scholarly article | Q13442814 |
P50 | author | Andrew J Murphy | Q56945351 |
Gregory Daniel Ayers | Q90344276 | ||
Janene Pierce | Q124037589 | ||
P2093 | author name string | Alan O Perantoni | |
Ethan Lee | |||
Mark P de Caestecker | |||
Christian de Caestecker | |||
Harold N Lovvorn | |||
Alex Zhao | |||
Jonathan R Krebs | |||
Vincente Kenyi Saito-Diaz | |||
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2-APB protects against liver ischemia-reperfusion injury by reducing cellular and mitochondrial calcium uptake | Q40107668 | ||
Canonical WNT signaling during kidney development | Q40134356 | ||
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Overexpression of human Dickkopf-1, an antagonist of wingless/WNT signaling, in human hepatoblastomas and Wilms' tumors. | Q52107727 | ||
Canonical WNT signalling determines lineage specificity in Wilms tumour | Q83173652 | ||
Monoclonal antibodies against Lgr5 identify human colorectal cancer stem cells | Q84962844 | ||
Leucine-rich repeat-containing G protein-coupled receptor 5 regulates epithelial cell phenotype and survival of hepatocellular carcinoma cells | Q85363650 | ||
Wilms' tumorigenesis is altered by misexpression of the transcriptional co-activator, CITED1 | Q24298969 | ||
Cited1 is a bifunctional transcriptional cofactor that regulates early nephronic patterning | Q24300488 | ||
msg1, a novel melanocyte-specific gene, encodes a nuclear protein and is associated with pigmentation | Q24318394 | ||
CITED1 expression in Wilms' tumor and embryonic kidney | Q24337902 | ||
Gene expression in Wilms' tumor mimics the earliest committed stage in the metanephric mesenchymal-epithelial transition | Q24685187 | ||
Adult mammalian stem cells: the role of Wnt, Lgr5 and R-spondins | Q26991478 | ||
Identification of stem cells in small intestine and colon by marker gene Lgr5 | Q28131701 | ||
Kremen proteins are Dickkopf receptors that regulate Wnt/beta-catenin signalling | Q28202812 | ||
Loss of ICAT gene function leads to arrest of ureteric bud branching and renal agenesis | Q28586954 | ||
Canonical Wnt9b signaling balances progenitor cell expansion and differentiation during kidney development | Q28590640 | ||
Cited1 and Cited2 are differentially expressed in the developing kidney but are not required for nephrogenesis | Q28593339 | ||
Molecular characterization of Wilms' tumor from a resource-constrained region of sub-Saharan Africa | Q30449310 | ||
National Wilms Tumor Study: an update for pathologists | Q33720824 | ||
Wilms tumor chromatin profiles highlight stem cell properties and a renal developmental network | Q33961864 | ||
WNT/beta-catenin signaling in nephron progenitors and their epithelial progeny. | Q34019483 | ||
Temporal blastemal cell gene expression analysis in the kidney reveals new Wnt and related signaling pathway genes to be essential for Wilms' tumor onset | Q34065557 | ||
Lineage tracing reveals Lgr5+ stem cell activity in mouse intestinal adenomas | Q34291885 | ||
Lgr5(+ve) stem/progenitor cells contribute to nephron formation during kidney development. | Q34301244 | ||
Nuclear accumulation of beta-catenin protein indicates activation of wnt signaling in chemically induced rat nephroblastomas | Q34346138 | ||
Wt1 ablation and Igf2 upregulation in mice result in Wilms tumors with elevated ERK1/2 phosphorylation | Q34428960 | ||
Wnt4 induces nephronic tubules in metanephric mesenchyme by a non-canonical mechanism | Q34629155 | ||
β-catenin causes renal dysplasia via upregulation of Tgfβ2 and Dkk1 | Q34726881 | ||
CTNNB1 mutations and overexpression of Wnt/beta-catenin target genes in WT1-mutant Wilms' tumors | Q35103587 | ||
Defining and redefining the nephron progenitor population | Q35294035 | ||
Management of Wilms' tumour: current practice and future goals | Q35618789 | ||
SIX2 and CITED1, markers of nephronic progenitor self-renewal, remain active in primitive elements of Wilms' tumor | Q36041333 | ||
Clinically relevant subsets identified by gene expression patterns support a revised ontogenic model of Wilms tumor: a Children's Oncology Group Study | Q36200428 | ||
CITED1 expression in liver development and hepatoblastoma | Q36520712 | ||
The isolation and characterization of renal cancer initiating cells from human Wilms' tumour xenografts unveils new therapeutic targets | Q36602158 | ||
Molecular regulation of kidney development: is the answer blowing in the Wnt? | Q36842478 | ||
The COX-2/PGE2 pathway: key roles in the hallmarks of cancer and adaptation to the tumour microenvironment | Q37366259 | ||
Nephrogenic rests, nephroblastomatosis, and the pathogenesis of Wilms' tumor | Q37874427 | ||
Lgr5 and Lgr6 as markers to study adult stem cell roles in self-renewal and cancer | Q37946232 | ||
Developmental tumourigenesis: NCAM as a putative marker for the malignant renal stem/progenitor cell population | Q39897131 | ||
P4510 | describes a project that uses | limma | Q112236343 |
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | nephroblastoma | Q756289 |
P304 | page(s) | 386-402 | |
P577 | publication date | 2014-01-01 | |
P1433 | published in | Oncotarget | Q1573155 |
P1476 | title | CITED1 confers stemness to Wilms tumor and enhances tumorigenic responses when enriched in the nucleus | |
P478 | volume | 5 |
Q37615057 | Effect of Hypoxia on the Differentiation and the Self-Renewal of Metanephrogenic Mesenchymal Stem Cells. |
Q36052678 | Genetic and chromosomal alterations in Kenyan Wilms Tumor |
Q37146691 | Genetic variation frequencies in Wilms' tumor: A meta-analysis and systematic review |
Q35028775 | SIX2 Effects on Wilms Tumor Biology |
Q36297071 | TGF-β-Induced Transcription Sustains Amoeboid Melanoma Migration and Dissemination. |
Q42995400 | The IGF signalling pathway in Wilms tumours--a report from the ENCCA Renal Tumours Biology-driven drug development workshop |
Q59329726 | knnAUC: an open-source R package for detecting nonlinear dependence between one continuous variable and one binary variable |
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