scholarly article | Q13442814 |
P50 | author | Qais Al-awqati | Q42883368 |
Argiris Efstratiadis | Q66809416 | ||
P2093 | author name string | Timothy P Martens | |
Apostolos Klinakis | |||
Faisal H Cheema | |||
Rosemary V Sampogna | |||
Charles Liu | |||
Jonathan Friedlander | |||
Juan A Oliver | |||
P2860 | cites work | Isolation and characterization of multipotent progenitor cells from the Bowman's capsule of adult human kidneys | Q24298682 |
The renal papilla is a niche for adult kidney stem cells | Q24562153 | ||
The pathogenesis of acute renal failure associated with traumatic and toxic injury; renal ischemia, nephrotoxic damage and the ischemic episode | Q24562507 | ||
Subventricular zone astrocytes are neural stem cells in the adult mammalian brain | Q28137965 | ||
The Ki-67 protein: from the known and the unknown | Q28143714 | ||
Organizing cell renewal in the intestine: stem cells, signals and combinatorial control | Q28235109 | ||
In vivo analysis of quiescent adult neural stem cells responding to Sonic hedgehog | Q28275763 | ||
Nestin expression--a property of multi-lineage progenitor cells? | Q28291663 | ||
Adult pancreatic beta-cells are formed by self-duplication rather than stem-cell differentiation | Q29614736 | ||
Defining the epithelial stem cell niche in skin | Q29614985 | ||
For the long run: maintaining germinal niches in the adult brain | Q29615156 | ||
Mesenchymal stem cells reside in virtually all post-natal organs and tissues | Q29617740 | ||
Adult cardiac stem cells are multipotent and support myocardial regeneration | Q29620122 | ||
All beta cells contribute equally to islet growth and maintenance | Q33286067 | ||
Sca-1 expression identifies stem cells in the proximal region of prostatic ducts with high capacity to reconstitute prostatic tissue. | Q33821738 | ||
Stem cells in the hair follicle bulge contribute to wound repair but not to homeostasis of the epidermis | Q34467701 | ||
Beta cells can be generated from endogenous progenitors in injured adult mouse pancreas | Q34744604 | ||
Intrinsic epithelial cells repair the kidney after injury | Q34765013 | ||
The renal medullary interstitium: focus on osmotic hypertonicity | Q35072139 | ||
Epidermal stem cells: properties, markers, and location. | Q36127582 | ||
Musculin/MyoR is expressed in kidney side population cells and can regulate their function | Q36321197 | ||
Essential but differential role for CXCR4 and CXCR7 in the therapeutic homing of human renal progenitor cells. | Q36502835 | ||
GDF15 triggers homeostatic proliferation of acid-secreting collecting duct cells | Q36906059 | ||
Isolation of renal progenitor cells from adult human kidney | Q38585185 | ||
Contribution of olfactory neural stem cells to tissue maintenance and regeneration | Q42511963 | ||
Proliferation, migration, and differentiation of endogenous ependymal region stem/progenitor cells following minimal spinal cord injury in the adult rat. | Q45244360 | ||
Distinct stem cell populations regenerate the follicle and interfollicular epidermis | Q48110494 | ||
Normal distribution and medullary-to-cortical shift of Nestin-expressing cells in acute renal ischemia. | Q50697869 | ||
Isolation and characterization of nontubular sca-1+lin- multipotent stem/progenitor cells from adult mouse kidney. | Q51106996 | ||
Collecting duct epithelial-mesenchymal transition in fetal urinary tract obstruction. | Q52580846 | ||
Mesenchymal transition in kidney collecting duct epithelial cells. | Q52585581 | ||
Growth and regeneration of adult beta cells does not involve specialized progenitors. | Q53554508 | ||
Proximal tubular epithelial cells are generated by division of differentiated cells in the healthy kidney. | Q53598069 | ||
Isolation and Characterization of Kidney-Derived Stem Cells | Q56777906 | ||
Kidney Side Population Reveals Multilineage Potential and Renal Functional Capacity but also Cellular Heterogeneity | Q60212955 | ||
Immunohistochemical Study of Cytokeratin Distribution in the Collecting Duct of the Human Kidney | Q67706933 | ||
Cell proliferation in rat kidney induced by 1,2-dibromoethane | Q68158193 | ||
Fine structure of the rat renal papilla | Q72894634 | ||
Involvement of follicular stem cells in forming not only the follicle but also the epidermis | Q74244902 | ||
Hepatic oval cell activation in response to injury following chemically induced periportal or pericentral damage in rats | Q74428436 | ||
Oxygen transport across vasa recta in the renal medulla | Q74615661 | ||
Identification of renal progenitor-like tubular cells that participate in the regeneration processes of the kidney | Q79323972 | ||
Functional identification of the actual and potential stem cell compartments in mouse spermatogenesis | Q79716809 | ||
P433 | issue | 11 | |
P921 | main subject | cell migration | Q189092 |
P304 | page(s) | 2315-2327 | |
P577 | publication date | 2009-09-17 | |
P1433 | published in | Journal of the American Society of Nephrology | Q17123893 |
P1476 | title | Proliferation and migration of label-retaining cells of the kidney papilla | |
P478 | volume | 20 |
Q37082358 | A Subpopulation of Label-Retaining Cells of the Kidney Papilla Regenerates Injured Kidney Medullary Tubules |
Q37584687 | A label-retaining but unipotent cell population resides in biliary compartment of mammalian liver |
Q30503942 | Adult human CD133/1(+) kidney cells isolated from papilla integrate into developing kidney tubules |
Q38393204 | Adult stem-like cells in kidney. |
Q53198966 | Age-related decline in label-retaining tubular cells: implication for reduced regenerative capacity after injury in the aging kidney. |
Q50049701 | Biomarker discovery for renal cancer stem cells. |
Q37244717 | C-kit(+) cells isolated from developing kidneys are a novel population of stem cells with regenerative potential |
Q39021703 | Cellular plasticity in kidney injury and repair |
Q35647867 | Characterization and fate of telomerase-expressing epithelia during kidney repair |
Q38683053 | Comparing adult renal stem cell identification, characterization and applications |
Q38169918 | Controversies on the origin of proliferating epithelial cells after kidney injury |
Q27015938 | Development of the kidney medulla |
Q34627572 | Distinct populations of label-retaining cells in the adult kidney are defined temporally and exhibit divergent regional distributions. |
Q38162111 | Experimental renal progenitor cells: repairing and recreating kidneys? |
Q47661766 | Expression of the innate defense receptor S5D-SRCRB in the urogenital tract |
Q37115414 | HDAC inhibitors in kidney development and disease |
Q35797183 | Hyperglycemic Stress Impairs the Stemness Capacity of Kidney Stem Cells in Rats |
Q48075541 | In Vivo Identification and Induction of Articular Cartilage Stem Cells by Inhibiting NF-κB Signaling in Osteoarthritis. |
Q58782618 | Inhibition of mTORC1 signaling protects kidney from irradiation-induced toxicity via accelerating recovery of renal stem-like cells |
Q38729509 | Interstitial stromal progenitors during kidney development: here, there and everywhere. |
Q44147853 | Intrarenal urothelium proliferation: an unexpected early event following ischemic injury |
Q35331358 | Isolation of live label-retaining cells and cells undergoing asymmetric cell division via nonrandom chromosomal cosegregation from human cancers |
Q92051879 | Kidney Cells Regeneration: Dedifferentiation of Tubular Epithelium, Resident Stem Cells and Possible Niches for Renal Progenitors |
Q37728655 | Kidney regeneration |
Q35124564 | Kidney regeneration and resident stem cells |
Q38167720 | Kidney regeneration and stem cells |
Q52724328 | Kidney-Derived c-Kit+ Cells Possess Regenerative Potential. |
Q35864449 | Kinetics of Label Retaining Cells in the Developing Rat Kidneys |
Q27346608 | Label-retaining cells in the adult murine salivary glands possess characteristics of adult progenitor cells |
Q35167313 | Label-retaining stromal cells in mouse endometrium awaken for expansion and repair after parturition. |
Q33700247 | Mechanisms and consequences of injury and repair in older organ transplants |
Q26827457 | Mesenchymal stem cells as a therapeutic approach to glomerular diseases: benefits and risks |
Q37709194 | Myostatin regulates tissue potency and cardiac calcium-handling proteins |
Q28272436 | Neonatal vascularization and oxygen tension regulate appropriate perinatal renal medulla/papilla maturation |
Q38245544 | Progenitor/stem cells in renal regeneration and mass lesions |
Q36880911 | Regenerative medicine for the kidney: stem cell prospects & challenges |
Q35693864 | Renal organogenesis: what can it tell us about renal repair and regeneration? |
Q27006064 | Renal stem cells: fact or science fiction? |
Q35022127 | Repair of injured proximal tubule does not involve specialized progenitors |
Q33839985 | Role of medullary progenitor cells in epithelial cell migration and proliferation. |
Q36042200 | SDF-1 activates papillary label-retaining cells during kidney repair from injury |
Q40911733 | Sox9-Positive Progenitor Cells Play a Key Role in Renal Tubule Epithelial Regeneration in Mice |
Q36567216 | Stem cell marker TRA-1-60 is expressed in foetal and adult kidney and upregulated in tubulo-interstitial disease |
Q27006024 | Stem cells: potential and challenges for kidney repair |
Q51901835 | The regenerative potential of the kidney: what can we learn from developmental biology? |
Q42874816 | The regulation of growth and metabolism of kidney stem cells with regional specificity using extracellular matrix derived from kidney |
Q36855784 | The role of long-term label-retaining cells in the regeneration of adult mouse kidney after ischemia/reperfusion injury |
Q90116351 | Three Optimized Methods for In Situ Quantification of Progenitor Cell Proliferation in Embryonic Kidneys Using BrdU, EdU, and PCNA |
Q47315507 | Troy/TNFRSF19 marks epithelial progenitor cells during mouse kidney development that continue to contribute to turnover in adult kidney |
Q39275475 | Upregulation of nestin in proximal tubules may participate in cell migration during renal repair |
Q38243037 | Who regenerates the kidney tubule? |
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