| Published Application/Species/Sample/Dilution | Reference |
|---|
- western blot knockout validation; human; loading ...; fig 4e, e4d, e9c
| Liu Z, Mar K, Hanners N, Perelman S, Kanchwala M, Xing C, et al. A NIK-SIX signalling axis controls inflammation by targeted silencing of non-canonical NF-κB. Nature. 2019;: pubmed publisher |
- immunohistochemistry - paraffin section; human; fig 3d
| Calandrini C, Schutgens F, Oka R, Margaritis T, Candelli T, Mathijsen L, et al. An organoid biobank for childhood kidney cancers that captures disease and tissue heterogeneity. Nat Commun. 2020;11:1310 pubmed publisher |
- immunocytochemistry; human; loading ...; fig 1b
| Low J, Li P, Chew E, Zhou B, Suzuki K, Zhang T, et al. Generation of Human PSC-Derived Kidney Organoids with Patterned Nephron Segments and a De Novo Vascular Network. Cell Stem Cell. 2019;25:373-387.e9 pubmed publisher |
- immunohistochemistry; mouse; loading ...; fig 1f
| Lawlor K, Zappia L, Lefevre J, Park J, Hamilton N, Oshlack A, et al. Nephron progenitor commitment is a stochastic process influenced by cell migration. elife. 2019;8: pubmed publisher |
- immunocytochemistry; human; 1:200; fig 4a
- western blot; human; 1:600; fig s2
| Hsieh W, Ramadesikan S, FEKETE D, Aguilar R. Kidney-differentiated cells derived from Lowe Syndrome patient's iPSCs show ciliogenesis defects and Six2 retention at the Golgi complex. PLoS ONE. 2018;13:e0192635 pubmed publisher |
- immunohistochemistry; mouse; 1:300; fig 2
| Reginensi A, Enderle L, Gregorieff A, Johnson R, Wrana J, McNeill H. A critical role for NF2 and the Hippo pathway in branching morphogenesis. Nat Commun. 2016;7:12309 pubmed publisher |
- immunohistochemistry - paraffin section; mouse; fig 4d
- western blot; mouse; loading ...; fig 2i
| Xu J, Liu H, Chai O, Lan Y, Jiang R. Osr1 Interacts Synergistically with Wt1 to Regulate Kidney Organogenesis. PLoS ONE. 2016;11:e0159597 pubmed publisher |
- immunocytochemistry; mouse; 1:200; fig 8a
| Dauleh S, Santeramo I, Fielding C, Ward K, Herrmann A, Murray P, et al. Characterisation of Cultured Mesothelial Cells Derived from the Murine Adult Omentum. PLoS ONE. 2016;11:e0158997 pubmed publisher |
- immunohistochemistry; rat; 1:500; fig s13
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| Velazco Cruz L, Goedegebuure M, Maxwell K, Augsornworawat P, Hogrebe N, Millman J. SIX2 Regulates Human β Cell Differentiation from Stem Cells and Functional Maturation In Vitro. Cell Rep. 2020;31:107687 pubmed publisher |
| Murphy A, Chen X, Pinto E, Williams J, Clay M, Pounds S, et al. Forty-five patient-derived xenografts capture the clinical and biological heterogeneity of Wilms tumor. Nat Commun. 2019;10:5806 pubmed publisher |
| Barry D, McMillan E, Kunar B, Lis R, Zhang T, Lu T, et al. Molecular determinants of nephron vascular specialization in the kidney. Nat Commun. 2019;10:5705 pubmed publisher |
| Sweat Y, Sweat M, Mansaray M, Cao H, Eliason S, Adeyemo W, et al. Six2 regulates Pax9 expression, palatogenesis and craniofacial bone formation. Dev Biol. 2019;: pubmed publisher |
| Rutledge E, Lindström N, Michos O, McMahon A. Genetic manipulation of ureteric bud tip progenitors in the mammalian kidney through an Adamts18 enhancer driven tet-on inducible system. Dev Biol. 2019;: pubmed publisher |
| Wan Z, Ma Y, Jiang T, Lin Y, Shi Y, Tan Y, et al. Six2 is negatively correlated with prognosis and facilitates epithelial-mesenchymal transition via TGF-β/Smad signal pathway in hepatocellular carcinoma. Hepatobiliary Pancreat Dis Int. 2019;18:525-531 pubmed publisher |
| Faraj R, Irizarry Alfonzo A, Puri P. Molecular characterization of nephron progenitors and their early epithelial derivative structures in the nephrogenic zone of the canine fetal kidney. Eur J Histochem. 2019;63: pubmed publisher |
| Benedetti V, Lavecchia A, Locatelli M, Brizi V, Corna D, Todeschini M, et al. Alteration of thyroid hormone signaling triggers the diabetes-induced pathological growth, remodeling, and dedifferentiation of podocytes. JCI Insight. 2019;4: pubmed publisher |
| O Hara R, Arsenault M, Esparza Gonzalez B, Patriquen A, Hartwig S. Three Optimized Methods for In Situ Quantification of Progenitor Cell Proliferation in Embryonic Kidneys Using BrdU, EdU, and PCNA. Can J Kidney Health Dis. 2019;6:2054358119871936 pubmed publisher |
| Cerqueira D, Hemker S, Bodnar A, Ortiz D, Oladipupo F, Mukherjee E, et al. In utero exposure to maternal diabetes impairs nephron progenitor differentiation. Am J Physiol Renal Physiol. 2019;317:F1318-F1330 pubmed publisher |
| Cheng N, Li H, Han Y, Sun S. Transcription factor Six2 induces a stem cell like phenotype in renal cell carcinoma cells. FEBS Open Bio. 2019;: pubmed publisher |
| Rutledge E, Parvez R, Short K, Smyth I, McMahon A. Morphogenesis of the kidney and lung requires branch-tip directed activity of the Adamts18 metalloprotease. Dev Biol. 2019;454:156-169 pubmed publisher |
| Watanabe M, Nakano K, Uchikura A, Matsunari H, Yashima S, Umeyama K, et al. Anephrogenic phenotype induced by SALL1 gene knockout in pigs. Sci Rep. 2019;9:8016 pubmed publisher |
| Cargill K, Hemker S, Clugston A, Murali A, Mukherjee E, Liu J, et al. Von Hippel-Lindau Acts as a Metabolic Switch Controlling Nephron Progenitor Differentiation. J Am Soc Nephrol. 2019;: pubmed publisher |
| Combes A, Phipson B, Lawlor K, Dorison A, Patrick R, Zappia L, et al. Single cell analysis of the developing mouse kidney provides deeper insight into marker gene expression and ligand-receptor crosstalk. Development. 2019;146: pubmed publisher |
| Wu Y, Song T, Liu M, He Q, Chen L, Liu Y, et al. PPARG Negatively Modulates Six2 in Tumor Formation of Clear Cell Renal Cell Carcinoma. DNA Cell Biol. 2019;: pubmed publisher |
| Fujimoto T, Yamanaka S, Tajiri S, Takamura T, Saito Y, Matsumoto K, et al. In vivo regeneration of interspecies chimeric kidneys using a nephron progenitor cell replacement system. Sci Rep. 2019;9:6965 pubmed publisher |
| Liu Y, Kanyomse Q, Xie Y. Tumor-suppressive activity of Hnf1β in Wilms' tumor. Biosci Biotechnol Biochem. 2019;:1-8 pubmed publisher |
| Yosypiv I, Sequeira Lopez M, Song R, De Goes Martini A. Stromal prorenin receptor is critical for normal kidney development. Am J Physiol Regul Integr Comp Physiol. 2019;316:R640-R650 pubmed publisher |
| Liu Z, Li C, Xu J, Lan Y, Liu H, Li X, et al. Crucial and Overlapping Roles of Six1 and Six2 in Craniofacial Development. J Dent Res. 2019;98:572-579 pubmed publisher |
| Zhang H, Bagherie Lachidan M, Badouel C, Enderle L, Peidis P, Bremner R, et al. FAT4 Fine-Tunes Kidney Development by Regulating RET Signaling. Dev Cell. 2019;: pubmed publisher |
| Phua Y, Chen K, Hemker S, Marrone A, Bodnar A, Liu X, et al. Loss of miR-17~92 results in dysregulation of Cftr in nephron progenitors. Am J Physiol Renal Physiol. 2019;316:F993-F1005 pubmed publisher |
| Hochane M, van den Berg P, Fan X, Bérenger Currias N, Adegeest E, Bialecka M, et al. Single-cell transcriptomics reveals gene expression dynamics of human fetal kidney development. PLoS Biol. 2019;17:e3000152 pubmed publisher |
| Garreta E, Prado P, Tarantino C, Oria R, Fanlo L, Marti E, et al. Fine tuning the extracellular environment accelerates the derivation of kidney organoids from human pluripotent stem cells. Nat Mater. 2019;18:397-405 pubmed publisher |
| Goto T, Hara H, Sanbo M, Masaki H, Sato H, Yamaguchi T, et al. Generation of pluripotent stem cell-derived mouse kidneys in Sall1-targeted anephric rats. Nat Commun. 2019;10:451 pubmed publisher |
| Murakami Y, Naganuma H, Tanigawa S, Fujimori T, Eto M, Nishinakamura R. Reconstitution of the embryonic kidney identifies a donor cell contribution to the renal vasculature upon transplantation. Sci Rep. 2019;9:1172 pubmed publisher |
| Yermalovich A, Osborne J, Sousa P, Han A, Kinney M, Chen M, et al. Lin28 and let-7 regulate the timing of cessation of murine nephrogenesis. Nat Commun. 2019;10:168 pubmed publisher |
| Wang J, Liu M, Zhao L, Li Y, Zhang M, Jin Y, et al. Disabling of nephrogenesis in porcine embryos via CRISPR/Cas9-mediated SIX1 and SIX4 gene targeting. Xenotransplantation. 2019;26:e12484 pubmed publisher |
| Jo N, Sogabe Y, Yamada Y, Ukai T, Kagawa H, Mitsunaga K, et al. Platforms of in vivo genome editing with inducible Cas9 for advanced cancer modeling. Cancer Sci. 2019;110:926-938 pubmed publisher |
| Wanner N, Vornweg J, Combes A, Wilson S, Plappert J, Rafflenbeul G, et al. DNA Methyltransferase 1 Controls Nephron Progenitor Cell Renewal and Differentiation. J Am Soc Nephrol. 2019;30:63-78 pubmed publisher |
| Reilly M, Stokman M, Magry V, Jeanpierre C, Alves M, Paydar M, et al. Loss-of-function mutations in KIF14 cause severe microcephaly and kidney development defects in humans and zebrafish. Hum Mol Genet. 2019;28:778-795 pubmed publisher |
| O Brien L, Combes A, Short K, Lindström N, Whitney P, Cullen McEwen L, et al. Wnt11 directs nephron progenitor polarity and motile behavior ultimately determining nephron endowment. elife. 2018;7: pubmed publisher |
| He Q, Chen L, Liu Y, Wu Y, Ni D, Liu J, et al. Gulo regulates the proliferation, apoptosis and mesenchymal-to-epithelial transformation of metanephric mesenchyme cells via inhibiting Six2. Biochem Biophys Res Commun. 2018;504:885-891 pubmed publisher |
| Rabadi M, Abdulmahdi W, Nesi L, Jules E, Marghani Y, Sheinin E, et al. Maternal malnourishment induced upregulation of fetuin-B blunts nephrogenesis in the low birth weight neonate. Dev Biol. 2018;443:78-91 pubmed publisher |
| Short K, Combes A, Lisnyak V, Lefevre J, Jones L, Little M, et al. Branching morphogenesis in the developing kidney is not impacted by nephron formation or integration. elife. 2018;7: pubmed publisher |
| Held M, Santeramo I, Wilm B, Murray P, Levy R. Ex vivo live cell tracking in kidney organoids using light sheet fluorescence microscopy. PLoS ONE. 2018;13:e0199918 pubmed publisher |
| Rowan C, Li W, Martirosyan H, Erwood S, Hu D, Kim Y, et al. Hedgehog-GLI signaling in Foxd1-positive stromal cells promotes murine nephrogenesis via TGF? signaling. Development. 2018;145: pubmed publisher |
| Zhang L, Ettou S, Khalid M, Taglienti M, Jain D, Jung Y, et al. EED, a member of the polycomb group, is required for nephron differentiation and the maintenance of nephron progenitor cells. Development. 2018;145: pubmed publisher |
| Dionne L, Shim K, Hoshi M, Cheng T, Wang J, Marthiens V, et al. Centrosome amplification disrupts renal development and causes cystogenesis. J Cell Biol. 2018;217:2485-2501 pubmed publisher |
| Nishikawa M, Kimura H, Yanagawa N, Hamon M, Hauser P, Zhao L, et al. An optimal serum-free defined condition for in vitro culture of kidney organoids. Biochem Biophys Res Commun. 2018;501:996-1002 pubmed publisher |
| Li J, Huang C, Li J, Yuan J, Chen Q, Zhang W, et al. Six2 is negatively correlated with good prognosis and decreases 5-FU sensitivity via suppressing E-cadherin expression in hepatocellular carcinoma cells. Biomed Pharmacother. 2018;104:204-210 pubmed publisher |
| Liu H, Chen S, Yao X, Li Y, Chen C, Liu J, et al. Histone deacetylases 1 and 2 regulate the transcriptional programs of nephron progenitors and renal vesicles. Development. 2018;145: pubmed publisher |
| Magella B, Mahoney R, Adam M, Potter S. Reduced Abd-B Hox function during kidney development results in lineage infidelity. Dev Biol. 2018;438:84-93 pubmed publisher |
| Fukunaga S, Yamanaka S, Fujimoto T, Tajiri S, Uchiyama T, Matsumoto K, et al. Optimal route of diphtheria toxin administration to eliminate native nephron progenitor cells in vivo for kidney regeneration. Biochem Biophys Res Commun. 2018;496:1176-1182 pubmed publisher |
| O Brien L, Guo Q, Bahrami Samani E, Park J, Hasso S, Lee Y, et al. Transcriptional regulatory control of mammalian nephron progenitors revealed by multi-factor cistromic analysis and genetic studies. PLoS Genet. 2018;14:e1007181 pubmed publisher |
| Combes A, Wilson S, Phipson B, Binnie B, Ju A, Lawlor K, et al. Haploinsufficiency for the Six2 gene increases nephron progenitor proliferation promoting branching and nephron number. Kidney Int. 2018;93:589-598 pubmed publisher |
| Puri P, Schaefer C, Bushnell D, Taglienti M, Kreidberg J, Yoder B, et al. Ectopic Phosphorylated Creb Marks Dedifferentiated Proximal Tubules in Cystic Kidney Disease. Am J Pathol. 2018;188:84-94 pubmed publisher |
| Liao H, Hatanaka F, Araoka T, Reddy P, Wu M, Sui Y, et al. In Vivo Target Gene Activation via CRISPR/Cas9-Mediated Trans-epigenetic Modulation. Cell. 2017;171:1495-1507.e15 pubmed publisher |
| Okello D, Iyyanar P, Kulyk W, Smith T, Lozanoff S, Ji S, et al. Six2 Plays an Intrinsic Role in Regulating Proliferation of Mesenchymal Cells in the Developing Palate. Front Physiol. 2017;8:955 pubmed publisher |
| Yamanaka S, Tajiri S, Fujimoto T, Matsumoto K, Fukunaga S, Kim B, et al. Generation of interspecies limited chimeric nephrons using a conditional nephron progenitor cell replacement system. Nat Commun. 2017;8:1719 pubmed publisher |
| Taguchi A, Nishinakamura R. Higher-Order Kidney Organogenesis from Pluripotent Stem Cells. Cell Stem Cell. 2017;21:730-746.e6 pubmed publisher |
| De Tomasi L, David P, Humbert C, Silbermann F, Arrondel C, Tores F, et al. Mutations in GREB1L Cause Bilateral Kidney Agenesis in Humans and Mice. Am J Hum Genet. 2017;101:803-814 pubmed publisher |
| Bohndorf M, Ncube A, Spitzhorn L, Enczmann J, Wruck W, Adjaye J. Derivation and characterization of integration-free iPSC line ISRM-UM51 derived from SIX2-positive renal cells isolated from urine of an African male expressing the CYP2D6 *4/*17 variant which confers intermediate drug metabolizing activity. Stem Cell Res. 2017;25:18-21 pubmed publisher |
| Pan X, Karner C, Carroll T. Myc cooperates with β-catenin to drive gene expression in nephron progenitor cells. Development. 2017;144:4173-4182 pubmed publisher |
| Munro D, Hohenstein P, Coate T, Davies J. Refuting the hypothesis that semaphorin-3f/neuropilin-2 exclude blood vessels from the cap mesenchyme in the developing kidney. Dev Dyn. 2017;246:1047-1056 pubmed publisher |
| Yucer N, Holzapfel M, Jenkins Vogel T, Lenaeus L, Ornelas L, Laury A, et al. Directed Differentiation of Human Induced Pluripotent Stem Cells into Fallopian Tube Epithelium. Sci Rep. 2017;7:10741 pubmed publisher |
| Awazu M, Nagata M, Hida M. BMP7 dose-dependently stimulates proliferation and cadherin-11 expression via ERK and p38 in a murine metanephric mesenchymal cell line. Physiol Rep. 2017;5: pubmed publisher |
| Sparrow A, Sweetman D, Welham S. LIM kinase function and renal growth: Potential role for LIM kinases in fetal programming of kidney development. Life Sci. 2017;186:17-24 pubmed publisher |
| Munro D, Hohenstein P, Davies J. Cycles of vascular plexus formation within the nephrogenic zone of the developing mouse kidney. Sci Rep. 2017;7:3273 pubmed publisher |
| Monti M, Imberti B, Bianchi N, Pezzotta A, Morigi M, Del Fante C, et al. A Novel Method for Isolation of Pluripotent Stem Cells from Human Umbilical Cord Blood. Stem Cells Dev. 2017;26:1258-1269 pubmed publisher |
| Pode Shakked N, Gershon R, Tam G, Omer D, Gnatek Y, Kanter I, et al. Evidence of In Vitro Preservation of Human Nephrogenesis at the Single-Cell Level. Stem Cell Reports. 2017;9:279-291 pubmed publisher |
| Naiman N, Fujioka K, Fujino M, Valerius M, Potter S, McMahon A, et al. Repression of Interstitial Identity in Nephron Progenitor Cells by Pax2 Establishes the Nephron-Interstitium Boundary during Kidney Development. Dev Cell. 2017;41:349-365.e3 pubmed publisher |
| Cerqueira D, Bodnar A, Phua Y, Freer R, Hemker S, Walensky L, et al. Bim gene dosage is critical in modulating nephron progenitor survival in the absence of microRNAs during kidney development. FASEB J. 2017;31:3540-3554 pubmed publisher |
| Mao Z, Lyu Z, Huang L, Zhou Q, Weng Y. T?RII Regulates the Proliferation of Metanephric Mesenchyme Cells through Six2 In Vitro. Int J Mol Sci. 2017;18: pubmed publisher |
| Belle M, Godefroy D, Couly G, Malone S, Collier F, Giacobini P, et al. Tridimensional Visualization and Analysis of Early Human Development. Cell. 2017;169:161-173.e12 pubmed publisher |
| Sambi M, Chow T, Whiteley J, Li M, Chua S, Raileanu V, et al. Acellular Mouse Kidney ECM can be Used as a Three-Dimensional Substrate to Test the Differentiation Potential of Embryonic Stem Cell Derived Renal Progenitors. Stem Cell Rev. 2017;13:513-531 pubmed publisher |
| Saarela U, Akram S, Desgrange A, Rak Raszewska A, Shan J, Cereghini S, et al. Novel fixed z-direction (FiZD) kidney primordia and an organoid culture system for time-lapse confocal imaging. Development. 2017;144:1113-1117 pubmed publisher |
| Liu S, Song N, He J, Yu X, Guo J, Jiao X, et al. Effect of Hypoxia on the Differentiation and the Self-Renewal of Metanephrogenic Mesenchymal Stem Cells. Stem Cells Int. 2017;2017:7168687 pubmed publisher |
| Lefevre J, Chiu H, Combes A, Vanslambrouck J, Ju A, Hamilton N, et al. Self-organisation after embryonic kidney dissociation is driven via selective adhesion of ureteric epithelial cells. Development. 2017;144:1087-1096 pubmed publisher |
| Tögel F, Valerius M, Freedman B, Iatrino R, Grinstein M, Bonventre J. Repair after nephron ablation reveals limitations of neonatal neonephrogenesis. JCI Insight. 2017;2:e88848 pubmed publisher |
| Zhou Z, Wang J, Guo C, Chang W, Zhuang J, Zhu P, et al. Temporally Distinct Six2-Positive Second Heart Field Progenitors Regulate Mammalian Heart Development and Disease. Cell Rep. 2017;18:1019-1032 pubmed publisher |
| Yuri S, Nishikawa M, Yanagawa N, Jo O, Yanagawa N. In Vitro Propagation and Branching Morphogenesis from Single Ureteric Bud Cells. Stem Cell Reports. 2017;8:401-416 pubmed publisher |
| Morizane R, Bonventre J. Generation of nephron progenitor cells and kidney organoids from human pluripotent stem cells. Nat Protoc. 2017;12:195-207 pubmed publisher |
| McNeill H, Reginensi A. Lats1/2 Regulate Yap/Taz to Control Nephron Progenitor Epithelialization and Inhibit Myofibroblast Formation. J Am Soc Nephrol. 2017;28:852-861 pubmed publisher |
| Chung E, Deacon P, Marable S, Shin J, Park J. Notch signaling promotes nephrogenesis by downregulating Six2. Development. 2016;143:3907-3913 pubmed |
| Liu J, Ju P, Zhou Y, Zhao Y, Xie Y, Long Y, et al. Six2 Is a Coordinator of LiCl-Induced Cell Proliferation and Apoptosis. Int J Mol Sci. 2016;17: pubmed publisher |
| Gu Y, Zhao Y, Zhou Y, Xie Y, Ju P, Long Y, et al. Zeb1 Is a Potential Regulator of Six2 in the Proliferation, Apoptosis and Migration of Metanephric Mesenchyme Cells. Int J Mol Sci. 2016;17: pubmed publisher |
| Combes A, Lefevre J, Wilson S, Hamilton N, Little M. Cap mesenchyme cell swarming during kidney development is influenced by attraction, repulsion, and adhesion to the ureteric tip. Dev Biol. 2016;418:297-306 pubmed publisher |
| Tanigawa S, Taguchi A, Sharma N, Perantoni A, Nishinakamura R. Selective In Vitro Propagation of Nephron Progenitors Derived from Embryos and Pluripotent Stem Cells. Cell Rep. 2016;15:801-813 pubmed publisher |
| Camarata T, Howard A, Elsey R, Raza S, O Connor A, Beatty B, et al. Postembryonic Nephrogenesis and Persistence of Six2-Expressing Nephron Progenitor Cells in the Reptilian Kidney. PLoS ONE. 2016;11:e0153422 pubmed publisher |
| Arda H, Li L, Tsai J, Torre E, Rosli Y, Peiris H, et al. Age-Dependent Pancreatic Gene Regulation Reveals Mechanisms Governing Human ? Cell Function. Cell Metab. 2016;23:909-20 pubmed publisher |
| Huang L, Mokkapati S, Hu Q, Ruteshouser E, Hicks M, Huff V. Nephron Progenitor But Not Stromal Progenitor Cells Give Rise to Wilms Tumors in Mouse Models with β-Catenin Activation or Wt1 Ablation and Igf2 Upregulation. Neoplasia. 2016;18:71-81 pubmed publisher |
| Song R, Preston G, Kidd L, Bushnell D, Sims Lucas S, Bates C, et al. Prorenin receptor is critical for nephron progenitors. Dev Biol. 2016;409:382-91 pubmed publisher |
| Batchelder C, Martinez M, Tarantal A. Natural Scaffolds for Renal Differentiation of Human Embryonic Stem Cells for Kidney Tissue Engineering. PLoS ONE. 2015;10:e0143849 pubmed publisher |
| Muthukrishnan S, Yang X, Friesel R, Oxburgh L. Concurrent BMP7 and FGF9 signalling governs AP-1 function to promote self-renewal of nephron progenitor cells. Nat Commun. 2015;6:10027 pubmed publisher |
| Blake J, Hu D, Cain J, Rosenblum N. Urogenital development in Pallister-Hall syndrome is disrupted in a cell-lineage-specific manner by constitutive expression of GLI3 repressor. Hum Mol Genet. 2016;25:437-47 pubmed publisher |
| Ohmori T, Tanigawa S, Kaku Y, Fujimura S, Nishinakamura R. Sall1 in renal stromal progenitors non-cell autonomously restricts the excessive expansion of nephron progenitors. Sci Rep. 2015;5:15676 pubmed publisher |
| Elias B, Das A, Parekh D, Mernaugh G, Adams R, Yang Z, et al. Cdc42 regulates epithelial cell polarity and cytoskeletal function during kidney tubule development. J Cell Sci. 2015;128:4293-305 pubmed publisher |
| Chen S, Brunskill E, Potter S, Dexheimer P, Salomonis N, Aronow B, et al. Intrinsic Age-Dependent Changes and Cell-Cell Contacts Regulate Nephron Progenitor Lifespan. Dev Cell. 2015;35:49-62 pubmed publisher |
| Takasato M, Er P, Chiu H, Maier B, Baillie G, Ferguson C, et al. Kidney organoids from human iPS cells contain multiple lineages and model human nephrogenesis. Nature. 2015;526:564-8 pubmed publisher |
| Phua Y, Chu J, Marrone A, Bodnar A, Sims Lucas S, Ho J. Renal stromal miRNAs are required for normal nephrogenesis and glomerular mesangial survival. Physiol Rep. 2015;3: pubmed publisher |
| Brown A, Muthukrishnan S, Oxburgh L. A synthetic niche for nephron progenitor cells. Dev Cell. 2015;34:229-41 pubmed publisher |
| Raines A, Magella B, Adam M, Potter S. Key pathways regulated by HoxA9,10,11/HoxD9,10,11 during limb development. BMC Dev Biol. 2015;15:28 pubmed publisher |
| Mao Y, Francis West P, Irvine K. Fat4/Dchs1 signaling between stromal and cap mesenchyme cells influences nephrogenesis and ureteric bud branching. Development. 2015;142:2574-85 pubmed publisher |
| Bagherie Lachidan M, Reginensi A, Pan Q, Zaveri H, Scott D, Blencowe B, et al. Stromal Fat4 acts non-autonomously with Dchs1/2 to restrict the nephron progenitor pool. Development. 2015;142:2564-73 pubmed publisher |
| Webb C, Ratliff M, Powell R, Wirsig Wiechmann C, Lakiza O, Obara T. A developmentally plastic adult mouse kidney cell line spontaneously generates multiple adult kidney structures. Biochem Biophys Res Commun. 2015;463:1334-1340 pubmed publisher |
| Yuri S, Nishikawa M, Yanagawa N, Jo O, Yanagawa N. Maintenance of Mouse Nephron Progenitor Cells in Aggregates with Gamma-Secretase Inhibitor. PLoS ONE. 2015;10:e0129242 pubmed publisher |
| Pan X, Schnell U, Karner C, Small E, Carroll T. A Cre-inducible fluorescent reporter for observing apical membrane dynamics. Genesis. 2015;53:285-93 pubmed publisher |
| Kann M, Bae E, Lenz M, Li L, Trannguyen B, Schumacher V, et al. WT1 targets Gas1 to maintain nephron progenitor cells by modulating FGF signals. Development. 2015;142:1254-66 pubmed publisher |
| Boivin F, Sarin S, Lim J, Javidan A, Svajger B, Khalili H, et al. Stromally expressed β-catenin modulates Wnt9b signaling in the ureteric epithelium. PLoS ONE. 2015;10:e0120347 pubmed publisher |
| Imberti B, Tomasoni S, Ciampi O, Pezzotta A, Derosas M, Xinaris C, et al. Renal progenitors derived from human iPSCs engraft and restore function in a mouse model of acute kidney injury. Sci Rep. 2015;5:8826 pubmed publisher |
| Di Giovanni V, Walker K, Bushnell D, Schaefer C, Sims Lucas S, Puri P, et al. Fibroblast growth factor receptor-Frs2α signaling is critical for nephron progenitors. Dev Biol. 2015;400:82-93 pubmed publisher |
| Recuenco M, Ohmori T, Tanigawa S, Taguchi A, Fujimura S, Conti M, et al. Nonmuscle Myosin II Regulates the Morphogenesis of Metanephric Mesenchyme-Derived Immature Nephrons. J Am Soc Nephrol. 2015;26:1081-91 pubmed publisher |
