| review article | Q7318358 |
| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.YEXCR.2010.03.014 |
| P8608 | Fatcat ID | release_znfnng2whvhsvokd5elvbhzyey |
| P698 | PubMed publication ID | 20338163 |
| P50 | author | Viljar Jaks | Q42317958 |
| Maria Kasper | Q53216681 | ||
| P2093 | author name string | Rune Toftgård | |
| P2860 | cites work | Long-term renewal of hair follicles from clonogenic multipotent stem cells | Q24534838 |
| Wnt signaling, lgr5, and stem cells in the intestine and skin | Q24646716 | ||
| Epidermal homeostasis: a balancing act of stem cells in the skin | Q24654755 | ||
| Location of stem cells of human hair follicles by clonal analysis | Q64450268 | ||
| Morphogenesis and renewal of hair follicles from adult multipotent stem cells | Q73510104 | ||
| Highly persistent label-retaining cells in the hair follicles of mice and their fate following induction of anagen | Q77319162 | ||
| Epidermal stem cells arise from the hair follicle after wounding | Q79666857 | ||
| Comprehensive microarray transcriptome profiling of CD34-enriched mouse keratinocyte stem cells | Q80506466 | ||
| Crypt stem cells as the cells-of-origin of intestinal cancer | Q28304418 | ||
| Sox9 is essential for outer root sheath differentiation and the formation of the hair stem cell compartment | Q28513589 | ||
| Blimp1 defines a progenitor population that governs cellular input to the sebaceous gland | Q28584749 | ||
| Adult pancreatic beta-cells are formed by self-duplication rather than stem-cell differentiation | Q29614736 | ||
| 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 | ||
| HedgehogandBmpGenes Are Coexpressed at Many Diverse Sites of Cell–Cell Interaction in the Mouse Embryo | Q29618704 | ||
| Hair follicle stem cells are specified and function in early skin morphogenesis | Q33881467 | ||
| Coexistence of quiescent and active adult stem cells in mammals | Q33926891 | ||
| A distinct population of clonogenic and multipotent murine follicular keratinocytes residing in the upper isthmus. | Q34235512 | ||
| Capturing and profiling adult hair follicle stem cells. | Q34306293 | ||
| Stem cells in the hair follicle bulge contribute to wound repair but not to homeostasis of the epidermis | Q34467701 | ||
| The cell-surface marker MTS24 identifies a novel population of follicular keratinocytes with characteristics of progenitor cells | Q34544237 | ||
| Wnt-dependent de novo hair follicle regeneration in adult mouse skin after wounding | Q34629066 | ||
| A two-step mechanism for stem cell activation during hair regeneration | Q34939606 | ||
| CD34 expression by hair follicle stem cells is required for skin tumor development in mice | Q36238925 | ||
| An activating beta1 integrin mutation increases the conversion of benign to malignant skin tumors. | Q37102288 | ||
| Sic transit gloria: farewell to the epidermal transit amplifying cell? | Q37121024 | ||
| Stem cells are dispensable for lung homeostasis but restore airways after injury | Q37206441 | ||
| Hedgehog signaling in development and cancer. | Q37350250 | ||
| The tortoise and the hair: slow-cycling cells in the stem cell race | Q37505563 | ||
| Balancing dormant and self-renewing hematopoietic stem cells | Q37610592 | ||
| KGF and EGF signalling block hair follicle induction and promote interfollicular epidermal fate in developing mouse skin. | Q39976467 | ||
| Hair follicle stem cells in the lower bulge form the secondary germ, a biochemically distinct but functionally equivalent progenitor cell population, at the termination of catagen. | Q40458830 | ||
| Regeneration of multilineage skin epithelia by differentiated keratinocytes. | Q40835986 | ||
| Lrig1 expression defines a distinct multipotent stem cell population in mammalian epidermis | Q41390151 | ||
| Enrichment for living murine keratinocytes from the hair follicle bulge with the cell surface marker CD34. | Q42438557 | ||
| Identification of the cell lineage at the origin of basal cell carcinoma | Q42467302 | ||
| An extended epidermal response heals cutaneous wounds in the absence of a hair follicle stem cell contribution. | Q42820170 | ||
| Suprabasal alpha 5 beta1 integrin expression stimulates formation of epidermal squamous cell carcinomas without disrupting TGFbeta signaling or inducing spindle cell tumors | Q46517259 | ||
| Distinct stem cell populations regenerate the follicle and interfollicular epidermis | Q48110494 | ||
| Hair follicle dermal cells differentiate into adipogenic and osteogenic lineages. | Q51724286 | ||
| Keratin 15 promoter targets putative epithelial stem cells in the hair follicle bulge. | Q53372074 | ||
| Lgr5 marks cycling, yet long-lived, hair follicle stem cells. | Q53447869 | ||
| Dominant role of the niche in melanocyte stem-cell fate determination | Q57338437 | ||
| Oligopotent stem cells are distributed throughout the mammalian ocular surface | Q59054808 | ||
| Lgr6 Marks Stem Cells in the Hair Follicle That Generate All Cell Lineages of the Skin | Q63406949 | ||
| P433 | issue | 8 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 1422-1428 | |
| P577 | publication date | 2010-03-23 | |
| P1433 | published in | Experimental Cell Research | Q1524289 |
| P1476 | title | The hair follicle-a stem cell zoo | |
| P478 | volume | 316 |
| Q38912197 | A role for Rac1 activity in malignant progression of sebaceous skin tumors |
| Q38016773 | Adherens junctions and stem cells. |
| Q26801738 | Adult Stem Cell Responses to Nanostimuli |
| Q99414097 | Autologous, Non-Invasively Available Mesenchymal Stem Cells from the Outer Root Sheath of Hair Follicle Are Obtainable by Migration from Plucked Hair Follicles and Expandable in Scalable Amounts |
| Q27006913 | Basal cell carcinoma - molecular biology and potential new therapies |
| Q35290089 | Basal cell carcinoma preferentially arises from stem cells within hair follicle and mechanosensory niches. |
| Q37858332 | Cell-extracellular matrix interactions in normal and diseased skin |
| Q36317701 | Comparison between hair follicles and split-thickness skin grafts in cutaneous wound repair |
| Q55054189 | Cutaneous Papillomaviruses and Non-melanoma Skin Cancer: Causal Agents or Innocent Bystanders? |
| Q36944771 | Defining the cellular lineage hierarchy in the interfollicular epidermis of adult skin |
| Q39510974 | Delivery of epidermal neural crest stem cells (EPI-NCSC) to hippocamp in Alzheimer's disease rat model. |
| Q42415533 | Dermal stem cells can differentiate down an endothelial lineage. |
| Q36290875 | Dynamics of Lgr6⁺ Progenitor Cells in the Hair Follicle, Sebaceous Gland, and Interfollicular Epidermis |
| Q39382207 | Effects of gamma rays on the regeneration of murine hair follicles in the natural hair cycle. |
| Q46989369 | Electric fields guide migration of epidermal stem cells and promote skin wound healing |
| Q35612999 | Endogenous retinoids in the hair follicle and sebaceous gland |
| Q42409257 | Epidermal Differentiation in Barrier Maintenance and Wound Healing |
| Q26823139 | Epidermal development in mammals: key regulators, signals from beneath, and stem cells |
| Q38111202 | Epidermal stem cells in orthopaedic regenerative medicine |
| Q34716379 | Epidermal stem cells in the isthmus/infundibulum influence hair shaft differentiation: evidence from targeted DLX3 deletion |
| Q34609126 | Epithelial–Mesenchymal Interactions as a Working Concept for Oral Mucosa Regeneration |
| Q87278813 | Evaluation of the Effect of NT-3 and Biodegradable Poly-L-lactic Acid Nanofiber Scaffolds on Differentiation of Rat Hair Follicle Stem Cells into Neural Cells In Vitro |
| Q42494654 | Expansion of Hair Follicle Stem Cells Sticking to Isolated Sebaceous Glands to Generate in Vivo Epidermal Structures |
| Q52628016 | Extracellular Matrix as a Regulator of Epidermal Stem Cell Fate. |
| Q37998987 | Genetic mouse models for skin research: strategies and resources |
| Q40118308 | Hair Follicle Bulge Stem Cells Appear Dispensable for the Acute Phase of Wound Re-epithelialization |
| Q33625810 | Hair Follicle Generation by Injections of Adult Human Follicular Epithelial and Dermal Papilla Cells into Nude Mice |
| Q38837840 | Hair Follicle and Sebaceous Gland De Novo Regeneration With Cultured Epidermal Stem Cells and Skin-Derived Precursors |
| Q38195115 | Hair curvature: a natural dialectic and review |
| Q39984093 | Hair follicle and interfollicular epidermal stem cells make varying contributions to wound regeneration |
| Q35746420 | Hair follicle bulge cultures yield class III β-tubulin-positive melanoglial cells |
| Q35803051 | Hair follicle units promote re-epithelialization in chronic cutaneous wounds: A clinical case series study |
| Q36948090 | Hair follicle: a novel source of multipotent stem cells for tissue engineering and regenerative medicine |
| Q40544052 | High Runx1 levels promote a reversible, more-differentiated cell state in hair-follicle stem cells during quiescence. |
| Q38199076 | Human epithelial hair follicle stem cells and their progeny: current state of knowledge, the widening gap in translational research and future challenges |
| Q86331543 | Human hair follicle stem/progenitor cells express hypoxia markers |
| Q39052075 | Interfering with stem cell-specific gatekeeper functions controls tumour initiation and malignant progression of skin tumours |
| Q42512136 | Isolating stem cells in the inter-follicular epidermis employing synchrotron radiation-based Fourier-transform infrared microspectroscopy and focal plane array imaging |
| Q36021652 | Isolation and characterization of hair follicle stem cells from Arbas Cashmere goat. |
| Q58708065 | JunB defines functional and structural integrity of the epidermo-pilosebaceous unit in the skin |
| Q46194866 | Lgr6 is a stem cell marker in mouse skin squamous cell carcinoma. |
| Q46491205 | Local application of periodontal ligament stromal cells promotes soft tissue regeneration |
| Q38245726 | Modeling cutaneous squamous carcinoma development in the mouse |
| Q34264663 | Modulatory role of sensory innervation on hair follicle stem cell progeny during wound healing of the rat skin |
| Q38070254 | New insights into mechanisms of stem cell daughter fate determination in regenerative tissues. |
| Q27321422 | Nitric oxide promotes epidermal stem cell migration via cGMP-Rho GTPase signalling. |
| Q42740079 | Ontogeny and Homeostasis of Adult Epithelial Skin Stem Cells |
| Q37997980 | Organ repair and regeneration: an overview. |
| Q41861966 | Overexpression of epigen during embryonic development induces reversible, epidermal growth factor receptor-dependent sebaceous gland hyperplasia |
| Q36088510 | Ovine Hair Follicle Stem Cells Derived from Single Vibrissae Reconstitute Haired Skin |
| Q41018835 | PTEN Mediates Activation of Core Clock Protein BMAL1 and Accumulation of Epidermal Stem Cells |
| Q58778696 | Plasticity of differentiated cells in wound repair and tumorigenesis, part II: skin and intestine |
| Q34095001 | Rat hair follicle stem cells differentiate and promote recovery following spinal cord injury |
| Q38296301 | Retinoic acid metabolism proteins are altered in trichoblastomas induced by mouse papillomavirus 1. |
| Q34396696 | SOX2 is a cancer-specific regulator of tumour initiating potential in cutaneous squamous cell carcinoma. |
| Q50544861 | STEM CELLS. What is an adult stem cell? |
| Q37314462 | Single-Cell Transcriptomics Reveals that Differentiation and Spatial Signatures Shape Epidermal and Hair Follicle Heterogeneity |
| Q36682936 | Single-cell gene expression profiling reveals functional heterogeneity of undifferentiated human epidermal cells |
| Q35898391 | Skin-derived precursor cells as an in vitro modelling tool for the study of type 1 neurofibromatosis |
| Q38072592 | Stem cell application in acute burn care and reconstruction |
| Q83193463 | Stem cell dynamics in sebaceous gland morphogenesis in mouse skin |
| Q90854397 | Stem cell dynamics, migration and plasticity during wound healing |
| Q38008611 | Stem cells in ectodermal development |
| Q37998450 | Stem cells of the human epidermis and their niche: composition and function in epidermal regeneration and carcinogenesis |
| Q52859305 | Stereological Quantification of Cell-Cycle Kinetics and Mobilization of Epithelial Stem Cells during Wound Healing. |
| Q42038047 | The cell cycle regulator protein 14-3-3σ is essential for hair follicle integrity and epidermal homeostasis |
| Q42659111 | The epidermis comprises autonomous compartments maintained by distinct stem cell populations |
| Q48435539 | The first description of the hair follicle bulge by Franz von Leydig |
| Q39165507 | The hair follicle enigma. |
| Q26830450 | The human hair follicle, a bistable organ? |
| Q38019171 | Tissue stem cells: new tools and functional diversity |
| Q37705212 | To grow or not to grow: hair morphogenesis and human genetic hair disorders |
| Q35042887 | Unipotent, Atoh1+ progenitors maintain the Merkel cell population in embryonic and adult mice |
| Q90745241 | Unraveling Immune-Epithelial Interactions in Skin Homeostasis and Injury |
| Q28085048 | Vital roles of stem cells and biomaterials in skin tissue engineering |
| Q34652576 | Wounding enhances epidermal tumorigenesis by recruiting hair follicle keratinocytes. |
| Q37180589 | aPKCλ controls epidermal homeostasis and stem cell fate through regulation of division orientation |
Search more.