Keratin-14-Positive Precursor Cells Spawn a Population of Migratory Corneal Epithelia that Maintain Tissue Mass throughout Life

[1]  De-Quan Li,et al.  Identification for Differential Localization of Putative Corneal Epithelial Stem Cells in Mouse and Human , 2017, Scientific Reports.

[2]  M. Stepp,et al.  Corneal epithelial cells function as surrogate Schwann cells for their sensory nerves , 2017, Glia.

[3]  M. Myerscough,et al.  Self-organized centripetal movement of corneal epithelium in the absence of external cues , 2016, Nature Communications.

[4]  D. Wakefield,et al.  Keratin 14 Expression in Epithelial Progenitor Cells of the Developing Human Cornea. , 2016, Stem cells and development.

[5]  R. Hill,et al.  Lineage tracing in the adult mouse corneal epithelium supports the limbal epithelial stem cell hypothesis with intermittent periods of stem cell quiescence☆ , 2015, Stem cell research.

[6]  D. Wakefield,et al.  Tracing the Fate of Limbal Epithelial Progenitor Cells in the Murine Cornea , 2015, Stem cells.

[7]  T. Weissman,et al.  Zebrabow: multispectral cell labeling for cell tracing and lineage analysis in zebrafish , 2013, Development.

[8]  Allon M. Klein,et al.  A Single Progenitor Population Switches Behavior to Maintain and Repair Esophageal Epithelium , 2012, Science.

[9]  Johannes E. Schindelin,et al.  Fiji: an open-source platform for biological-image analysis , 2012, Nature Methods.

[10]  G. Landini,et al.  Three Dimensional Visualization and Fractal Analysis of Mosaic Patches in Rat Chimeras: Cell Assortment in Liver, Adrenal Cortex and Cornea , 2012, PloS one.

[11]  Allon M. Klein,et al.  Universal patterns of stem cell fate in cycling adult tissues , 2011, Development.

[12]  Hans Clevers,et al.  Intestinal Crypt Homeostasis Results from Neutral Competition between Symmetrically Dividing Lgr5 Stem Cells , 2010, Cell.

[13]  R. Mort,et al.  Mosaic analysis of stem cell function and wound healing in the mouse corneal epithelium , 2009, BMC Developmental Biology.

[14]  Y. Barrandon,et al.  Oligopotent stem cells are distributed throughout the mammalian ocular surface , 2008, Nature.

[15]  M. Stepp,et al.  Integrins in Slow‐Cycling Corneal Epithelial Cells at the Limbus in the Mouse , 2006, Stem cells.

[16]  Dipika V Patel,et al.  Mapping of the normal human corneal sub-Basal nerve plexus by in vivo laser scanning confocal microscopy. , 2005, Investigative ophthalmology & visual science.

[17]  P. Chambon,et al.  Temporally controlled targeted somatic mutagenesis in embryonic surface ectoderm and fetal epidermal keratinocytes unveils two distinct developmental functions of BRG1 in limb morphogenesis and skin barrier formation , 2005, Development.

[18]  G. Sanderson,et al.  Ultraviolet photography of the in vivo human cornea unmasks the Hudson-Stähli line and physiologic vortex patterns. , 2005, Investigative ophthalmology & visual science.

[19]  J. Zieske,et al.  Corneal development associated with eyelid opening. , 2004, The International journal of developmental biology.

[20]  Chien-Chia Cheng,et al.  Age-Related Expressions of p63 and Other Keratinocyte Stem Cell Markers in Rat Cornea , 2004, Journal of Biomedical Science.

[21]  T. Nagasaki,et al.  Centripetal movement of corneal epithelial cells in the normal adult mouse. , 2003, Investigative ophthalmology & visual science.

[22]  B. Dhillon,et al.  Clonal analysis of patterns of growth, stem cell activity, and cell movement during the development and maintenance of the murine corneal epithelium , 2002, Developmental dynamics : an official publication of the American Association of Anatomists.

[23]  W. Petroll,et al.  Effect of Eyelid Closure and Overnight Contact Lens Wear on Viability of Surface Epithelial Cells in Rabbit Cornea , 2002, Cornea.

[24]  H. Dua,et al.  Clinical course of hurricane keratopathy , 2000, The British journal of ophthalmology.

[25]  B. Masters,et al.  Cell lineage and the differentiation of corneal epithelial cells. , 1996, Investigative ophthalmology & visual science.

[26]  R. Buck,et al.  Measurement of centripetal migration of normal corneal epithelial cells in the mouse. , 1985, Investigative ophthalmology & visual science.

[27]  J. Friend,et al.  The X, Y, Z hypothesis of corneal epithelial maintenance. , 1983, Investigative ophthalmology & visual science.

[28]  M. Davanger,et al.  Role of the Pericorneal Papillary Structure in Renewal of Corneal Epithelium , 1971, Nature.

[29]  J. Gass The Iron Lines of the Superficial Cornea: Hudson-Stahli Line, Stocker's Line and Fleischer's Ring , 1964 .

[30]  I. Mann,et al.  A STUDY OF EPITHELIAL REGENERATION IN THE LIVING EYE , 1944, The British journal of ophthalmology.

[31]  P. Lwigale Corneal Development: Different Cells from a Common Progenitor. , 2015, Progress in molecular biology and translational science.

[32]  寺井 典子,et al.  Expression of keratin 12 and maturation of corneal epithelium during development and postnatal growth , 2006 .

[33]  Y. Hsueh,et al.  HSUEH YJ, WANG DY, CHENG CC, CHEN JK. AGERELATED EXPRESSIONS OF P63 AND OTHER KERATINOCYTE STEM CELL MARKERS IN RAT CORNEA , 2004 .

[34]  G. Wilson,et al.  The cell shedding rate of the corneal epithelium--a comparison of collection methods. , 1996, Current eye research.

[35]  J. Auran,et al.  Scanning slit confocal microscopic observation of cell morphology and movement within the normal human anterior cornea. , 1995, Ophthalmology.

[36]  M. Maniaci,et al.  Expression of keratins K12, K4 and K14 during development of ocular surface epithelium. , 1994, Current eye research.

[37]  G. Rose,et al.  The Hudson-Stahli line II: A comparison of properties in eyes with and without long-term contact lens wear , 1987, Eye.

[38]  G. Rose,et al.  The Hudson-Stahli line III: Observations on morphology, a critical review of aetiology and a unified theory for the formation of iron lines of the corneal epithelium , 1987, Eye.

[39]  Bron Aj Vortex patterns of the corneal epithelium. , 1973 .

[40]  J. Gass THE IRON LINES OF THE SUPERFICIAL CORNEA. , 1964, Archives of ophthalmology.