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A novel role for Ascl1 in the regulation of mesendoderm formation via HDAC-dependent antagonism of VegT. , Gao L., Development. February 1, 2016; 143 (3): 492-503.
Noggin4 is a long-range inhibitor of Wnt8 signalling that regulates head development in Xenopus laevis. , Eroshkin FM., Sci Rep. January 22, 2016; 6 23049.
Sox5 Is a DNA-binding cofactor for BMP R-Smads that directs target specificity during patterning of the early ectoderm. , Nordin K., Dev Cell. November 10, 2014; 31 (3): 374-382.
NEDD4L regulates convergent extension movements in Xenopus embryos via Disheveled-mediated non-canonical Wnt signaling. , Zhang Y ., Dev Biol. August 1, 2014; 392 (1): 15-25.
An essential role for LPA signalling in telencephalon development. , Geach TJ ., Development. February 1, 2014; 141 (4): 940-9.
Inositol kinase and its product accelerate wound healing by modulating calcium levels, Rho GTPases, and F-actin assembly. , Soto X ., Proc Natl Acad Sci U S A. July 2, 2013; 110 (27): 11029-34.
Conserved structural domains in FoxD4L1, a neural forkhead box transcription factor, are required to repress or activate target genes. , Klein SL., PLoS One. April 4, 2013; 8 (4): e61845.
Essential role of AWP1 in neural crest specification in Xenopus. , Seo JH., Int J Dev Biol. January 1, 2013; 57 (11-12): 829-36.
Klf4 is required for germ-layer differentiation and body axis patterning during Xenopus embryogenesis. , Cao Q., Development. November 1, 2012; 139 (21): 3950-61.
Specific domains of FoxD4/5 activate and repress neural transcription factor genes to control the progression of immature neural ectoderm to differentiating neural plate. , Neilson KM ., Dev Biol. May 15, 2012; 365 (2): 363-75.
Transcriptional activation by Oct4 is sufficient for the maintenance and induction of pluripotency. , Hammachi F., Cell Rep. February 23, 2012; 1 (2): 99-109.
Novel functions of Noggin proteins: inhibition of Activin/ Nodal and Wnt signaling. , Bayramov AV., Development. December 1, 2011; 138 (24): 5345-56.
Prohibitin1 acts as a neural crest specifier in Xenopus development by repressing the transcription factor E2F1. , Schneider M., Development. December 1, 2010; 137 (23): 4073-81.
Participation of Xenopus Elr-type proteins in vegetal mRNA localization during oogenesis. , Arthur PK., J Biol Chem. July 24, 2009; 284 (30): 19982-92.
The efficiency of Xenopus primordial germ cell migration depends on the germplasm mRNA encoding the PDZ domain protein Grip2. , Kirilenko P., Differentiation. April 1, 2008; 76 (4): 392-403.
The Gata5 target, TGIF2, defines the pancreatic region by modulating BMP signals within the endoderm. , Spagnoli FM ., Development. February 1, 2008; 135 (3): 451-61.
Regulation of the response to Nodal-mediated mesoderm induction by Xrel3. , Kennedy MW ., Dev Biol. November 15, 2007; 311 (2): 383-95.
XSUMO-1 is required for normal mesoderm induction and axis elongation during early Xenopus development. , Yukita A., Dev Dyn. October 1, 2007; 236 (10): 2757-66.
Xenopus Lefty requires proprotein cleavage but not N-linked glycosylation to inhibit nodal signaling. , Westmoreland JJ., Dev Dyn. August 1, 2007; 236 (8): 2050-61.
Hermes RNA-binding protein targets RNAs-encoding proteins involved in meiotic maturation, early cleavage, and germline development. , Song HW., Differentiation. July 1, 2007; 75 (6): 519-28.
Negative regulation of Activin/ Nodal signaling by SRF during Xenopus gastrulation. , Yun CH., Development. February 1, 2007; 134 (4): 769-77.
Xenopus POU factors of subclass V inhibit activin/ nodal signaling during gastrulation. , Cao Y ., Mech Dev. August 1, 2006; 123 (8): 614-25.
Reorganization of actin cytoskeleton by FRIED, a Frizzled-8 associated protein tyrosine phosphatase. , Itoh K., Dev Dyn. September 1, 2005; 234 (1): 90-101.
Germ-layer specification and control of cell growth by Ectodermin, a Smad4 ubiquitin ligase. , Dupont S., Cell. April 8, 2005; 121 (1): 87-99.
Sequences downstream of the bHLH domain of the Xenopus hairy-related transcription factor-1 act as an extended dimerization domain that contributes to the selection of the partners. , Taelman V., Dev Biol. December 1, 2004; 276 (1): 47-63.
Negative regulation of Smad2 by PIASy is required for proper Xenopus mesoderm formation. , Daniels M., Development. November 1, 2004; 131 (22): 5613-26.
Nuclear RNP complex assembly initiates cytoplasmic RNA localization. , Kress TL., J Cell Biol. April 26, 2004; 165 (2): 203-11.
Xenopus MBD3 plays a crucial role in an early stage of development. , Iwano H., Dev Biol. April 15, 2004; 268 (2): 416-28.
GBP binds kinesin light chain and translocates during cortical rotation in Xenopus eggs. , Weaver C., Development. November 1, 2003; 130 (22): 5425-36.
Glypican 4 modulates FGF signalling and regulates dorsoventral forebrain patterning in Xenopus embryos. , Galli A., Development. October 1, 2003; 130 (20): 4919-29.
A family of IGF-II mRNA binding proteins ( IMP) involved in RNA trafficking. , Nielsen FC., Scand J Clin Lab Invest Suppl. January 1, 2001; 234 93-9.
Is chordin a long-range- or short-range-acting factor? Roles for BMP1-related metalloproteases in chordin and BMP4 autofeedback loop regulation. , Blitz IL ., Dev Biol. July 1, 2000; 223 (1): 120-38.
Xenopus GDF6, a new antagonist of noggin and a partner of BMPs. , Chang C ., Development. August 1, 1999; 126 (15): 3347-57.
Establishment of the dorsal- ventral axis in Xenopus embryos coincides with the dorsal enrichment of dishevelled that is dependent on cortical rotation. , Miller JR ., J Cell Biol. July 26, 1999; 146 (2): 427-37.
Sizzled: a secreted Xwnt8 antagonist expressed in the ventral marginal zone of Xenopus embryos. , Salic AN., Development. December 1, 1997; 124 (23): 4739-48.
Establishment of the dorso- ventral axis in Xenopus embryos is presaged by early asymmetries in beta-catenin that are modulated by the Wnt signaling pathway. , Larabell CA ., J Cell Biol. March 10, 1997; 136 (5): 1123-36.
Xenopus VegT RNA is localized to the vegetal cortex during oogenesis and encodes a novel T-box transcription factor involved in mesodermal patterning. , Zhang J., Development. December 1, 1996; 122 (12): 4119-29.