scholarly article | Q13442814 |
P50 | author | Jean-Pierre Saint-Jeannet | Q88409876 |
P2093 | author name string | Chang-Soo Hong | |
Arun Devotta | |||
P2860 | cites work | Functional and structural diversity of the human Dickkopf gene family | Q22010830 |
LDL-receptor-related proteins in Wnt signal transduction | Q24290392 | ||
Head inducer Dickkopf-1 is a ligand for Wnt coreceptor LRP6 | Q24291433 | ||
Second cysteine-rich domain of Dickkopf-2 activates canonical Wnt signaling pathway via LRP-6 independently of dishevelled | Q24292013 | ||
Regulation of Wnt/LRP signaling by distinct domains of Dickkopf proteins | Q24537749 | ||
Wnt/beta-catenin signaling: components, mechanisms, and diseases | Q24630938 | ||
Wnt/β-catenin signaling and disease | Q26823272 | ||
Current perspectives of the signaling pathways directing neural crest induction | Q27024905 | ||
LDL-receptor-related protein 6 is a receptor for Dickkopf proteins | Q28116567 | ||
Mutual antagonism between dickkopf1 and dickkopf2 regulates Wnt/beta-catenin signalling | Q28141530 | ||
Kremen2 modulates Dickkopf2 activity during Wnt/LRP6 signaling | Q28202999 | ||
Dickkopf1 is required for embryonic head induction and limb morphogenesis in the mouse | Q28204667 | ||
Maintenance of pluripotency in human and mouse embryonic stem cells through activation of Wnt signaling by a pharmacological GSK-3-specific inhibitor | Q29614622 | ||
Dickkopf-1 is a member of a new family of secreted proteins and functions in head induction | Q29616164 | ||
Appendix G: In Situ Hybridization: An Improved Whole-Mount Method for Xenopus Embryos | Q29620084 | ||
The WNT antagonist Dickkopf2 promotes angiogenesis in rodent and human endothelial cells | Q30499919 | ||
Regulation of dorsal fate in the neuraxis by Wnt-1 and Wnt-3a | Q33721756 | ||
Beta-catenin signaling activity dissected in the early Xenopus embryo: a novel antisense approach | Q33908686 | ||
Fgf8a induces neural crest indirectly through the activation of Wnt8 in the paraxial mesoderm | Q33922679 | ||
Dkk1 and Dkk2 regulate epicardial specification during mouse heart development | Q34047842 | ||
Establishing neural crest identity: a gene regulatory recipe | Q34999153 | ||
Epidermal keratin gene expressed in embryos of Xenopus laevis | Q35012917 | ||
The activity of Pax3 and Zic1 regulates three distinct cell fates at the neural plate border | Q35810702 | ||
Gene-regulatory interactions in neural crest evolution and development | Q35885247 | ||
Induction of the neural crest and the opportunities of life on the edge. | Q35909068 | ||
The canonical Wnt signaling antagonist DKK2 is an essential effector of PITX2 function during normal eye development | Q36663184 | ||
Function and biological roles of the Dickkopf family of Wnt modulators | Q36672665 | ||
Hindbrain-derived Wnt and Fgf signals cooperate to specify the otic placode in Xenopus | Q37021446 | ||
Sf3b4-depleted Xenopus embryos: A model to study the pathogenesis of craniofacial defects in Nager syndrome | Q37022749 | ||
Xenopus Zic-related-1 and Sox-2, two factors induced by chordin, have distinct activities in the initiation of neural induction | Q38338824 | ||
Injected Wnt RNA induces a complete body axis in Xenopus embryos | Q38533774 | ||
Xwnt-8, a Xenopus Wnt-1/int-1-related gene responsive to mesoderm-inducing growth factors, may play a role in ventral mesodermal patterning during embryogenesis. | Q38534026 | ||
Modulating Wnt Signaling Rescues Palate Morphogenesis in Pax9 Mutant Mice | Q38686251 | ||
Kremen is required for neural crest induction in Xenopus and promotes LRP6-mediated Wnt signaling. | Q40058106 | ||
MyoD expression in the forming somites is an early response to mesoderm induction in Xenopus embryos | Q40820088 | ||
The transcription factor Sox9 is required for cranial neural crest development in Xenopus. | Q43863973 | ||
Expression cloning of noggin, a new dorsalizing factor localized to the Spemann organizer in Xenopus embryos | Q44061010 | ||
FGF8 spliceforms mediate early mesoderm and posterior neural tissue formation in Xenopus | Q44437225 | ||
A Xenopus mRNA related to Drosophila twist is expressed in response to induction in the mesoderm and the neural crest | Q44762736 | ||
Injected Xwnt-8 RNA acts early in Xenopus embryos to promote formation of a vegetal dorsalizing center | Q45071731 | ||
The role of paraxial protocadherin in selective adhesion and cell movements of the mesoderm during Xenopus gastrulation | Q46195966 | ||
Dkk2 has a role in terminal osteoblast differentiation and mineralized matrix formation | Q46283325 | ||
Neural crest induction in Xenopus: evidence for a two-signal model. | Q46365285 | ||
Whole-Mount In Situ Hybridization of Xenopus Embryos | Q50223724 | ||
Neural crests are actively precluded from the anterior neural fold by a novel inhibitory mechanism dependent on Dickkopf1 secreted by the prechordal mesoderm. | Q51979531 | ||
Dkk2 plays an essential role in the corneal fate of the ocular surface epithelium. | Q52018931 | ||
Sox10 regulates the development of neural crest-derived melanocytes in Xenopus. | Q52103988 | ||
Expression of Pax-3 is initiated in the early neural plate by posteriorizing signals produced by the organizer and by posterior non-axial mesoderm. | Q52194790 | ||
Induction of the prospective neural crest of Xenopus. | Q52209849 | ||
Expression of Xenopus snail in mesoderm and prospective neural fold ectoderm. | Q52222450 | ||
Cell type-specific activation of actin genes in the early amphibian embryo | Q59054372 | ||
An interaction between dorsal and ventral regions of the marginal zone in early amphibian embryos | Q71270765 | ||
Functional analysis of Sox8 during neural crest development in Xenopus | Q80192408 | ||
P407 | language of work or name | English | Q1860 |
P577 | publication date | 2018-07-23 | |
P1433 | published in | eLife | Q2000008 |
P1476 | title | Dkk2 promotes neural crest specification by activating Wnt/β-catenin signaling in a GSK3β independent manner | |
P478 | volume | 7 |
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