| scholarly article | Q13442814 |
| P50 | author | Uri Frank | Q47220776 |
| Hakima Flici | Q50645811 | ||
| Yulia Kraus | Q79445927 | ||
| P2093 | author name string | Thomas Leitz | |
| Günter Plickert | |||
| Katrin Hensel | |||
| P2860 | cites work | How we are shaped: the biomechanics of gastrulation | Q30310766 |
| The bending of cell sheets--from folding to rolling | Q30429211 | ||
| Mechanisms of elongation in embryogenesis | Q30440545 | ||
| Collective migration of an epithelial monolayer in response to a model wound | Q30480278 | ||
| Gastrulation in the sea anemone Nematostella vectensis occurs by invagination and immigration: an ultrastructural study. | Q33231749 | ||
| Physical model of the dynamic instability in an expanding cell culture | Q33622073 | ||
| The hydroid Hydractinia: a versatile, informative cnidarian representative | Q34095030 | ||
| Composition and formation of intercellular junctions in epithelial cells | Q35019841 | ||
| Parallels between tissue repair and embryo morphogenesis | Q35805187 | ||
| Cell surface mechanics and the control of cell shape, tissue patterns and morphogenesis. | Q36887551 | ||
| Wnt/beta-catenin and noncanonical Wnt signaling interact in tissue evagination in the simple eumetazoan Hydra | Q37106903 | ||
| Apical constriction: a cell shape change that can drive morphogenesis. | Q37596612 | ||
| Hydractinia, a pioneering model for stem cell biology and reprogramming somatic cells to pluripotency | Q38017992 | ||
| Convergent extension: using collective cell migration and cell intercalation to shape embryos | Q38050734 | ||
| Vertex models of epithelial morphogenesis | Q38217518 | ||
| Ectopic activation of the canonical wnt signaling pathway affects ectodermal patterning along the primary axis during larval development in the anthozoan Nematostella vectensis | Q39019544 | ||
| ??? | Q51468616 | ||
| Early development and axis specification in the sea anemone Nematostella vectensis. | Q40180719 | ||
| Embryonic development in two species of scleractinian coral embryos: Symbiodinium localization and mode of gastrulation | Q40190573 | ||
| Role of boundary conditions in an experimental model of epithelial wound healing | Q40312777 | ||
| Structural but not functional conservation of an immune molecule: a tachylectin-like gene in Hydractinia. | Q40411372 | ||
| Apical contractility in growing epithelium supports robust maintenance of smooth curvatures against cell-division-induced mechanical disturbance | Q42438504 | ||
| An ultrastructural study of oocyte growth within the endoderm and entry into the mesoglea inActinia fragacea (Cnidaria, anthozoa) | Q42447074 | ||
| A conserved function for Strabismus in establishing planar cell polarity in the ciliated ectoderm during cnidarian larval development. | Q42514784 | ||
| An analysis of hydrozoan gastrulation by unipolar ingression | Q42515464 | ||
| An organizing region in metamorphosing hydrozoan planula larvae--stimulation of axis formation in both larval and in adult tissue | Q44790409 | ||
| Gastrulation in the cnidarian Nematostella vectensis occurs via invagination not ingression | Q46122916 | ||
| Lineage-specific evolution of cnidarian Wnt ligands. | Q46488088 | ||
| An evolutionary conserved role of Wnt signaling in stem cell fate decision. | Q46821603 | ||
| Myosin-dependent junction remodelling controls planar cell intercalation and axis elongation | Q47363099 | ||
| LWamides from Cnidaria constitute a novel family of neuropeptides with morphogenetic activity | Q47678324 | ||
| Wnt signaling in hydroid development: formation of the primary body axis in embryogenesis and its subsequent patterning. | Q50646361 | ||
| Multicellular rosette formation links planar cell polarity to tissue morphogenesis. | Q50713462 | ||
| Wnt signaling promotes oral but suppresses aboral structures in Hydractinia metamorphosis and regeneration. | Q51902580 | ||
| Animal pole determinants define oral-aboral axis polarity and endodermal cell-fate in hydrozoan jellyfish Podocoryne carnea. | Q52025629 | ||
| The role of oocyte maturation in the ontogeny of the fertilization site in the hydrozoan Hydractinia echinata. | Q52257688 | ||
| Active reinforcement of externally imposed folding in amphibians embryonic tissues. | Q53174608 | ||
| A REËXAMINATION OF THE CYTOLOGY OF HYDRACTINIA AND PENNARIA | Q56172528 | ||
| BIOLOGY OF HYDRACTINIID HYDROIDS. 4. ULTRASTRUCTURE OF THE PLANULA OFHYDRACTINIA ECHINATA | Q56188362 | ||
| P433 | issue | 6 | |
| P921 | main subject | Cnidaria | Q25441 |
| Hydractinia echinata | Q2325693 | ||
| P304 | page(s) | 323-338 | |
| P577 | publication date | 2014-10-23 | |
| P1433 | published in | Evolution & Development | Q5418582 |
| P1476 | title | The embryonic development of the cnidarian Hydractinia echinata | |
| P478 | volume | 16 |
| Q40820416 | Development and Symbiosis Establishment in the Cnidarian Endosymbiosis Model Aiptasia sp. |
| Q34045225 | Evo-devo of non-bilaterian animals |
| Q98177044 | Gene knockdown via electroporation of short hairpin RNAs in embryos of the marine hydroid Hydractinia symbiolongicarpus |
| Q50026633 | Germ-layer commitment and axis formation in sea anemone embryonic cell aggregates. |
| Q90746770 | The colonial cnidarian Hydractinia |
Search more.