| scholarly article | Q13442814 |
| P50 | author | Jianbo Sun | Q42029759 |
| Jinshu Xu | Q42029766 | ||
| P2093 | author name string | Jun Li | |
| Pin-Xian Xu | |||
| Jianbo Sun | |||
| Chunming Cheng | |||
| Binglai Chen | |||
| Chelsea Y Xu | |||
| Dongzhu Jing | |||
| Elaine Y M Wong | |||
| Jinshu Xu | |||
| Mohammad T K Sharkar | |||
| P2860 | cites work | Identification of c-MYC as a target of the APC pathway | Q24310637 |
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| Six1 is required for the early organogenesis of mammalian kidney | Q28510085 | ||
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| Six1 regulates Grem1 expression in the metanephric mesenchyme to initiate branching morphogenesis | Q28512287 | ||
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| C-myc as a modulator of renal stem/progenitor cell population | Q28513261 | ||
| Six2 is required for suppression of nephrogenesis and progenitor renewal in the developing kidney | Q28586205 | ||
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| Canonical Wnt9b signaling balances progenitor cell expansion and differentiation during kidney development | Q28590640 | ||
| Differential regulation of two sets of mesonephric tubules by WT-1 | Q28592223 | ||
| Six2 defines and regulates a multipotent self-renewing nephron progenitor population throughout mammalian kidney development | Q28592487 | ||
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| EYA1 phosphatase function is essential to drive breast cancer cell proliferation through cyclin D1. | Q37128230 | ||
| Eya1 gene dosage critically affects the development of sensory epithelia in the mammalian inner ear. | Q37294806 | ||
| Six1 expands the mouse mammary epithelial stem/progenitor cell pool and induces mammary tumors that undergo epithelial-mesenchymal transition | Q37328450 | ||
| The EYA-SO/SIX complex in development and disease | Q38027074 | ||
| Early organogenesis of the kidney | Q39611879 | ||
| The Cdk1 complex plays a prime role in regulating N-myc phosphorylation and turnover in neural precursors. | Q40378610 | ||
| Eya1-Six1 interaction is sufficient to induce hair cell fate in the cochlea by activating Atoh1 expression in cooperation with Sox2. | Q41485484 | ||
| A nucleolar isoform of the Fbw7 ubiquitin ligase regulates c-Myc and cell size | Q45118851 | ||
| Redefining the in vivo origin of metanephric nephron progenitors enables generation of complex kidney structures from pluripotent stem cells | Q46405604 | ||
| c-Myc regulates mammalian body size by controlling cell number but not cell size | Q47197283 | ||
| Hedgehog and PI-3 kinase signaling converge on Nmyc1 to promote cell cycle progression in cerebellar neuronal precursors. | Q48123329 | ||
| Defects in heart and lung development in compound heterozygotes for two different targeted mutations at the N-myc locus. | Q52222479 | ||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P1104 | number of pages | 14 | |
| P304 | page(s) | 434-447 | |
| P577 | publication date | 2014-11-24 | |
| P1433 | published in | Developmental Cell | Q1524277 |
| P1476 | title | Eya1 interacts with Six2 and Myc to regulate expansion of the nephron progenitor pool during nephrogenesis | |
| P478 | volume | 31 |
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| Q90424222 | Kidney organoids: accurate models or fortunate accidents |
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| Q58327191 | MYC dephosphorylation by the PP1/PNUTS phosphatase complex regulates chromatin binding and protein stability |
| Q50447773 | Making a Kidney Organoid Using the Directed Differentiation of Human Pluripotent Stem Cells |
| Q26775935 | Multiple Functions of the Eya Phosphotyrosine Phosphatase |
| Q47674940 | Myc cooperates with β-catenin to drive gene expression in nephron progenitor cells. |
| Q39242453 | Origin and Function of the Renal Stroma in Health and Disease |
| Q38507428 | Recent advances in elucidating the genetic mechanisms of nephrogenesis using zebrafish |
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| Q37210057 | Zeb1 Is a Potential Regulator of Six2 in the Proliferation, Apoptosis and Migration of Metanephric Mesenchyme Cells |
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