scholarly article | Q13442814 |
P50 | author | Kailin R Mesa | Q57055663 |
Valentina Greco | Q71611924 | ||
P2093 | author name string | Panteleimon Rompolas | |
P2860 | cites work | Long-term renewal of hair follicles from clonogenic multipotent stem cells | Q24534838 |
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The stem-cell niche as an entity of action | Q28249490 | ||
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Conditional gene expression in the epidermis of transgenic mice using the tetracycline-regulated transactivators tTA and rTA linked to the keratin 5 promoter | Q28589439 | ||
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 | ||
A robust and high-throughput Cre reporting and characterization system for the whole mouse brain | Q29616609 | ||
Intestinal crypt homeostasis results from neutral competition between symmetrically dividing Lgr5 stem cells | Q29619410 | ||
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Dynamics between stem cells, niche, and progeny in the hair follicle | Q30498374 | ||
Live imaging of stem cell and progeny behaviour in physiological hair-follicle regeneration | Q30544707 | ||
Coexistence of quiescent and active adult stem cells in mammals | Q33926891 | ||
Interconversion between intestinal stem cell populations in distinct niches | Q34231718 | ||
A comprehensive guide for the accurate classification of murine hair follicles in distinct hair cycle stages | Q34301829 | ||
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 | ||
Bmi1 is expressed in vivo in intestinal stem cells | Q34785173 | ||
Detection of functional haematopoietic stem cell niche using real-time imaging. | Q34893423 | ||
A two-step mechanism for stem cell activation during hair regeneration | Q34939606 | ||
The magical touch: genome targeting in epidermal stem cells induced by tamoxifen application to mouse skin | Q35555290 | ||
The bone marrow vascular niche: home of HSC differentiation and mobilization | Q36262585 | ||
Haematopoietic stem cells and early lymphoid progenitors occupy distinct bone marrow niches | Q36691868 | ||
Dermal papilla cell number specifies hair size, shape and cycling and its reduction causes follicular decline | Q36752943 | ||
A CK19(CreERT) knockin mouse line allows for conditional DNA recombination in epithelial cells in multiple endodermal organs | Q37075082 | ||
Stem cells and their niches: integrated units that maintain Drosophila tissues. | Q37331012 | ||
The tortoise and the hair: slow-cycling cells in the stem cell race | Q37505563 | ||
Compartmentalized organization: a common and required feature of stem cell niches? | Q37739680 | ||
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Hematopoietic stem cell heterogeneity takes center stage | Q38019172 | ||
Epithelial stem cells and implications for wound repair | Q38053844 | ||
Mouse differentiating spermatogonia can generate germinal stem cells in vivo | Q39903133 | ||
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 | ||
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 | ||
Redefining the structure of the hair follicle by 3D clonal analysis. | Q42512939 | ||
Distinct self-renewal and differentiation phases in the niche of infrequently dividing hair follicle stem cells. | Q42576367 | ||
CXCL12 in early mesenchymal progenitors is required for haematopoietic stem-cell maintenance | Q43226905 | ||
Intestinal stem cell replacement follows a pattern of neutral drift | Q44951523 | ||
Intestinal label-retaining cells are secretory precursors expressing Lgr5. | Q45481109 | ||
Interferon regulatory factor-2 protects quiescent hematopoietic stem cells from type I interferon-dependent exhaustion. | Q45988825 | ||
Hematopoietic stem cells reversibly switch from dormancy to self-renewal during homeostasis and repair | Q46210604 | ||
Hair follicle renewal: organization of stem cells in the matrix and the role of stereotyped lineages and behaviors. | Q50758135 | ||
An epithelial niche in the Drosophila ovary undergoes long-range stem cell replacement. | Q52689872 | ||
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 | ||
Induction of hair growth by implantation of cultured dermal papilla cells | Q59083880 | ||
P4510 | describes a project that uses | ImageJ | Q1659584 |
P433 | issue | 7472 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 513-518 | |
P577 | publication date | 2013-10-06 | |
P1433 | published in | Nature | Q180445 |
P1476 | title | Spatial organization within a niche as a determinant of stem-cell fate | |
P478 | volume | 502 |
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Q52628016 | Extracellular Matrix as a Regulator of Epidermal Stem Cell Fate. |
Q93017194 | Flexible fate determination ensures robust differentiation in the hair follicle |
Q41842755 | Flying back to the nest: Intravital microscopy reveals how the niche can induce stemness. |
Q37619197 | Foxi3 Deficiency Compromises Hair Follicle Stem Cell Specification and Activation |
Q39284465 | From good to bad: Intravital imaging of the hijack of physiological processes by cancer cells |
Q41758162 | Genetically induced cell death in bulge stem cells reveals their redundancy for hair and epidermal regeneration |
Q60721080 | Glutamate transporter Slc1a3 mediates inter-niche stem cell activation during skin growth |
Q40118308 | Hair Follicle Bulge Stem Cells Appear Dispensable for the Acute Phase of Wound Re-epithelialization |
Q41058885 | Hair Follicle Terminal Differentiation Is Orchestrated by Distinct Early and Late Matrix Progenitors |
Q38837840 | Hair Follicle and Sebaceous Gland De Novo Regeneration With Cultured Epidermal Stem Cells and Skin-Derived Precursors |
Q39984093 | Hair follicle and interfollicular epidermal stem cells make varying contributions to wound regeneration |
Q48166183 | Hair follicle stem cell cultures reveal self-organizing plasticity of stem cells and their progeny. |
Q35602361 | Hairy math: addition of Wnt-3a to multiply bulge cells |
Q36722985 | Hardwiring Stem Cell Communication through Tissue Structure |
Q38222925 | Heterogeneity and plasticity of epidermal stem cells. |
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Q40544052 | High Runx1 levels promote a reversible, more-differentiated cell state in hair-follicle stem cells during quiescence. |
Q47342056 | Highly multiplexed single-cell protein analysis |
Q57385046 | Homeostasis, regeneration and tumour formation in the mammalian epidermis |
Q36930489 | Human Cartilage-Derived Progenitor Cells From Committed Chondrocytes for Efficient Cartilage Repair and Regeneration. |
Q38199076 | Human epithelial hair follicle stem cells and their progeny: current state of knowledge, the widening gap in translational research and future challenges |
Q27312511 | Human keratinocytes have two interconvertible modes of proliferation. |
Q39091766 | Identifying niche-mediated regulatory factors of stem cell phenotypic state: a systems biology approach. |
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Q94923835 | Immune modulation of hair follicle regeneration |
Q34848374 | In vivo fluorescence microscopy: lessons from observing cell behavior in their native environment. |
Q49466044 | In vivo monitoring of hair cycle stages via bioluminescence imaging of hair follicle NG2 cells |
Q47283050 | Injury Induces Endogenous Reprogramming and Dedifferentiation of Neuronal Progenitors to Multipotency |
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