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TMEM79/MATTRIN defines a pathway for Frizzled regulation and is required for Xenopus embryogenesis. , Chen M, Amado N, Tan J, Reis A, Ge M, Abreu JG , He X ., Elife. September 14, 2020; 9
Transcriptome profiling reveals male- and female-specific gene expression pattern and novel gene candidates for the control of sex determination and gonad development in Xenopus laevis. , Piprek RP, Damulewicz M, Tassan JP , Kloc M , Kubiak JZ ., Dev Genes Evol. May 1, 2019; 229 (2-3): 53-72.
Evolutionarily conserved Tbx5-Wnt2/2b pathway orchestrates cardiopulmonary development. , Steimle JD, Rankin SA , Rankin SA , Slagle CE, Bekeny J, Rydeen AB, Chan SS, Kweon J, Yang XH, Ikegami K, Nadadur RD, Rowton M, Hoffmann AD, Lazarevic S, Thomas W, Boyle Anderson EAT, Horb ME , Luna-Zurita L, Ho RK, Kyba M, Jensen B, Zorn AM , Conlon FL , Moskowitz IP., Proc Natl Acad Sci U S A. November 6, 2018; 115 (45): E10615-E10624.
RARγ is required for mesodermal gene expression prior to gastrulation in Xenopus. , Janesick A , Tang W, Shioda T, Blumberg B ., Development. September 17, 2018; 145 (18):
Genome-wide identification of Wnt/ β-catenin transcriptional targets during Xenopus gastrulation. , Kjolby RAS, Harland RM ., Dev Biol. June 15, 2017; 426 (2): 165-175.
Tissue- and stage-specific Wnt target gene expression is controlled subsequent to β-catenin recruitment to cis-regulatory modules. , Nakamura Y, de Paiva Alves E, Veenstra GJ , Hoppler S ., Development. June 1, 2016; 143 (11): 1914-25.
Microarray identification of novel genes downstream of Six1, a critical factor in cranial placode, somite, and kidney development. , Yan B , Neilson KM , Ranganathan R, Maynard T, Streit A, Moody SA ., Dev Dyn. February 1, 2015; 244 (2): 181-210.
Pax3 and Zic1 trigger the early neural crest gene regulatory network by the direct activation of multiple key neural crest specifiers. , Plouhinec JL, Roche DD, Pegoraro C, Figueiredo AL, Maczkowiak F, Brunet LJ, Milet C, Vert JP, Pollet N , Harland RM , Monsoro-Burq AH ., Dev Biol. February 15, 2014; 386 (2): 461-72.
Expression of Wnt signaling components during Xenopus pronephros development. , Zhang B, Tran U , Wessely O ., PLoS One. January 1, 2011; 6 (10): e26533.
Frizzled-10 promotes sensory neuron development in Xenopus embryos. , Garcia-Morales C, Liu CH, Abu-Elmagd M, Hajihosseini MK, Wheeler GN ., Dev Biol. November 1, 2009; 335 (1): 143-55.
Identification of embryonic pancreatic genes using Xenopus DNA microarrays. , Hayata T, Blitz IL , Iwata N, Cho KW ., Dev Dyn. June 1, 2009; 238 (6): 1455-66.
Defining synphenotype groups in Xenopus tropicalis by use of antisense morpholino oligonucleotides. , Rana AA, Collart C , Gilchrist MJ , Smith JC ., PLoS Genet. November 17, 2006; 2 (11): e193.
Comparative genomics on Dkk1 orthologs. , Katoh Y, Katoh M., Int J Oncol. July 1, 2005; 27 (1): 275-9.
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, Chen JA , Gilchrist M , Amaya E , Papalopulu N ., Mech Dev. March 1, 2005; 122 (3): 289-306.
Frizzled-10, up-regulated in primary colorectal cancer, is a positive regulator of the WNT - beta-catenin - TCF signaling pathway. , Terasaki H, Saitoh T, Shiokawa K, Katoh M., Int J Mol Med. February 1, 2002; 9 (2): 107-12.
FZD4S, a splicing variant of frizzled-4, encodes a soluble-type positive regulator of the WNT signaling pathway. , Sagara N, Kirikoshi H, Terasaki H, Yasuhiko Y, Toda G, Shiokawa K, Katoh M., Biochem Biophys Res Commun. April 6, 2001; 282 (3): 750-6.
Involvement of frizzled-10 in Wnt-7a signaling during chick limb development. , Kawakami Y, Wada N, Nishimatsu S, Nohno T., Dev Growth Differ. December 1, 2000; 42 (6): 561-9.
Isolation of Xenopus frizzled-10A and frizzled-10B genomic clones and their expression in adult tissues and embryos. , Moriwaki J, Kajita E, Kirikoshi H, Koike J, Sagara N, Yasuhiko Y, Saitoh T, Hirai M, Katoh M, Shiokawa K., Biochem Biophys Res Commun. November 19, 2000; 278 (2): 377-84.
Two novel Xenopus frizzled genes expressed in developing heart and brain. , Wheeler GN , Hoppler S ., Mech Dev. August 1, 1999; 86 (1-2): 203-7.