scholarly article | Q13442814 |
P50 | author | Ernest Arenas | Q38546514 |
Vítězslav Bryja | Q55756022 | ||
Emma R Andersson | Q59620835 | ||
P2093 | author name string | Terry P Yamaguchi | |
Kristin Biris | |||
Lenka Bryjova | |||
P2860 | cites work | Wnt induces LRP6 signalosomes and promotes dishevelled-dependent LRP6 phosphorylation | Q24310980 |
Wnt-5a inhibits the canonical Wnt pathway by promoting GSK-3-independent beta-catenin degradation | Q24319714 | ||
A member of the Frizzled protein family mediating axis induction by Wnt-5A | Q24324119 | ||
The Wnt signaling pathway in development and disease | Q27861019 | ||
Wnt-5a induces Dishevelled phosphorylation and dopaminergic differentiation via a CK1-dependent mechanism | Q28118927 | ||
LDL receptor-related proteins 5 and 6 in Wnt/beta-catenin signaling: arrows point the way | Q28256465 | ||
A Wnt5a pathway underlies outgrowth of multiple structures in the vertebrate embryo | Q28505232 | ||
Wnt5a functions in planar cell polarity regulation in mice | Q28505898 | ||
Dishevelled 2 is essential for cardiac outflow tract development, somite segmentation and neural tube closure | Q28507430 | ||
Female development in mammals is regulated by Wnt-4 signalling | Q28507770 | ||
Genetic interaction between Wnt7a and Lrp6 during patterning of dorsal and posterior structures of the mouse limb | Q28509181 | ||
Purified Wnt5a protein activates or inhibits beta-catenin-TCF signaling depending on receptor context | Q28510950 | ||
Wnt5a regulates ventral midbrain morphogenesis and the development of A9-A10 dopaminergic cells in vivo | Q28513819 | ||
The extracellular domain of Lrp5/6 inhibits noncanonical Wnt signaling in vivo | Q28588070 | ||
Convergent extension, planar-cell-polarity signalling and initiation of mouse neural tube closure | Q28588549 | ||
An LDL-receptor-related protein mediates Wnt signalling in mice | Q28588625 | ||
Purified Wnt-5a increases differentiation of midbrain dopaminergic cells and dishevelled phosphorylation | Q28588709 | ||
Ocular coloboma and dorsoventral neuroretinal patterning defects in Lrp6 mutant eyes | Q28593311 | ||
Delayed dopaminergic neuron differentiation in Lrp6 mutant mice | Q28594108 | ||
Skeletal defects in ringelschwanz mutant mice reveal that Lrp6 is required for proper somitogenesis and osteogenesis | Q28594731 | ||
A mechanism for Wnt coreceptor activation | Q28641243 | ||
Differential transformation of mammary epithelial cells by Wnt genes | Q28646632 | ||
Detection of messenger RNA by in situ hybridization to tissue sections and whole mounts | Q29618776 | ||
Lrp6 is required for convergent extension during Xenopus gastrulation | Q30650055 | ||
Heads or tails: Wnts and anterior-posterior patterning | Q34366233 | ||
Analysis of mutation rates in the SMCY/SMCX genes shows that mammalian evolution is male driven | Q34418917 | ||
T (Brachyury) is a direct target of Wnt3a during paraxial mesoderm specification. | Q35210431 | ||
Beta-arrestin is a necessary component of Wnt/beta-catenin signaling in vitro and in vivo. | Q35800324 | ||
Activities of the Wnt-1 class of secreted signaling factors are antagonized by the Wnt-5A class and by a dominant negative cadherin in early Xenopus development | Q36236916 | ||
Wnt-5/pipetail functions in vertebrate axis formation as a negative regulator of Wnt/beta-catenin activity. | Q36323273 | ||
Noncanonical Wnt signaling and neural polarity | Q36507595 | ||
Xwnt-5A: a maternal Wnt that affects morphogenetic movements after overexpression in embryos of Xenopus laevis | Q38532846 | ||
Injected Wnt RNA induces a complete body axis in Xenopus embryos | Q38533774 | ||
Dickkopf-1 regulates gastrulation movements by coordinated modulation of Wnt/beta catenin and Wnt/PCP activities, through interaction with the Dally-like homolog Knypek | Q42856607 | ||
Wnt5a is required for endothelial differentiation of embryonic stem cells and vascularization via pathways involving both Wnt/beta-catenin and protein kinase Calpha. | Q51944311 | ||
Wnt3a/beta-catenin signaling controls posterior body development by coordinating mesoderm formation and segmentation. | Q51971087 | ||
Wnt5a is required for cardiac outflow tract septation in mice | Q80362379 | ||
P433 | issue | 1 | |
P921 | main subject | Wingless-type MMTV integration site family, member 5A | Q21494665 |
Low density lipoprotein receptor-related protein 6 | Q21495922 | ||
P304 | page(s) | 237-245 | |
P577 | publication date | 2010-01-01 | |
P1433 | published in | Developmental Dynamics | Q59752 |
P1476 | title | Genetic interaction between Lrp6 and Wnt5a during mouse development | |
P478 | volume | 239 |
Q38039332 | Alternative Wnt pathways and receptors |
Q35624653 | Cell polarity: The missing link in skeletal morphogenesis? |
Q37392656 | EZH2-mediated repression of GSK-3β and TP53 promotes Wnt/β-catenin signaling-dependent cell expansion in cervical carcinoma |
Q43074642 | FGF23-induced hypophosphatemia persists in Hyp mice deficient in the WNT coreceptor Lrp6. |
Q39253940 | Frizzled 2 and frizzled 7 function redundantly in convergent extension and closure of the ventricular septum and palate: evidence for a network of interacting genes |
Q39880098 | Frizzled10 mediates WNT1 and WNT3A signaling in the dorsal spinal cord of the developing chick embryo |
Q38493615 | Gene expression profiling of HGF/Met activation in neonatal mouse heart |
Q27692072 | LRP5 and LRP6 in development and disease |
Q39374128 | Low-Density Lipoprotein Receptor-Related Proteins in Skeletal Development and Disease |
Q38605713 | Myeloid Wnt ligands are required for normal development of dermal lymphatic vasculature. |
Q64082646 | Non-canonical WNT-signaling controls differentiation of lymphatics and extension lymphangiogenesis via RAC and JNK signaling |
Q37619275 | Novel mutations in Lrp6 orthologs in mouse and human neural tube defects affect a highly dosage-sensitive Wnt non-canonical planar cell polarity pathway. |
Q37668913 | Spina Bifida: Pathogenesis, Mechanisms, and Genes in Mice and Humans |
Q52325935 | The non-canonical Wnt-PCP pathway shapes the caudal neural plate. |
Q90567115 | Update on the Role of the Non-Canonical Wnt/Planar Cell Polarity Pathway in Neural Tube Defects |
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