scholarly article | Q13442814 |
P356 | DOI | 10.1016/J.YDBIO.2009.02.034 |
P8608 | Fatcat ID | release_5tlapdny4bbivjwa5lrgrjoygm |
P932 | PMC publication ID | 2677135 |
P698 | PubMed publication ID | 19272374 |
P5875 | ResearchGate publication ID | 24187710 |
P2093 | author name string | Doris Herzlinger | |
Richard Guillaume | |||
Michel Bressan | |||
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The basic-helix-loop-helix protein pod1 is critically important for kidney and lung organogenesis | Q28504626 | ||
The forkhead genes, Foxc1 and Foxc2, regulate paraxial versus intermediate mesoderm cell fate | Q28505093 | ||
Tailbud-derived mesenchyme promotes urinary tract segmentation via BMP4 signaling | Q28505678 | ||
Wnt9b plays a central role in the regulation of mesenchymal to epithelial transitions underlying organogenesis of the mammalian urogenital system | Q28511083 | ||
Angioblast-mesenchyme induction of early kidney development is mediated by Wt1 and Vegfa | Q28512051 | ||
Nephric lineage specification by Pax2 and Pax8 | Q28585002 | ||
Foxd1-dependent signals control cellularity in the renal capsule, a structure required for normal renal development | Q28586643 | ||
Paracrine PDGF-B/PDGF-Rbeta signaling controls mesangial cell development in kidney glomeruli | Q28588857 | ||
Six2 defines and regulates a multipotent self-renewing nephron progenitor population throughout mammalian kidney development | Q28592487 | ||
Failure of blood-island formation and vasculogenesis in Flk-1-deficient mice | Q28593600 | ||
Osr1 expression demarcates a multi-potent population of intermediate mesoderm that undergoes progressive restriction to an Osr1-dependent nephron progenitor compartment within the mammalian kidney | Q28594297 | ||
Renal agenesis and the absence of enteric neurons in mice lacking GDNF | Q28594756 | ||
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Vascular endothelial growth factor induces nephrogenesis and vasculogenesis | Q30304308 | ||
Cell lineages in the embryonic kidney: their inductive interactions and signalling molecules | Q33678445 | ||
Segmentation of the paraxial mesoderm and vertebrate somitogenesis | Q33792882 | ||
Intrinsic epithelial cells repair the kidney after injury | Q34765013 | ||
Fate mapping using Cited1-CreERT2 mice demonstrates that the cap mesenchyme contains self-renewing progenitor cells and gives rise exclusively to nephronic epithelia. | Q37235452 | ||
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Antibodies to cell surface ganglioside GD3 perturb inductive epithelial-mesenchymal interactions | Q44981625 | ||
Cell lineage analysis reveals multipotency of some avian neural crest cells | Q46310772 | ||
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Morphogenetic Interaction between Embryonic Mouse Tissues separated by a Membrane Filter | Q59064712 | ||
Renal agenesis and hypodysplasia in ret-k- mutant mice result from defects in ureteric bud development | Q60418568 | ||
The mouse rib-vertebrae mutation is a hypomorphic Tbx6 allele | Q62555277 | ||
Early innervation of the metanephric kidney | Q68107653 | ||
Metanephric mesenchyme contains multipotent stem cells whose fate is restricted after induction | Q68183495 | ||
Neuronal characteristics in embryonic renal stroma | Q72160137 | ||
Induction of kidney epithelial morphogenesis by cells expressing Wnt-1 | Q72390400 | ||
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Signals from trunk paraxial mesoderm induce pronephros formation in chick intermediate mesoderm | Q73556382 | ||
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Postnatal maturation of renal cortical peritubular fibroblasts in the rat | Q74298832 | ||
Defect repair after somite removal in avian embryos is not true regeneration | Q77385447 | ||
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Histomorphology of renal dysplasia--an autopsy study | Q80110988 | ||
Pretreatment for immunohistochemical staining simplified | Q80382604 | ||
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Insertion of Cre into the Pax3 locus creates a new allele of Splotch and identifies unexpected Pax3 derivatives | Q81729304 | ||
P433 | issue | 2 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 169-175 | |
P577 | publication date | 2009-03-06 | |
P1433 | published in | Developmental Biology | Q3025402 |
P1476 | title | Paraxial mesoderm contributes stromal cells to the developing kidney | |
P478 | volume | 329 |
Q37424512 | Advances in early kidney specification, development and patterning |
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Q39218625 | Developmental origins and functions of stromal cells in the normal and diseased mammalian kidney |
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Q27324420 | Hox10 genes function in kidney development in the differentiation and integration of the cortical stroma |
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Q90271347 | Interactions between Muscle and Bone-Where Physics Meets Biology |
Q27346866 | Lhx1 is required for specification of the renal progenitor cell field |
Q37684913 | Lineage-tracing methods and the kidney |
Q37827314 | Microdissection of the gene expression codes driving nephrogenesis |
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Q37158061 | The genetics and epigenetics of kidney development |
Q51901835 | The regenerative potential of the kidney: what can we learn from developmental biology? |
Q39747265 | Wilms tumor cells with WT1 mutations have characteristic features of mesenchymal stem cells and express molecular markers of paraxial mesoderm |
Q34427707 | osr1 is required for podocyte development downstream of wt1a |
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