis | Q35804497 | ||
| Neuropilin-1 mediates collapsin-1/semaphorin III inhibition of endothelial cell motility: functional competition of collapsin-1 and vascular endothelial growth factor-165. | Q36382096 | ||
| Vascular endothelial growth factor receptor expression during embryogenesis and tissue repair suggests a role in endothelial differentiation and blood vessel growth | Q36561412 | ||
| Distinct requirements for zebrafish angiogenesis revealed by a VEGF-A morphant | Q36750445 | ||
| Direct evidence that the VEGF-specific antibody bevacizumab has antivascular effects in human rectal cancer | Q37219981 | ||
| Small molecule developmental screens reveal the logic and timing of vertebrate development | Q37276174 | ||
| The cloche and spadetail genes differentially affect hematopoiesis and vasculogenesis | Q38336476 | ||
| The vascular anatomy of the developing zebrafish: an atlas of embryonic and early larval development | Q40728953 | ||
| Semaphorin III is needed for normal patterning and growth of nerves, bones and heart | Q41159467 | ||
| Neuropilin-2 regulates the development of selective cranial and sensory nerves and hippocampal mossy fiber projections. | Q41723733 | ||
| Knockdown of zebrafish Fancd2 causes developmental abnormalities via p53-dependent apoptosis | Q41921644 | ||
| The related FLT4, FLT1, and KDR receptor tyrosine kinases show distinct expression patterns in human fetal endothelial cells | Q42704934 | ||
| Identification and expression of alternatively spliced aryl hydrocarbon nuclear translocator 2 (ARNT2) cDNAs from zebrafish with distinct functions | Q43509598 | ||
| UDP-glucose dehydrogenase required for cardiac valve formation in zebrafish. | Q43726666 | ||
| Gridlock signalling pathway fashions the first embryonic artery | Q43793660 | ||
| Loss of the VEGF(164) and VEGF(188) isoforms impairs postnatal glomerular angiogenesis and renal arteriogenesis in mice | Q44012161 | ||
| Dissection of angiogenic signaling in zebrafish using a chemical genetic approach | Q44043150 | ||
| Analysis of a zebrafish VEGF receptor mutant reveals specific disruption of angiogenesis | Q44113630 | ||
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | endothelium | Q111140 |
| Danio rerio | Q169444 | ||
| P304 | page(s) | 127-152 | |
| P577 | publication date | 2004-01-01 | |
| P1433 | published in | Current Topics in Developmental Biology | Q15745419 |
| P1476 | title | Vascular endothelial growth factor and its receptors in embryonic zebrafish blood vessel development | |
| P478 | volume | 62 |
| Q28586167 | Angiomotin regulates endothelial cell migration during embryonic angiogenesis |
| Q33558362 | Competitive binding between Seryl-tRNA synthetase/YY1 complex and NFKB1 at the distal segment results in differential regulation of human vegfa promoter activity during angiogenesis |
| Q37672460 | Current Perspectives on the Use of Anti-VEGF Drugs as Adjuvant Therapy in Glaucoma. |
| Q34740860 | Dihydroartemisinin promotes angiogenesis during the early embryonic development of zebrafish |
| Q36409283 | Dose-dependent effects of gamma radiation on the early zebrafish development and gene expression |
| Q36141653 | Duplicate VegfA genes and orthologues of the KDR receptor tyrosine kinase family mediate vascular development in the zebrafish |
| Q42343559 | GUCA1A mutation causes maculopathy in a five-generation family with a wide spectrum of severity. |
| Q45976237 | Microarray profiling reveals CXCR4a is downregulated by blood flow in vivo and mediates collateral formation in zebrafish embryos. |
| Q40343320 | Neuron restrictive silencer factor NRSF/REST is a transcriptional repressor of neuropilin-1 and diminishes the ability of semaphorin 3A to inhibit keratinocyte migration |
| Q36948568 | Neuropilin-1 in regulation of VEGF-induced activation of p38MAPK and endothelial cell organization |
| Q38292196 | Zebrafish Sox7 and Sox18 function together to control arterial-venous identity. |
| Q96303579 | Zebrafish xenografts as a fast screening platform for bevacizumab cancer therapy |
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