Six2 defines and regulates a multipotent self-renewing nephron progenitor population throughout mammalian kidney development
about
Special Morphological Features at the Interface of the Renal Stem/Progenitor Cell Niche Force to Reinvestigate Transport of Morphogens During Nephron InductionModeling Kidney Disease with iPS CellsThe Good and Bad of β-Catenin in Kidney Development and Renal DysplasiaAdult stem cells as a tool for kidney regenerationEmerging Transcriptional Mechanisms in the Regulation of Epithelial to Mesenchymal Transition and Cellular Plasticity in the KidneyAssembling Kidney Tissues from Cells: The Long Road from Organoids to OrgansThe FOXD1 lineage of kidney perivascular cells and myofibroblasts: functions and responses to injuryHow much can the tubule regenerate and who does it? An open questionBone morphogenetic protein signaling in nephron progenitor cellsOrgan In Vitro Culture: What Have We Learned about Early Kidney Development?Mechanisms of gene activation and repression by Pax proteins in the developing kidneyRecent advances in understanding of chronic kidney diseaseThe kidney and planar cell polarity.Is Wilms tumor a candidate neoplasia for treatment with WNT/β-catenin pathway modulators?--A report from the renal tumors biology-driven drug development workshopGenetic controls and cellular behaviors in branching morphogenesis of the renal collecting systemRenal stem cells: fact or science fiction?Coordination of kidney organogenesis by Wnt signalingModelling kidney disease with CRISPR-mutant kidney organoids derived from human pluripotent epiblast spheroidsA universal vector for high-efficiency multi-fragment recombineering of BACs and knock-in constructsYap- and Cdc42-dependent nephrogenesis and morphogenesis during mouse kidney developmentHox10 genes function in kidney development in the differentiation and integration of the cortical stromaPreserved Nephrogenesis Following Partial Nephrectomy in Early Neonates.Renal progenitors: Roles in kidney disease and regenerationDevelopment of the Mammalian KidneyConcise Review: Understanding the Renal Progenitor Cell Niche In Vivo to Recapitulate Nephrogenesis In VitroPhosphorylation of Kif26b promotes its polyubiquitination and subsequent proteasomal degradation during kidney developmentOsr1 acts downstream of and interacts synergistically with Six2 to maintain nephron progenitor cells during kidney organogenesisThe extracellular domain of Notch2 increases its cell-surface abundance and ligand responsiveness during kidney developmentLin28 sustains early renal progenitors and induces Wilms tumorGLI3 repressor controls nephron number via regulation of Wnt11 and Ret in ureteric tip cellsEfficient and rapid induction of human iPSCs/ESCs into nephrogenic intermediate mesoderm using small molecule-based differentiation methodsThe planar cell polarity gene Vangl2 is required for mammalian kidney-branching morphogenesis and glomerular maturationThe WTX tumor suppressor regulates mesenchymal progenitor cell fate specificationCanonical Wnt9b signaling balances progenitor cell expansion and differentiation during kidney developmentSOX9 controls epithelial branching by activating RET effector genes during kidney developmentKif26b, a kinesin family gene, regulates adhesion of the embryonic kidney mesenchymeOsr1 expression demarcates a multi-potent population of intermediate mesoderm that undergoes progressive restriction to an Osr1-dependent nephron progenitor compartment within the mammalian kidneySix2 and Wnt regulate self-renewal and commitment of nephron progenitors through shared gene regulatory networksSall1 balances self-renewal and differentiation of renal progenitor cellsPostembryonic Nephrogenesis and Persistence of Six2-Expressing Nephron Progenitor Cells in the Reptilian Kidney
P2860
Q26767053-D31385BC-4B06-4033-A479-CA45FA38C289Q26770384-F6FD5454-98D2-437B-A8C6-A5449F92DAF5Q26770522-D598A10E-9EC7-4BCE-98B0-BC7AA5042D0FQ26770750-01D51E9C-E141-41F8-88DB-EAC541885442Q26771698-C773F147-496D-4C5A-A302-8000D1ED805DQ26776005-5A6497B8-E275-4606-B768-13A41A8C59B1Q26796637-F8F63C47-0585-4362-AAFC-FF1AF7125CD9Q26801784-B8B59762-61E3-4479-9FCA-922189F10121Q26822802-4ADE3793-C7B7-41B9-9E3A-CD89D620D61CQ26822965-07E0525C-1627-46E1-B359-970670CC0B88Q26825793-19B29F73-9654-4EEF-A11E-8E34E71D2FA3Q26827631-6D146BEC-04E8-4712-B5E4-5CDFB22B2F3BQ26829303-46CCC366-0B54-4604-8170-F0224F0696A5Q26829595-47799CAE-94D8-4F57-AE19-1E27844F991BQ26996583-2CA9E296-45A2-4F8B-8B1D-CA66BD4965FFQ27006064-BF735896-7F23-4E13-94FE-1BA578E76EFFQ27021671-077CFD91-7997-4CEB-84E6-A3EEB9AF5C71Q27319887-0506B0BC-62B6-4972-8E7F-4325E3E43525Q27323376-07A2F312-2757-4EB0-B5A7-BD19ACB3D42FQ27323992-C8446703-467D-4D42-B01C-16EF24D7C41CQ27324420-34C45170-8D7D-4C79-BC72-075D792AE216Q27349423-2B26420A-49C0-48BF-BD0F-D736E958AABEQ28067647-318687CB-B619-45A6-8462-63DED3EEA947Q28069920-B690861C-9B74-4434-8F66-39B03575E74FQ28083531-AF98EE76-0AB4-411B-9B23-3533F8FB9ABCQ28506566-6D3BF5F2-822A-469A-AC04-6C32A00888FFQ28506958-B34AC511-9CEB-4876-A89A-0D0F6DAD534AQ28508689-43D0DD51-7BBF-4973-A713-E235B89882E6Q28511047-9C28E9E3-A178-40A4-9654-EBFD5E253899Q28513713-3A537CF1-3DB7-4A70-9456-25BC953DE719Q28538693-C778F928-B945-4F86-8EE2-BBFA751B2582Q28586682-AB0F73E3-EE2E-45CF-9300-89FE6E608F2DQ28587086-7CE16151-F009-442A-84E3-A9A73BE3770DQ28590640-9E7A140B-07B2-4A80-BCBC-9C929D788DDCQ28591102-34F9F4BD-A828-421E-B0DB-5378BFF83791Q28593385-791453EB-99FA-446A-9F8D-7B8C67E23B20Q28594297-3377BD72-8AA0-4C82-AA61-79DF71C5C246Q28594605-FCFF047F-848B-4BE6-939E-CFD9E29AE5F7Q28594787-E4FC9F3E-D913-484B-9B44-59ABDE381E0CQ28603277-85E658E8-FE59-4212-9DD7-2018DBFEF9AA
P2860
Six2 defines and regulates a multipotent self-renewing nephron progenitor population throughout mammalian kidney development
description
2008 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2008
@ast
scientific journal article
@en
vedecký článok (publikovaný 2008/08/07)
@sk
vědecký článek publikovaný v roce 2008
@cs
wetenschappelijk artikel (gepubliceerd op 2008/08/07)
@nl
wissenschaftlicher Artikel
@de
наукова стаття, опублікована в серпні 2008
@uk
مقالة علمية (نشرت في 7-8-2008)
@ar
name
Six2 defines and regulates a m ...... t mammalian kidney development
@ast
Six2 defines and regulates a m ...... t mammalian kidney development
@en
Six2 defines and regulates a m ...... t mammalian kidney development
@nl
type
label
Six2 defines and regulates a m ...... t mammalian kidney development
@ast
Six2 defines and regulates a m ...... t mammalian kidney development
@en
Six2 defines and regulates a m ...... t mammalian kidney development
@nl
prefLabel
Six2 defines and regulates a m ...... t mammalian kidney development
@ast
Six2 defines and regulates a m ...... t mammalian kidney development
@en
Six2 defines and regulates a m ...... t mammalian kidney development
@nl
P2093
P2860
P3181
P1433
P1476
Six2 defines and regulates a m ...... t mammalian kidney development
@en
P2093
Akio Kobayashi
Andrew P. McMahon
Guillermo Oliver
Joshua W. Mugford
Michelle Self
Thomas J. Carroll
P2860
P304
P3181
P356
10.1016/J.STEM.2008.05.020
P407
P577
2008-08-07T00:00:00Z