scholarly article | Q13442814 |
P356 | DOI | 10.4161/CC.9.15.12437 |
P8608 | Fatcat ID | release_55rhjmptp5dltf5urzj6slzfje |
P932 | PMC publication ID | 3040928 |
P698 | PubMed publication ID | 20647777 |
P5875 | ResearchGate publication ID | 45278887 |
P50 | author | Géraldine Guasch | Q38544582 |
P2093 | author name string | Alfor G Lewis | |
Georgianne Ciraolo | |||
Laura A Runck | |||
Megan Kramer | |||
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p63 Is essential for the proliferative potential of stem cells in stratified epithelia | Q28300720 | ||
Multiple dose-dependent roles for Sox2 in the patterning and differentiation of anterior foregut endoderm | Q28510560 | ||
Multipotent cell lineages in early mouse development depend on SOX2 function | Q28513175 | ||
p63 is essential for regenerative proliferation in limb, craniofacial and epithelial development | Q28587664 | ||
Mapping stem cell activities in the feather follicle | Q28649842 | ||
Self-renewal, multipotency, and the existence of two cell populations within an epithelial stem cell niche | Q29614984 | ||
Defining the epithelial stem cell niche in skin | Q29614985 | ||
Label-retaining cells reside in the bulge area of pilosebaceous unit: implications for follicular stem cells, hair cycle, and skin carcinogenesis | Q29615762 | ||
Loss of TGFbeta signaling destabilizes homeostasis and promotes squamous cell carcinomas in stratified epithelia | Q30482281 | ||
A putative human breast stem cell population is enriched for steroid receptor-positive cells | Q33210333 | ||
Promiscuous expression of H2B-GFP transgene in hematopoietic stem cells | Q33340302 | ||
A subpopulation of mouse esophageal basal cells has properties of stem cells with the capacity for self-renewal and lineage specification | Q33387191 | ||
The hepatic stem cell niche: identification by label-retaining cell assay | Q33760064 | ||
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Bone marrow long label-retaining cells reside in the sinusoidal hypoxic niche | Q80117808 | ||
The localization of label-retaining cells in eccrine glands | Q83258255 | ||
Hair follicle stem cells are specified and function in early skin morphogenesis | Q33881467 | ||
Expression of CD34 and Myf5 defines the majority of quiescent adult skeletal muscle satellite cells | Q33928516 | ||
Somatic stem cells and the kinetics of mutagenesis and carcinogenesis | Q34075155 | ||
Capturing and profiling adult hair follicle stem cells. | Q34306293 | ||
Socializing with the neighbors: stem cells and their niche | Q34307665 | ||
Epidermal label-retaining cells: background and recent applications | Q34348509 | ||
Stem cell niches in the adult mouse heart | Q34657903 | ||
Bone morphogenetic protein signaling suppresses tumorigenesis at gastric epithelial transition zones in mice | Q34680057 | ||
Novel functions of the CD34 family | Q34873662 | ||
Squamous cell carcinoma of the conjunctiva: a series of 26 cases | Q35589386 | ||
Transition zone carcinoma of the prostate gland: a common indolent tumour type that occasionally manifests aggressive behaviour | Q35601925 | ||
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Diagnosis and management of cervical cancer | Q36059890 | ||
Quantitative proliferation dynamics and random chromosome segregation of hair follicle stem cells | Q36642719 | ||
Lhx2 maintains stem cell character in hair follicles | Q36688765 | ||
Mechanisms regulating epithelial stratification | Q36816002 | ||
Normal ovarian surface epithelial label-retaining cells exhibit stem/progenitor cell characteristics | Q36858621 | ||
Crossing boundaries: stem cells, holoclones, and the fundamentals of squamous epithelial renewal | Q36946434 | ||
Distribution of label-retaining cells in the limbal epithelium of a mouse eye | Q37066083 | ||
The tortoise and the hair: slow-cycling cells in the stem cell race | Q37505563 | ||
Genetic models to study quiescent stem cells and their niches | Q37606542 | ||
Adult kidney tubular cell population showing phenotypic plasticity, tubulogenic capacity, and integration capability into developing kidney | Q40341783 | ||
Malignant anal tumours | Q40763472 | ||
Isolation and culture of epithelial stem cells | Q42004738 | ||
Enrichment for living murine keratinocytes from the hair follicle bulge with the cell surface marker CD34. | Q42438557 | ||
Existence of slow-cycling limbal epithelial basal cells that can be preferentially stimulated to proliferate: implications on epithelial stem cells | Q42497816 | ||
Identification of candidate murine esophageal stem cells using a combination of cell kinetic studies and cell surface markers | Q42502664 | ||
Evidence for stem-cell niches in the tracheal epithelium | Q42506114 | ||
Evidence that a slowly cycling subpopulation of adult murine epidermal cells retains carcinogen | Q42524593 | ||
Rate of loss of tritiated thymidine label in basal cells in mouse epithelial tissues | Q42524984 | ||
Label-retaining cells of the bladder: candidate urothelial stem cells | Q42526092 | ||
Keratin 19 as a biochemical marker of skin stem cells in vivo and in vitro: keratin 19 expressing cells are differentially localized in function of anatomic sites, and their number varies with donor age and culture stage. | Q42813428 | ||
Analysis of histone 2B-GFP retention reveals slowly cycling hematopoietic stem cells | Q42938783 | ||
Malignant epithelial tumors of the anal canal | Q44794516 | ||
A subset of human limbal epithelial cells with greater nucleus-to-cytoplasm ratio expressing high levels of p63 possesses slow-cycling property | Q46228354 | ||
Clinical and pathologic description of 17 cases of corneal intraepithelial neoplasia | Q71345373 | ||
Identification and behavior of label-retaining cells in oral mucosa and skin | Q72014731 | ||
Involvement of follicular stem cells in forming not only the follicle but also the epidermis | Q74244902 | ||
P433 | issue | 15 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 3039-3045 | |
P577 | publication date | 2010-08-20 | |
P1433 | published in | Cell Cycle | Q1254166 |
P1476 | title | Identification of epithelial label-retaining cells at the transition between the anal canal and the rectum in mice | |
P478 | volume | 9 |
Q38256803 | An update on anal neoplasia |
Q33812873 | Characterization of slow cycling corneal limbal epithelial cells identifies putative stem cell markers |
Q37656680 | De-repression of the RAC activator ELMO1 in cancer stem cells drives progression of TGFβ-deficient squamous cell carcinoma from transition zones. |
Q37682388 | Defining the molecular pathologies in cloaca malformation: similarities between mouse and human |
Q37899781 | Label retaining cells and cutaneous stem cells |
Q35979867 | Lamellipodin-Deficient Mice: A Model of Rectal Carcinoma |
Q37505545 | Long-term label retaining cells localize to distinct regions within the female reproductive epithelium |
Q36997578 | Role of the stem cell niche in the pathogenesis of epithelial ovarian cancers |
Q33689394 | Serial orthotopic transplantation of epithelial tumors in single-cell suspension |
Q50068467 | Stem Cell Pathology |
Q34999356 | TGFβ signaling inhibits goblet cell differentiation via SPDEF in conjunctival epithelium. |
Q34560098 | TGFβ signaling regulates lipogenesis in human sebaceous glands cells |
Q34998859 | The great divide: septation and malformation of the cloaca, and its implications for surgeons |
Q35559958 | Tumor-selective, adenoviral-mediated GFP genetic labeling of human cancer in the live mouse reports future recurrence after resection |
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