| Published Application/Species/Sample/Dilution | Reference |
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- immunohistochemistry; mouse; 1:300; loading ...; fig 4e
| Shen Y, Shami A, Moritz L, Larose H, Manske G, Ma Q, et al. TCF21+ mesenchymal cells contribute to testis somatic cell development, homeostasis, and regeneration in mice. Nat Commun. 2021;12:3876 pubmed publisher |
- immunohistochemistry; mouse; loading ...
| Yoshinaga S, Shin M, Kitazawa A, Ishii K, Tanuma M, Kasai A, et al. Comprehensive characterization of migration profiles of murine cerebral cortical neurons during development using FlashTag labeling. iScience. 2021;24:102277 pubmed publisher |
| Li J, Wiesinger A, Fokkert L, Bakker P, de Vries D, Tijsen A, et al. Modeling the atrioventricular conduction axis using human pluripotent stem cell-derived cardiac assembloids. Cell Stem Cell. 2024;31:1667-1684.e6 pubmed publisher |
| Liau E, Jin S, Chen Y, Liu W, Calon M, Nedelec S, et al. Single-cell transcriptomic analysis reveals diversity within mammalian spinal motor neurons. Nat Commun. 2023;14:46 pubmed publisher |
| Li J, Wiesinger A, Fokkert L, Boukens B, Verkerk A, Christoffels V, et al. Molecular and electrophysiological evaluation of human cardiomyocyte subtypes to facilitate generation of composite cardiac models. J Tissue Eng. 2022;13:20417314221127908 pubmed publisher |
| Yang D, Gomez Garcia J, Funakoshi S, Tran T, Fernandes I, Bader G, et al. Modeling human multi-lineage heart field development with pluripotent stem cells. Cell Stem Cell. 2022;29:1382-1401.e8 pubmed publisher |
| Rodriguez K, Brown P, Amato C, Nicol B, Liu C, Xu X, et al. Somatic cell fate maintenance in mouse fetal testes via autocrine/paracrine action of AMH and activin B. Nat Commun. 2022;13:4130 pubmed publisher |
| Feng W, Schriever H, Jiang S, Bais A, Wu H, Kostka D, et al. Computational profiling of hiPSC-derived heart organoids reveals chamber defects associated with NKX2-5 deficiency. Commun Biol. 2022;5:399 pubmed publisher |
| Zhu X, Guo Y, Chu C, Liu D, Duan K, Yin Y, et al. BRN2 as a key gene drives the early primate telencephalon development. Sci Adv. 2022;8:eabl7263 pubmed publisher |
| Liu F, Long D, Huang W, Peng W, Lan H, Zhou Y, et al. The Biphasic Effect of Retinoic Acid Signaling Pathway on the Biased Differentiation of Atrial-like and Sinoatrial Node-like Cells from hiPSC. Int J Stem Cells. 2022;15:247-257 pubmed publisher |
| Barroso Gonz xe1 lez J, Garc xed a Exp xf3 sito L, Galaviz P, Lynskey M, Allen J, Hoang S, et al. Anti-recombination function of MutSα restricts telomere extension by ALT-associated homology-directed repair. Cell Rep. 2021;37:110088 pubmed publisher |
| Sasaki K, Oguchi A, Cheng K, Murakawa Y, Okamoto I, Ohta H, et al. The embryonic ontogeny of the gonadal somatic cells in mice and monkeys. Cell Rep. 2021;35:109075 pubmed publisher |
| Zhao F, Grimm S, Yao H. Molecular Actions Underlying Wolffian Duct Regression in Sexual Differentiation of Murine Reproductive Tracts. Sex Dev. 2020;14:51-59 pubmed publisher |
| Zhao G, Weiner A, Neupauer K, De Mello Costa M, Palashikar G, Adams Tzivelekidis S, et al. Regeneration of the pulmonary vascular endothelium after viral pneumonia requires COUP-TF2. Sci Adv. 2020;6: pubmed publisher |
| Wang L, Cheng C, Qin J, Xu M, Kao C, Shi J, et al. Small-molecule inhibitor targeting orphan nuclear receptor COUP-TFII for prostate cancer treatment. Sci Adv. 2020;6:eaaz8031 pubmed publisher |
| Mehanovic S, Mendoza Villarroel R, Viger R, Tremblay J. The Nuclear Receptor COUP-TFII Regulates Amhr2 Gene Transcription via a GC-Rich Promoter Element in Mouse Leydig Cells. J Endocr Soc. 2019;3:2236-2257 pubmed publisher |
| Sorrells S, Paredes M, Velmeshev D, Herranz Pérez V, Sandoval K, Mayer S, et al. Immature excitatory neurons develop during adolescence in the human amygdala. Nat Commun. 2019;10:2748 pubmed publisher |
| Bonney S, Dennison B, Wendlandt M, Siegenthaler J. Retinoic Acid Regulates Endothelial β-catenin Expression and Pericyte Numbers in the Developing Brain Vasculature. Front Cell Neurosci. 2018;12:476 pubmed publisher |
| Ha S, Nair G, Absinta M, Luciano N, Reich D. Magnetic Resonance Imaging and Histopathological Visualization of Human Dural Lymphatic Vessels. Bio Protoc. 2018;8: pubmed publisher |
| Pedersen K, Chodavarapu H, Lazartigues E. Forkhead Box Transcription Factors of the FOXA Class Are Required for Basal Transcription of Angiotensin-Converting Enzyme 2. J Endocr Soc. 2017;1:370-384 pubmed publisher |
| Absinta M, Ha S, Nair G, Sati P, Luciano N, Palisoc M, et al. Human and nonhuman primate meninges harbor lymphatic vessels that can be visualized noninvasively by MRI. elife. 2017;6: pubmed publisher |
| Hwa J, Beckouche N, Huang L, Kram Y, Lindskog H, Wang R. Abnormal arterial-venous fusions and fate specification in mouse embryos lacking blood flow. Sci Rep. 2017;7:11965 pubmed publisher |
| Lee J, Protze S, Laksman Z, Backx P, Keller G. Human Pluripotent Stem Cell-Derived Atrial and Ventricular Cardiomyocytes Develop from Distinct Mesoderm Populations. Cell Stem Cell. 2017;21:179-194.e4 pubmed publisher |
| Smith R, Huang Y, Tian T, Vojtasova D, Mesalles Naranjo O, Pollard S, et al. The Transcription Factor Foxg1 Promotes Optic Fissure Closure in the Mouse by Suppressing Wnt8b in the Nasal Optic Stalk. J Neurosci. 2017;37:7975-7993 pubmed publisher |
| Close J, Yao Z, Levi B, Miller J, Bakken T, Menon V, et al. Single-Cell Profiling of an In Vitro Model of Human Interneuron Development Reveals Temporal Dynamics of Cell Type Production and Maturation. Neuron. 2017;93:1035-1048.e5 pubmed publisher |
| Chu M, Li T, Shen B, Cao X, Zhong H, Zhang L, et al. Angiopoietin receptor Tie2 is required for vein specification and maintenance via regulating COUP-TFII. elife. 2016;5: pubmed publisher |
| Alzu bi A, Lindsay S, Kerwin J, Looi S, Khalil F, Clowry G. Distinct cortical and sub-cortical neurogenic domains for GABAergic interneuron precursor transcription factors NKX2.1, OLIG2 and COUP-TFII in early fetal human telencephalon. Brain Struct Funct. 2017;222:2309-2328 pubmed publisher |
| Xie X, Tsai S, Tsai M. COUP-TFII regulates satellite cell function and muscular dystrophy. J Clin Invest. 2016;126:3929-3941 pubmed publisher |
| Bonney S, Harrison Uy S, Mishra S, MacPherson A, Choe Y, Li D, et al. Diverse Functions of Retinoic Acid in Brain Vascular Development. J Neurosci. 2016;36:7786-801 pubmed publisher |
| Lin S, Kao C, Lee H, Creighton C, Ittmann M, Tsai S, et al. Dysregulation of miRNAs-COUP-TFII-FOXM1-CENPF axis contributes to the metastasis of prostate cancer. Nat Commun. 2016;7:11418 pubmed publisher |
| Tanwar V, Bylund J, Hu J, Yan J, Walthall J, Mukherjee A, et al. Gremlin 2 promotes differentiation of embryonic stem cells to atrial fate by activation of the JNK signaling pathway. Stem Cells. 2014;32:1774-88 pubmed publisher |
| Lindskog H, Kim Y, Jelin E, Kong Y, Guevara Gallardo S, Kim T, et al. Molecular identification of venous progenitors in the dorsal aorta reveals an aortic origin for the cardinal vein in mammals. Development. 2014;141:1120-8 pubmed publisher |
| Al Rayyan N, Litchfield L, Ivanova M, Radde B, Cheng A, Elbedewy A, et al. 5-Aza-2-deoxycytidine and trichostatin A increase COUP-TFII expression in antiestrogen-resistant breast cancer cell lines. Cancer Lett. 2014;347:139-50 pubmed publisher |
| Boyer Di Ponio J, El Ayoubi F, Glacial F, Ganeshamoorthy K, Driancourt C, Godet M, et al. Instruction of circulating endothelial progenitors in vitro towards specialized blood-brain barrier and arterial phenotypes. PLoS ONE. 2014;9:e84179 pubmed publisher |
| Litchfield L, Appana S, Datta S, Klinge C. COUP-TFII inhibits NFkappaB activation in endocrine-resistant breast cancer cells. Mol Cell Endocrinol. 2014;382:358-367 pubmed publisher |
| Schmouth J, Castellarin M, Laprise S, Banks K, Bonaguro R, McInerny S, et al. Non-coding-regulatory regions of human brain genes delineated by bacterial artificial chromosome knock-in mice. BMC Biol. 2013;11:106 pubmed publisher |
| Wu S, Cheng C, Lanz R, Wang T, Respress J, Ather S, et al. Atrial identity is determined by a COUP-TFII regulatory network. Dev Cell. 2013;25:417-26 pubmed publisher |
| Davis R, Curtis C, Griffin C. BRG1 promotes COUP-TFII expression and venous specification during embryonic vascular development. Development. 2013;140:1272-81 pubmed publisher |
| Mohammed H, D Santos C, Sérandour A, Ali H, Brown G, Atkins A, et al. Endogenous purification reveals GREB1 as a key estrogen receptor regulatory factor. Cell Rep. 2013;3:342-9 pubmed publisher |
| Litchfield L, Riggs K, Hockenberry A, Oliver L, Barnhart K, Cai J, et al. Identification and characterization of nucleolin as a COUP-TFII coactivator of retinoic acid receptor ? transcription in breast cancer cells. PLoS ONE. 2012;7:e38278 pubmed publisher |
| Mayer S, Roeser M, Lachmann P, Ishii S, Suh J, Harlander S, et al. Chicken ovalbumin upstream promoter transcription factor II regulates renin gene expression. J Biol Chem. 2012;287:24483-91 pubmed publisher |
| van den Driesche S, Walker M, McKinnell C, Scott H, Eddie S, Mitchell R, et al. Proposed role for COUP-TFII in regulating fetal Leydig cell steroidogenesis, perturbation of which leads to masculinization disorders in rodents. PLoS ONE. 2012;7:e37064 pubmed publisher |
| Rosa A, Brivanlou A. A regulatory circuitry comprised of miR-302 and the transcription factors OCT4 and NR2F2 regulates human embryonic stem cell differentiation. EMBO J. 2011;30:237-48 pubmed publisher |
| Lin F, Chen X, Qin J, Hong Y, Tsai M, Tsai S. Direct transcriptional regulation of neuropilin-2 by COUP-TFII modulates multiple steps in murine lymphatic vessel development. J Clin Invest. 2010;120:1694-707 pubmed publisher |
| Aerbajinai W, Zhu J, Kumkhaek C, Chin K, Rodgers G. SCF induces gamma-globin gene expression by regulating downstream transcription factor COUP-TFII. Blood. 2009;114:187-94 pubmed publisher |
| Perilhou A, Tourrel Cuzin C, Kharroubi I, Henique C, Fauveau V, Kitamura T, et al. The transcription factor COUP-TFII is negatively regulated by insulin and glucose via Foxo1- and ChREBP-controlled pathways. Mol Cell Biol. 2008;28:6568-79 pubmed publisher |
