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PCP and Septins govern the polarized organization of the actin cytoskeleton during convergent extension. , Devitt CC., Curr Biol. February 5, 2024; 34 (3): 615-622.e4.
Mechanical control of neural plate folding by apical domain alteration. , Matsuda M., Nat Commun. December 20, 2023; 14 (1): 8475.
In vivo high-content imaging and regression analysis reveal non-cell autonomous functions of Shroom3 during neural tube closure. , Baldwin AT., Dev Biol. November 1, 2022; 491 105-112.
Distinct spatiotemporal contribution of morphogenetic events and mechanical tissue coupling during Xenopus neural tube closure. , Christodoulou N., Development. July 1, 2022; 149 (13):
Alignment of the cell long axis by unidirectional tension acts cooperatively with Wnt signalling to establish planar cell polarity. , Hirano S., Development. June 15, 2022; 149 (12):
Somitic mesoderm morphogenesis is necessary for neural tube closure during Xenopus development. , Christodoulou N., Front Cell Dev Biol. January 1, 2022; 10 1091629.
Frizzled3 inhibits Vangl2- Prickle3 association to establish planar cell polarity in the vertebrate neural plate. , Chuykin I., J Cell Sci. December 15, 2021; 134 (24):
The dorsal blastopore lip is a source of signals inducing planar cell polarity in the Xenopus neural plate. , Mancini P ., Biol Open. July 15, 2021; 10 (7):
Neural tube closure requires the endocytic receptor Lrp2 and its functional interaction with intracellular scaffolds. , Kowalczyk I., Development. January 26, 2021; 148 (2):
Pinhead signaling regulates mesoderm heterogeneity via FGF receptor-dependent pathway. , Ossipova O., Development. January 1, 2020;
Vangl2 coordinates cell rearrangements during gut elongation. , Dush MK., Dev Dyn. July 1, 2019; 248 (7): 569-582.
GPCR-independent activation of G proteins promotes apical cell constriction in vivo. , Marivin A., J Cell Biol. May 6, 2019; 218 (5): 1743-1763.
Par3 interacts with Prickle3 to generate apical PCP complexes in the vertebrate neural plate. , Chuykin I., Elife. September 26, 2018; 7
Spatial and temporal analysis of PCP protein dynamics during neural tube closure. , Butler MT., Elife. August 6, 2018; 7
CLAMP/Spef1 regulates planar cell polarity signaling and asymmetric microtubule accumulation in the Xenopus ciliated epithelia. , Kim SK., J Cell Biol. May 7, 2018; 217 (5): 1633-1641.
Mechanical Strain Determines Cilia Length, Motility, and Planar Position in the Left- Right Organizer. , Chien YH., Dev Cell. May 7, 2018; 45 (3): 316-330.e4.
hmmr mediates anterior neural tube closure and morphogenesis in the frog Xenopus. , Prager A., Dev Biol. October 1, 2017; 430 (1): 188-201.
A novel role of the organizer gene Goosecoid as an inhibitor of Wnt/PCP-mediated convergent extension in Xenopus and mouse. , Ulmer B., Sci Rep. February 21, 2017; 7 43010.
Wnt proteins can direct planar cell polarity in vertebrate ectoderm. , Chu CW., Elife. September 23, 2016; 5
Prickle3 synergizes with Wtip to regulate basal body organization and cilia growth. , Chu CW., Sci Rep. April 11, 2016; 6 24104.
c21orf59/ kurly Controls Both Cilia Motility and Polarization. , Jaffe KM., Cell Rep. March 1, 2016; 14 (8): 1841-9.
Identification of p62/ SQSTM1 as a component of non-canonical Wnt VANGL2- JNK signalling in breast cancer. , Puvirajesinghe TM., Nat Commun. January 12, 2016; 7 10318.
The involvement of PCP proteins in radial cell intercalations during Xenopus embryonic development. , Ossipova O., Dev Biol. December 15, 2015; 408 (2): 316-27.
Mechanical strain determines the axis of planar polarity in ciliated epithelia. , Chien YH., Curr Biol. November 2, 2015; 25 (21): 2774-2784.
Spatial and temporal aspects of Wnt signaling and planar cell polarity during vertebrate embryonic development. , Sokol SY ., Semin Cell Dev Biol. June 1, 2015; 42 78-85.
Planar polarization of Vangl2 in the vertebrate neural plate is controlled by Wnt and Myosin II signaling. , Ossipova O., Biol Open. April 24, 2015; 4 (6): 722-30.
The PDZ domain protein Mcc is a novel effector of non-canonical Wnt signaling during convergence and extension in zebrafish. , Young T., Development. September 1, 2014; 141 (18): 3505-16.
Role of Rab11 in planar cell polarity and apical constriction during vertebrate neural tube closure. , Ossipova O., Nat Commun. May 13, 2014; 5 3734.
The human PDZome: a gateway to PSD95-Disc large-zonula occludens (PDZ)-mediated functions. , Belotti E., Mol Cell Proteomics. September 1, 2013; 12 (9): 2587-603.
Variation in the schedules of somite and neural development in frogs. , Sáenz-Ponce N., Proc Natl Acad Sci U S A. December 11, 2012; 109 (50): 20503-7.
Polarity proteins are required for left- right axis orientation and twin-twin instruction. , Vandenberg LN., Genesis. March 1, 2012; 50 (3): 219-34.
Expression of Wnt signaling components during Xenopus pronephros development. , Zhang B., PLoS One. January 1, 2011; 6 (10): e26533.
Planar cell polarity enables posterior localization of nodal cilia and left- right axis determination during mouse and Xenopus embryogenesis. , Antic D., PLoS One. February 2, 2010; 5 (2): e8999.
Mouse prickle1, the homolog of a PCP gene, is essential for epiblast apical-basal polarity. , Tao H., Proc Natl Acad Sci U S A. August 25, 2009; 106 (34): 14426-31.
Planar cell polarity genes regulate polarized extracellular matrix deposition during frog gastrulation. , Goto T ., Curr Biol. April 26, 2005; 15 (8): 787-93.
Identification of novel genes affecting mesoderm formation and morphogenesis through an enhanced large scale functional screen in Xenopus. , Chen JA ., Mech Dev. March 1, 2005; 122 (3): 307-31.
Expression cloning screening of a unique and full-length set of cDNA clones is an efficient method for identifying genes involved in Xenopus neurogenesis. , Voigt J., Mech Dev. March 1, 2005; 122 (3): 289-306.
Neural tube closure requires Dishevelled-dependent convergent extension of the midline. , Wallingford JB ., Development. December 1, 2002; 129 (24): 5815-25.
The planar cell polarity gene strabismus regulates convergence and extension and neural fold closure in Xenopus. , Goto T ., Dev Biol. July 1, 2002; 247 (1): 165-81.