scholarly article | Q13442814 |
P6179 | Dimensions Publication ID | 1024441221 |
P356 | DOI | 10.1038/NM.2068 |
P932 | PMC publication ID | 3062536 |
P698 | PubMed publication ID | 19966811 |
P5875 | ResearchGate publication ID | 40453765 |
P2093 | author name string | Stephanie Le Corre | |
Peter Igarashi | |||
Antonia Doyen | |||
Celine Callens | |||
Evelyne Fischer | |||
Fabiola Terzi | |||
Francisco Verdeguer | |||
Marco Pontoglio | |||
Serge Garbay | |||
P2860 | cites work | Polycystin-1 and polycystin-2 regulate the cell cycle through the helix-loop-helix inhibitor Id2 | Q24297056 |
HNF-1beta regulates transcription of the PKD modifier gene Kif12 | Q24652325 | ||
Generalized lacZ expression with the ROSA26 Cre reporter strain | Q27860837 | ||
Hepatocyte nuclear factor 1 inactivation results in hepatic dysfunction, phenylketonuria, and renal Fanconi syndrome | Q28512217 | ||
PKD1 induces p21(waf1) and regulation of the cell cycle via direct activation of the JAK-STAT signaling pathway in a process requiring PKD2 | Q28585618 | ||
Inducible gene targeting in mice | Q29614544 | ||
A novel syndrome of diabetes mellitus, renal dysfunction and genital malformation associated with a partial deletion of the pseudo-POU domain of hepatocyte nuclear factor-1beta | Q33873845 | ||
Genetics and pathogenesis of polycystic kidney disease. | Q34145624 | ||
Protocol for the fast chromatin immunoprecipitation (ChIP) method | Q34615353 | ||
Mechanisms of renal cell repair and regeneration after acute renal failure | Q35072938 | ||
Acute kidney injury and aberrant planar cell polarity induce cyst formation in mice lacking renal cilia. | Q35148415 | ||
Murine models of polycystic kidney disease: molecular and therapeutic insights | Q35576595 | ||
Chromatin fine structure of the c-MYC insulator element/DNase I-hypersensitive site I is not preserved during mitosis. | Q36023840 | ||
Disruption of intraflagellar transport in adult mice leads to obesity and slow-onset cystic kidney disease | Q36156370 | ||
Mutations of HNF-1beta inhibit epithelial morphogenesis through dysregulation of SOCS-3. | Q36299972 | ||
A critical developmental switch defines the kinetics of kidney cyst formation after loss of Pkd1 | Q36549183 | ||
Hepatocyte nuclear factor 1alpha gene inactivation impairs chromatin remodeling and demethylation of the phenylalanine hydroxylase gene | Q36571101 | ||
Pkd1 inactivation induced in adulthood produces focal cystic disease | Q36985756 | ||
Renal injury is a third hit promoting rapid development of adult polycystic kidney disease | Q37239858 | ||
A transcriptional network in polycystic kidney disease | Q40775992 | ||
Mitotic repression of the transcriptional machinery. | Q41516335 | ||
Bile system morphogenesis defects and liver dysfunction upon targeted deletion of HNF1beta. | Q43948844 | ||
Recovery of Na-glucose cotransport activity after renal ischemia is impaired in mice lacking vimentin | Q44967266 | ||
Testosterone is responsible for enhanced susceptibility of males to ischemic renal injury | Q45052855 | ||
Defective planar cell polarity in polycystic kidney disease | Q46845250 | ||
Renal phenotypes related to hepatocyte nuclear factor-1beta (TCF2) mutations in a pediatric cohort | Q46863377 | ||
Kidney-specific inactivation of the Pkd1 gene induces rapid cyst formation in developing kidneys and a slow onset of disease in adult mice | Q46954400 | ||
Cystic kidney diseases: learning from animal models. | Q52086510 | ||
Cell proliferation and morphometric changes in the rat kidney during postnatal development. | Q52113752 | ||
Expression of the vHNF1/HNF1beta homeoprotein gene during mouse organogenesis. | Q52173199 | ||
Long-lasting arrest of murine polycystic kidney disease with CDK inhibitor roscovitine. | Q52575181 | ||
Autosomal dominant polycystic kidney disease | Q55898854 | ||
P433 | issue | 1 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | polycystic kidney disease | Q60195313 |
P304 | page(s) | 106-110 | |
P577 | publication date | 2009-12-06 | |
P1433 | published in | Nature Medicine | Q1633234 |
P1476 | title | A mitotic transcriptional switch in polycystic kidney disease | |
P478 | volume | 16 |
Q53949612 | 17q12 microduplications: a challenge for clinicians. |
Q93017832 | A changing paradigm of transcriptional memory propagation through mitosis |
Q58610045 | A novel mechanism of gland formation in zebrafish involving transdifferentiation of renal epithelial cells and live cell extrusion |
Q34523383 | ATARiS: computational quantification of gene suppression phenotypes from multisample RNAi screens |
Q93133683 | Autosomal dominant tubulointerstitial kidney disease |
Q34324705 | Bookmarking by specific and nonspecific binding of FoxA1 pioneer factor to mitotic chromosomes |
Q35108850 | Chromatin-based mechanisms of renal epithelial differentiation |
Q35112926 | Cilium, centrosome and cell cycle regulation in polycystic kidney disease. |
Q50615779 | Criteria for HNF1B analysis in patients with congenital abnormalities of kidney and urinary tract. |
Q39650947 | Cystogenesis in ARPKD results from increased apoptosis in collecting duct epithelial cells of Pkhd1 mutant kidneys |
Q34209951 | Developmental timing of CCM2 loss influences cerebral cavernous malformations in mice |
Q35154309 | Diabetic embryopathy: a role for the epigenome? |
Q84580181 | Diagnosis, management, and prognosis of HNF1B nephropathy in adulthood |
Q37049561 | Differences in the timing and magnitude of Pkd1 gene deletion determine the severity of polycystic kidney disease in an orthologous mouse model of ADPKD. |
Q34633331 | Epigenetics in kidney development and renal disease |
Q57127187 | Epithelial Morphogenesis during Liver Development |
Q35575972 | Expression of Nek1 during kidney development and cyst formation in multiple nephron segments in the Nek1-deficient kat2J mouse model of polycystic kidney disease |
Q34502167 | Gene-specific factors determine mitotic expression and bookmarking via alternate regulatory elements |
Q39442468 | Generation of c-Myc transgenic pigs for autosomal dominant polycystic kidney disease |
Q36485563 | Genome-scale study of transcription factor expression in the branching mouse lung |
Q88595958 | Genomic integration of ERRγ-HNF1β regulates renal bioenergetics and prevents chronic kidney disease |
Q39652255 | H2A.Z Maintenance during Mitosis Reveals Nucleosome Shifting on Mitotically Silenced Genes |
Q47953388 | HNF1B Loss Exacerbates the Development of Chromophobe Renal Cell Carcinomas |
Q47381215 | HNF1B controls epithelial organization and cell polarity during ureteric bud branching and collecting duct morphogenesis. |
Q27306798 | Heat-shock mediated overexpression of HNF1β mutations has differential effects on gene expression in the Xenopus pronephric kidney |
Q47823023 | Hepatocyte Nuclear Factor-1β Controls Mitochondrial Respiration in Renal Tubular Cells. |
Q51000106 | Hepatocyte Nuclear Factor-1β Regulates Urinary Concentration and Response to Hypertonicity. |
Q42408622 | Hepatocyte nuclear factor (HNF)-1β and its physiological importance in endometriosis |
Q34737520 | Hnf-1β transcription factor is an early hif-1α-independent marker of epithelial hypoxia and controls renal repair |
Q35157481 | Hnf1b controls pancreas morphogenesis and the generation of Ngn3+ endocrine progenitors |
Q38159948 | Hnf1beta and nephron segmentation. |
Q27323156 | Human mutations affect the epigenetic/bookmarking function of HNF1B |
Q34236659 | Hyperphosphorylation by cyclin B/CDK1 in mitosis resets CUX1 DNA binding clock at each cell cycle |
Q36050899 | Kidney injury accelerates cystogenesis via pathways modulated by heme oxygenase and complement |
Q51359429 | Maturity onset diabetes of the young: clinical characteristics and outcome after kidney and pancreas transplantation in MODY3 and RCAD patients: a single center experience. |
Q24634201 | Mechanisms of Nephronophthisis and Related Ciliopathies |
Q26825793 | Mechanisms of gene activation and repression by Pax proteins in the developing kidney |
Q90007868 | Mitotic Gene Bookmarking: An Epigenetic Program to Maintain Normal and Cancer Phenotypes |
Q29465550 | Mitotic binding of Esrrb marks key regulatory regions of the pluripotency network |
Q21198853 | Mitotic bookmarking by transcription factors |
Q47637271 | Mitotic bookmarking in development and stem cells. |
Q34551588 | Mitotic bookmarking of genes: a novel dimension to epigenetic control. |
Q64062735 | Modeling congenital kidney diseases in |
Q38702851 | Morphogenesis of liver epithelial cells |
Q34499444 | Network analysis of a Pkd1-mouse model of autosomal dominant polycystic kidney disease identifies HNF4α as a disease modifier. |
Q58442488 | New insights into the role of HNF-1β in kidney (patho)physiology |
Q90225937 | Nuclear localization signal region in nuclear receptor PXR governs the receptor association with mitotic chromatin |
Q88667939 | Nuclear organization mediates cancer-compromised genetic and epigenetic control |
Q35801521 | PPARγ contributes to PKM2 and HK2 expression in fatty liver |
Q42364020 | Polarity and renal cystogenesis |
Q33834308 | Reduced Notch signaling leads to renal cysts and papillary microadenomas |
Q92517399 | Regeneration after acute kidney injury requires PTIP-mediated epigenetic modifications |
Q36172922 | Renal CD14 expression correlates with the progression of cystic kidney disease |
Q34117987 | Renal malformations associated with mutations of developmental genes: messages from the clinic |
Q90636660 | Renal tubular cell spliced X-box binding protein 1 (Xbp1s) has a unique role in sepsis-induced acute kidney injury and inflammation |
Q39456491 | Retention and transmission of active transcription memory from progenitor to progeny cells via ligand-modulated transcription factors: elucidation of a concept by BIOPIT model |
Q89752910 | Role of transcription factor hepatocyte nuclear factor-1β in polycystic kidney disease |
Q26823342 | Similarities between the Epstein-Barr Virus (EBV) Nuclear Protein EBNA1 and the Pioneer Transcription Factor FoxA: Is EBNA1 a "Bookmarking" Oncoprotein that Alters the Host Cell Epigenotype? |
Q37419990 | Six2creFrs2α knockout mice are a novel model of renal cystogenesis |
Q36918069 | Specification of hepatopancreas progenitors in zebrafish by hnf1ba and wnt2bb. |
Q29994848 | Spindle pole cohesion requires glycosylation-mediated localization of NuMA. |
Q50349533 | Stat3 Controls Tubulointerstitial Communication during CKD. |
Q38073602 | The ciliary flow sensor and polycystic kidney disease |
Q42803172 | The elusive role of mitotic bookmarking in transcriptional regulation: Insights from Sox2. |
Q37158061 | The genetics and epigenetics of kidney development |
Q37886655 | The rediscovery of uromodulin (Tamm-Horsfall protein): from tubulointerstitial nephropathy to chronic kidney disease. |
Q38928815 | The role of tumor necrosis factor alpha in regulating the expression of Tamm-Horsfall Protein (uromodulin) in thick ascending limbs during kidney injury |
Q36968695 | Therapeutic mTOR inhibition in autosomal dominant polycystic kidney disease: What is the appropriate serum level? |
Q37426288 | Transcriptome analysis reveals manifold mechanisms of cyst development in ADPKD. |
Q38241290 | Translational research in ADPKD: lessons from animal models |
Q24338127 | Two mutations in human BICC1 resulting in Wnt pathway hyperactivity associated with cystic renal dysplasia |
Q35878013 | Two novel EGFP insertion alleles reveal unique aspects of Pax2 function in embryonic and adult kidneys |
Q54500056 | Upregulation of HNF-1β during experimental acute kidney injury plays a crucial role in renal tubule regeneration. |
Q96683535 | mTOR and S6K1 drive polycystic kidney by the control of Afadin-dependent oriented cell division |
Q37810461 | mTOR and rapamycin in the kidney: signaling and therapeutic implications beyond immunosuppression |
Q36967821 | miR-17~92 miRNA cluster promotes kidney cyst growth in polycystic kidney disease |
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