Limbal epithelial stem cells: role of the niche microenvironment. - Wikidata - wikimedia - TriplyDB

Limbal epithelial stem cells: role of the niche microenvironment.

Limbal epithelial stem cells: role of the niche microenvironment.

http://www.wikidata.org/entity/Q37963313

about

Limbal stem cells: Central concepts of corneal epithelial homeostasis Telocytes in regenerative medicine Progress in corneal wound healing Involvement of YAP, TAZ and HSP90 in contact guidance and intercellular junction formation in corneal epithelial cells Telocytes and stem cells in limbus and uvea of mouse eye Technical brief: Optimized pipeline for isolation of high-quality RNA from corneal cell subpopulations.Genome-wide analysis suggests a differential microRNA signature associated with normal and diabetic human corneal limbus Human limbal mesenchymal cells support the growth of human corneal epithelial stem/progenitor cells.Human corneal epithelial subpopulations: oxygen dependent ex vivo expansion and transcriptional profiling.Translational models of ocular disease.Expression of SFRP Family Proteins in Human Keratoconus Corneas.A simple alkaline method for decellularizing human amniotic membrane for cell culture.Cell Adhesion Molecules and Stem Cell-Niche-Interactions in the Limbal Stem Cell Niche.Correlation between the existence of the palisades of Vogt and limbal epithelial thickness in limbal stem cell deficiency.Ultrastructural identification of telocytes in the muscularis of chicken ileum.Lacrimal Gland Inflammation Deregulates Extracellular Matrix Remodeling and Alters Molecular Signature of Epithelial Stem/Progenitor Cells.Concise review: immunological properties of ocular surface and importance of limbal stem cells for transplantation.Small-molecule induction promotes corneal epithelial cell differentiation from human induced pluripotent stem cells.Natural corneal cell-based microenvironment as prerequisite for balanced 3D corneal epithelial morphogenesis: a promising animal experiment-abandoning tool in ophthalmology Foxc1 and Foxc2 in the Neural Crest Are Required for Ocular Anterior Segment Development.The limbal epithelium of the eye--a review of limbal stem cell biology, disease and treatment.The role of integrins in the development and homeostasis of the epidermis and skin appendages Limbal epithelial stem-microenvironmental alteration leads to pterygium development.A Tale of Two Cells: Telocyte and Stem Cell Unique Relationship.The promise of stem cell-based therapeutics in ophthalmology.Laminin-511 and -521-based matrices for efficient ex vivo-expansion of human limbal epithelial progenitor cells.A method for quantifying limbal stem cell niches using OCT imaging.Comparison of upstream regulators in human ex vivo cultured cornea limbal epithelial stem cells and differentiated corneal epithelial cells.Differentiation of human limbal-derived induced pluripotent stem cells into limbal-like epithelium.Long-term maintenance of limbal epithelial progenitor cells using rho kinase inhibitor and keratinocyte growth factor.Stem Cell Therapy for Corneal Epithelium Regeneration following Good Manufacturing and Clinical Procedures.The diagnosis of limbal stem cell deficiency.Consecutive expansion of limbal epithelial stem cells from a single limbal biopsy.microRNA-184 Induces a Commitment Switch to Epidermal Differentiation.Successful Consecutive Expansion of Limbal Explants Using a Biosafe Culture Medium under Feeder Layer-Free Conditions.[The emerging technology of tissue engineering : Focus on stem cell niche].Characterization of the corneal surface in limbal stem cell deficiency and after transplantation of cultured allogeneic limbal epithelial cells.Contributions of tissue-specific pathologies to corneal injuries following exposure to SM vapor.Regeneration of corneal epithelium utilizing a collagen vitrigel membrane in rabbit models for corneal stromal wound and limbal stem cell deficiency.The Superficial Mechanical and Physical Properties of Matrix Microenvironment as Stem Cell Fate Regulator

P2860

Q26860735-4B3FF038-1ECE-47EA-8D90-631EAC0BC292 Q27012708-2ED8E55F-E87E-4A8B-8B13-8C3058C4757D Q28081311-E22CA609-363B-4F3A-9F24-18EFFB5AADC5 Q28543584-9AEC8A32-DEF0-422D-B77B-D2DF1A744655 Q31134327-F069F445-BF07-44F6-B695-8C488B834B68 Q33753816-2A9F05E6-E2AE-4A65-9C0B-B43E7B4F96FE Q33799541-0743305D-50E8-40C3-9EF5-91D77B501AA7 Q34433585-D06E7854-307C-48F3-88EB-D3BE9AF5D571 Q34754361-DE5AE30A-0301-4B1A-86A6-6A7EDE38C706 Q34764453-09EE4270-005B-4DF6-B649-782B8FCDC7EC Q34793735-1C4406A5-7306-48FF-BEAD-B6C093841786 Q35043865-4EB95DF0-C54A-4121-9074-E2F9B99A4106 Q35767040-B76758DE-24B9-42E6-950F-9394BC8E95A8 Q36122447-A9A7574B-BD05-405A-BC72-12AA60BF930A Q36336445-310ED806-6BC2-4A6C-9962-B35C39A8E3B6 Q36425014-5CE545D4-A91C-4A98-AB47-44B4BC65BAD2 Q37052856-E44144C4-F6D7-4116-AD6E-71D291147C8B Q37581655-51D00D99-3C46-4423-A94B-F9D107B6A59C Q37670983-E2017505-D3A3-4A94-B261-10DF3A7B1040 Q37715257-98D38112-3C51-4BC6-A2BE-5A42994E9E95 Q38058004-0F682296-7417-49BD-A363-E5F5B97250B9 Q38181120-62EBC031-5550-4342-8DCB-5A82AB158644 Q38962402-AE075EFA-86F3-4696-937F-EC0725A2100D Q38994864-51162213-512B-481A-9A6C-868BD4E53A9D Q39236145-C4FC9407-AF64-42F5-A17F-5BD1CD3E442F Q40986461-641DF1F9-077B-4552-A505-20AFCA174E29 Q41543928-A3C9153D-A790-4F89-89A5-FDE50A8A423B Q41850284-DCB63B15-5C19-4A06-9273-9C9B149574CC Q41925642-3C379BC8-FA40-4C39-9B47-E83796F8041F Q42443747-826B5D61-EAF3-4CE6-8C76-DDB2C3044C7A Q43019631-93B7E1B3-AFB7-46FB-B41E-9F164D5FA726 Q45933055-8028F363-C319-47B3-8BC2-B1401FA7B79B Q45941405-7DF1A9C6-5DD1-4A13-AFC0-D1435FC2E385 Q47281679-E56CFD9C-99F0-4A57-8293-943DBE97D623 Q51031200-62811519-D5BD-4FA3-84F7-D2B638811149 Q52711523-7F45144A-D025-45CF-AFC3-4A32B5EBB62E Q53079430-C0DA34DF-8B0A-4005-9029-958FE5079EA1 Q53083481-8FAF23A4-62E6-49EF-B0D4-515DB566E74D Q53672259-40531C62-CF20-4C16-81FC-6E7B0FE240DE Q57346662-8E668C77-18F5-41AE-8E54-95C24EBFA981

P2860

Limbal epithelial stem cells: role of the niche microenvironment.

http://www.wikidata.org/entity/Q37963313

description

article científic

@ca

article scientifique

@fr

articol științific

@ro

articolo scientifico

@it

artigo científico

@gl

artigo científico

@pt

artigo científico

@pt-br

artikel ilmiah

@id

artikull shkencor

@sq

artículo científico

@es

name

Limbal epithelial stem cells: role of the niche microenvironment.

@en

Limbal epithelial stem cells: role of the niche microenvironment.

@nl

type

label

Limbal epithelial stem cells: role of the niche microenvironment.

@en

Limbal epithelial stem cells: role of the niche microenvironment.

@nl

prefLabel

Limbal epithelial stem cells: role of the niche microenvironment.

@en

Limbal epithelial stem cells: role of the niche microenvironment.

@nl

P1433

Q37963313-79C968CA-CAA1-4630-96D5-A2C84CBABAFB

P1476

Q37963313-797CBAE5-83E9-4F06-B50B-54D7A7F57309

P2093

Q37963313-365AE9F4-C5E5-44EF-B2DF-40BFD4698746

Q37963313-6721D5CB-39F8-4D3A-8CE4-BE3DE426F0E0

P2860

Q37963313-014A65F0-C2BF-4F56-BA6A-C3A99B15A5C6

Q37963313-01746F8E-708A-4F84-9916-58880FFFB50D

Q37963313-02FEA716-226D-4746-904C-818651CA15A6

Q37963313-12699311-62EF-4FC7-B27E-842C07E430DD

Q37963313-13AC36F2-B722-4F90-B812-5F82DCC27ADD

Q37963313-13B9A843-4107-4202-B0F6-1B363806DCD9

Q37963313-1A820C7F-68D3-4305-9881-6A86FCABC60B

Q37963313-1F24CCEF-0E41-4F12-BF30-D3119F6810CF

Q37963313-20528DEC-C1D7-434C-8D38-8A498EC80019

Q37963313-25747B78-E454-4472-9F4C-0B1D28F9A22E

P304

Q37963313-6C8CD8AA-45DA-47B0-BB4C-637112E643C1

P31

Q37963313-D3C2604A-9E89-49EF-B793-96BC62519E1B

P356

Q37963313-9F97C365-AB97-412C-AD97-D3A6576FA025

P433

Q37963313-29A6B975-C9FD-46A7-B4D7-FCBA9A855C76

P478

Q37963313-6A3C5D2C-53E3-474C-8A06-F7391189F016

P577

Q37963313-AC0D6E16-A0E6-4EFF-A28B-D430FFD229D0

P5875

Q37963313-40306D9E-B49B-4D0D-B953-D2B2FD0BD454

P698

Q37963313-BE4BEC85-0F65-48AC-8237-4EF642AEAF58

P356

P1433

P1476

Limbal epithelial stem cells: role of the niche microenvironment.

@en

P2093

Nick Di Girolamo

http://www.w3.org/2001/XMLSchema#string

Paula Ordonez

http://www.w3.org/2001/XMLSchema#string

P2860

Mosaic analysis of stem cell function and wound healing in the mouse corneal epithelium.

Characterization of extracellular matrix components in the limbal epithelial stem cell compartment

beta1- and alpha6-integrin are surface markers on mouse spermatogonial stem cells

Stem cell self-renewal specified by JAK-STAT activation in response to a support cell cue

The stem-cell niche as an entity of action

Extensive vasculogenesis, angiogenesis, and organogenesis precede lethality in mice lacking all alpha v integrins

Localization of the low-affinity nerve growth factor receptor p75 in human limbal epithelial cells

p63 is essential for regenerative proliferation in limb, craniofacial and epithelial development

Identification of the ligand binding site for the integrin alpha9 beta1 in the third fibronectin type III repeat of tenascin-C

Osteoblastic cells regulate the haematopoietic stem cell niche

P304

100-107

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1002/STEM.794

http://www.w3.org/2001/XMLSchema#string

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

30

http://www.w3.org/2001/XMLSchema#string

P577

2012-02-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

51843722

http://www.w3.org/2001/XMLSchema#string

P698

22131201

http://www.w3.org/2001/XMLSchema#string