| Q35225142 | 2,8-dihydroxyadenine nephrolithiasis induces developmental stage-specific alterations in gene expression in mouse kidney |
| Q46898712 | 3D Culture Supports Long-Term Expansion of Mouse and Human Nephrogenic Progenitors |
| Q24644379 | A Stat3-interacting protein (StIP1) regulates cytokine signal transduction |
| Q40557518 | A catalogue of gene expression in the developing kidney |
| Q42285895 | A protein kinase A and Wnt-dependent network regulating an intermediate stage in epithelial tubulogenesis during kidney development |
| Q34790871 | A role for p53 in terminal epithelial cell differentiation |
| Q28216116 | An iron delivery pathway mediated by a lipocalin |
| Q44254321 | Apoptosis in the cortex of the developing mouse kidney. |
| Q35656523 | Association of Perioperative Plasma Neutrophil Gelatinase-Associated Lipocalin Levels with 3-Year Mortality after Cardiac Surgery: A Prospective Observational Cohort Study |
| Q47286990 | BMP7 plays a critical role in TMEM100-inhibited cell proliferation and apoptosis in mouse metanephric mesenchymal cells in vitro |
| Q37244717 | C-kit(+) cells isolated from developing kidneys are a novel population of stem cells with regenerative potential |
| Q28590640 | Canonical Wnt9b signaling balances progenitor cell expansion and differentiation during kidney development |
| Q46300578 | Concise Review: Conceptualizing Paralogous Stem-Cell Niches and Unfolding Bone Marrow Progenitor Cell Identities. |
| Q28083531 | Concise Review: Understanding the Renal Progenitor Cell Niche In Vivo to Recapitulate Nephrogenesis In Vitro |
| Q38160017 | Concise review: can the intrinsic power of branching morphogenesis be used for engineering epithelial tissues and organs? |
| Q49959864 | Conserved and Divergent Molecular and Anatomic Features of Human and Mouse Nephron Patterning |
| Q39730448 | Constructing kidney-like tissues from cells based on programs for organ development: toward a method of in vitro tissue engineering of the kidney |
| Q27021671 | Coordination of kidney organogenesis by Wnt signaling |
| Q34026941 | Cross-talk in kidney development |
| Q37895769 | Cytokine-like factor 1 (CLF1): life after development? |
| Q35294035 | Defining and redefining the nephron progenitor population |
| Q38518812 | Definition and spatial annotation of the dynamic secretome during early kidney development |
| Q37430764 | Deletion of Frs2alpha from the ureteric epithelium causes renal hypoplasia |
| Q42062064 | Development of embryonic stem cells in recombinant kidneys |
| Q35600693 | Developmental approaches to kidney tissue engineering |
| Q62735676 | Early nephron formation in the developing mouse kidney |
| Q24302042 | Epithelial-mesenchymal transition and its implications for fibrosis |
| Q29616581 | Evidence that fibroblasts derive from epithelium during tissue fibrosis |
| Q38162111 | Experimental renal progenitor cells: repairing and recreating kidneys? |
| Q28565302 | Expression and function of leukaemia inhibitory factor and its receptor in normal and regenerating rat pancreas |
| Q44127147 | FR901228, an inhibitor of histone deacetylases, increases the cellular responsiveness to IL-6 type cytokines by enhancing the expression of receptor proteins |
| Q36601109 | Fibroblast growth factor receptor signaling in kidney and lower urinary tract development. |
| Q35181459 | Fibroblast growth factor receptor-Frs2α signaling is critical for nephron progenitors |
| Q33301016 | Gene expression programs of human smooth muscle cells: tissue-specific differentiation and prognostic significance in breast cancers |
| Q38184451 | Growth factor-heparan sulfate "switches" regulating stages of branching morphogenesis |
| Q37515584 | Hepatocyte growth factor-mediated renal epithelial branching morphogenesis is regulated by glypican-4 expression |
| Q36967093 | Hoxd11 specifies a program of metanephric kidney development within the intermediate mesoderm of the mouse embryo. |
| Q42748705 | Human ESC-derived neural crest model reveals a key role for SOX2 in sensory neurogenesis |
| Q42875392 | IL-22 from conventional NK cells is epithelial regenerative and inflammation protective during influenza infection |
| Q28363408 | Identification of an invasive, N-cadherin-expressing epithelial cell type in endometriosis using a new cell culture model |
| Q45018727 | Identification of cells responsible for urokinase-type plasminogen activator synthesis and secretion in human diploid kidney cell cultures |
| Q35365390 | Identification of novel molecules and pathogenic pathways in primary biliary cirrhosis: cDNA array analysis of intrahepatic differential gene expression |
| Q56518624 | In Vitro Differentiation of MSC into Cells with a Renal Tubular Epithelial-Like Phenotype |
| Q28141892 | In vivo interaction of the adapter protein CD2-associated protein with the type 2 polycystic kidney disease protein, polycystin-2 |
| Q34632718 | Independent roles of Fgfr2 and Frs2alpha in ureteric epithelium |
| Q28506528 | Induction of ureter branching as a response to Wnt-2b signaling during early kidney organogenesis |
| Q35146299 | Iron, lipocalin, and kidney epithelia |
| Q28731796 | LIF-dependent signaling: new pieces in the Lego |
| Q40757564 | Leukemia inhibitory factor attenuates renal fibrosis through Stat3-miR-29c |
| Q90714236 | Leukemia inhibitory factor signaling in Xenopus embryo: Insights from gain of function analysis and dominant negative mutant of the receptor |
| Q58760700 | Lipocalin-2 derived from adipose tissue mediates aldosterone-induced renal injury |
| Q52659230 | Lithium induces mesenchymal-epithelial differentiation during human kidney development by activation of the Wnt signalling system. |
| Q35015885 | Mechanisms of cellular iron acquisition: another iron in the fire |
| Q36577128 | Mechanisms of disease: Fibroblasts--a new look at an old problem |
| Q35200853 | Membrane dynamics and the regulation of epithelial cell polarity |
| Q64881336 | Mesenchymal Stem Cells-Potential Applications in Kidney Diseases. |
| Q40750408 | Microarray analysis of novel cell lines representing two stages of metanephric mesenchyme differentiation |
| Q52126585 | Microarray analysis of novel cell lines representing two stages of metanephric mesenchyme differentiation. |
| Q40229890 | Microarray interrogation of human metanephric mesenchymal cells highlights potentially important molecules in vivo. |
| Q37079364 | Midkine promotes selective expansion of the nephrogenic mesenchyme during kidney organogenesis |
| Q36995482 | Modeling renal progenitors - defining the niche |
| Q36842478 | Molecular regulation of kidney development: is the answer blowing in the Wnt? |
| Q37383079 | Mouse models of polycystic kidney disease |
| Q36320552 | Mutations in the leukemia inhibitory factor receptor (LIFR) gene and Lifr deficiency cause urinary tract malformations. |
| Q38260894 | Nef as a Proliferative Factor for Kidney Epithelial Cells in HIV-Associated Nephropathy |
| Q24563306 | Nef stimulates proliferation of glomerular podocytes through activation of Src-dependent Stat3 and MAPK1,2 pathways |
| Q28504614 | Nephrocan, a novel member of the small leucine-rich repeat protein family, is an inhibitor of transforming growth factor-beta signaling |
| Q36753329 | Neutrophil gelatinase-associated lipocalin as the real-time indicator of active kidney damage. |
| Q35208718 | Notch pathway activation can replace the requirement for Wnt4 and Wnt9b in mesenchymal-to-epithelial transition of nephron stem cells |
| Q39686430 | Oncostatin M regulates membrane traffic and stimulates bile canalicular membrane biogenesis in HepG2 cells |
| Q28481309 | Organic anion and cation SLC22 "drug" transporter (Oat1, Oat3, and Oct1) regulation during development and maturation of the kidney proximal tubule |
| Q39995784 | Organogenesis forum lecture: In vitro kidney development, tissue engineering and systems biology |
| Q46705386 | Parietal endoderm secreted SPARC promotes early cardiomyogenesis in vitro |
| Q42856860 | Patterning and nuclear beta-catenin expression in the colonic adenoma-carcinoma sequence. Analogies with embryonic gastrulation |
| Q36201559 | Preferential Propagation of Competent SIX2+ Nephronic Progenitors by LIF/ROCKi Treatment of the Metanephric Mesenchyme |
| Q36694634 | Promoter methylation of leukemia inhibitory factor receptor gene in colorectal carcinoma |
| Q59335813 | Regulation of Renal Differentiation by Trophic Factors |
| Q28588438 | Renal carcinoma-associated transcription factors TFE3 and TFEB are leukemia inhibitory factor-responsive transcription activators of E-cadherin |
| Q35588765 | Renal development: perspectives on a Wnt-dependent process |
| Q38056686 | Role of FGFRL1 and other FGF signaling proteins in early kidney development |
| Q73539578 | Role of extracellular matrix in kidney development and repair |
| Q33556357 | Role of fibroblast growth factor receptor signaling in kidney development |
| Q80167720 | Role of fibroblast growth factor receptor signaling in kidney development |
| Q84196885 | Role of fibroblast growth factor receptor signaling in kidney development |
| Q28511352 | Role of fibroblast growth factor receptors 1 and 2 in the metanephric mesenchyme |
| Q39251967 | SOCS-3 is downregulated in progressive CKD patients and regulates proliferation in human renal proximal tubule cells in a STAT1/3 independent manner |
| Q24338667 | STAT1 activation regulates proliferation and differentiation of renal progenitors |
| Q51961448 | Schimke immuno-osseous dysplasia: expression of SMARCAL1 in blood and kidney provides novel insight into disease phenotype. |
| Q37774907 | Searching for novel intercellular signal-transducing molecules in the kidney and their clinical application |
| Q28210556 | Secreted Frizzled-related proteins can regulate metanephric development |
| Q50515204 | Selective In Vitro Propagation of Nephron Progenitors Derived from Embryos and Pluripotent Stem Cells. |
| Q40262816 | Serine-phosphorylated STAT1 is a prosurvival factor in Wilms' tumor pathogenesis |
| Q47072185 | Sex-specific deployment of FGF signaling in Drosophila recruits mesodermal cells into the male genital imaginal disc |
| Q90149509 | Simple 3D culture of dissociated kidney mesenchyme mimics nephron progenitor niche and facilitates nephrogenesis Wnt-independently |
| Q28592487 | Six2 defines and regulates a multipotent self-renewing nephron progenitor population throughout mammalian kidney development |
| Q28585087 | Smad expression during kidney development |
| Q77657683 | Specific ablation of Stat3beta distorts the pattern of Stat3-responsive gene expression and impairs recovery from endotoxic shock |
| Q28138574 | Stimulation of leukemia inhibitory factor receptor degradation by extracellular signal-regulated kinase |
| Q44738676 | TGF-beta superfamily members modulate growth, branching, shaping, and patterning of the ureteric bud. |
| Q38520074 | Temporal and spatial transcriptional programs in murine kidney development |
| Q34077533 | The Wilms tumor suppressor WT1 directs stage-specific quiescence and differentiation of human hematopoietic progenitor cells |
| Q42685351 | The developmental programme for genesis of the entire kidney is recapitulated in Wilms tumour |
| Q28581745 | The effect of hyaluronic acid size and concentration on branching morphogenesis and tubule differentiation in developing kidney culture systems: potential applications to engineering of renal tissues |
| Q38347511 | The human hepatocyte growth factor (HGF) gene is transcriptionally activated by leukemia inhibitory factor through the Stat binding element |
| Q37430681 | The instructive role of metanephric mesenchyme in ureteric bud patterning, sculpting, and maturation and its potential ability to buffer ureteric bud branching defects |
| Q33835043 | Transcription factor TFCP2L1 patterns cells in the mouse kidney collecting ducts. |
| Q33621884 | Transdifferentiation-inducing HCCR-1 oncogene |
| Q33561671 | Trps1 functions downstream of Bmp7 in kidney development |
| Q39740208 | Unexpected news in renal fibrosis |
| Q35588769 | Ureteric bud controls multiple steps in the conversion of mesenchyme to epithelia. |
| Q35853292 | Ureteric morphogenesis requires Fgfr1 and Fgfr2/Frs2α signaling in the metanephric mesenchyme. |
| Q34019483 | WNT/beta-catenin signaling in nephron progenitors and their epithelial progeny. |
| Q37866140 | Wilms tumor--a renal stem cell malignancy? |
| Q24299786 | Wnt-4 activates the canonical beta-catenin-mediated Wnt pathway and binds Frizzled-6 CRD: functional implications of Wnt/beta-catenin activity in kidney epithelial cells |
| Q28507791 | Wnt-6 is expressed in the ureter bud and induces kidney tubule development in vitro |
| Q34629155 | Wnt4 induces nephronic tubules in metanephric mesenchyme by a non-canonical mechanism |
| Q28592476 | c-kit delineates a distinct domain of progenitors in the developing kidney |
| Q33808284 | α-Intercalated cells defend the urinary system from bacterial infection |