about
Epithelial-mesenchymal transition and its implications for fibrosisMicroRNAs and regeneration: Let-7 members as potential regulators of dedifferentiation in lens and inner ear hair cell regeneration of the adult newtThe regenerative plasticity of isolated urodele myofibers and its dependence on MSX1Cells previously identified as retinal stem cells are pigmented ciliary epithelial cells.Cone degeneration following rod ablation in a reversible model of retinal degeneration.Proteomic analysis of blastema formation in regenerating axolotl limbsExpression profiles during dedifferentiation in newt lens regeneration revealed by expressed sequence tagsmiRNAs in newt lens regeneration: specific control of proliferation and evidence for miRNA networking.Putting regeneration into regenerative medicine.Adult cell plasticity in vivo: de-differentiation and transdifferentiation are back in style.Changes in global histone modifications during dedifferentiation in newt lens regeneration.Adapting biodegradable oligo(poly(ethylene glycol) fumarate) hydrogels for pigment epithelial cell encapsulation and lens regeneration.Lens and retina regeneration: new perspectives from model organisms.Otx but not Mitf transcription factors are required for zebrafish retinal pigment epithelium development.Cell plasticity in Caenorhabditis elegans: from induced to natural cell reprogramming.The Retinal Homeobox (Rx) gene is necessary for retinal regeneration.The other pigment cell: specification and development of the pigmented epithelium of the vertebrate eyeThe role of Pax-6 in lens regeneration.Direct in vivo cellular reprogramming involves transition through discrete, non-pluripotent stepsEye development: a view from the retina pigmented epithelium.Adult stem cell plasticity: will engineered tissues be rejected?A critical role for thrombin in vertebrate lens regeneration.Stem cell therapy for retinal degeneration: retinal neurons from heterologous sources.How to build and rebuild a lens.Reconstitution of the myocardium in regenerating newt hearts is preceded by transient deposition of extracellular matrix componentsTransdifferentiation, metaplasia and tissue regeneration.Molecular and cellular aspects of amphibian lens regeneration.Retinal stem cells and regeneration of vision system.A system for culturing iris pigment epithelial cells to study lens regeneration in newt.Seeing the future: using Xenopus to understand eye regeneration.Cellular plasticity: 1712 to the present day.Regenerating reptile retinas: a comparative approach to restoring retinal ganglion cell function.Transgenic Xenopus laevis with the ef1-α promoter as an experimental tool for amphibian retinal regeneration study.A comparative proteomic analysis during urodele lens regeneration.The alpha1 isoform of the Na+/K+ ATPase is up-regulated in dedifferentiated progenitor cells that mediate lens and retina regeneration in adult newts.Retina regeneration in the chick embryo is not induced by spontaneous Mitf downregulation but requires FGF/FGFR/MEK/Erk dependent upregulation of Pax6.Hematological- and Neurological-Expressed Sequence 1 Gene Products in Progenitor Cells during Newt Retinal Development.Gene expression signatures in the newt irises during lens regeneration.Expression of stem cell pluripotency factors during regeneration in newts.Expression patterns of runx2, sparc, and bgp during scale regeneration in the goldfish Carassius auratus.
P2860
Q24302042-2EC9418F-8188-4F03-8D93-7B046A09D9FDQ24641922-5334FA9E-4857-49C2-8AAC-650255067EB2Q24798730-96FA36BC-EEFC-4884-8EEC-E8A57B01E8A7Q30487175-EF013C42-49C0-4BAC-B67F-E44A30519B37Q30498458-B7E3614C-CC7D-477A-A927-545B271A483CQ30931073-1102D94C-3E15-45D3-8DD5-3B23DFDDF31DQ33525558-1047DEC5-F30F-4386-A7AE-6C88CC83CFCFQ33658842-91012570-192C-4F15-88B5-FA3B3C1F6307Q33818931-2B2523FD-6568-477F-919A-BF0CD70BD102Q34046479-80E7C05D-21DF-4D87-B5F5-F7645C120804Q34146751-F4D409C3-D968-4894-AFA3-96BA68B699EAQ34160728-3F92C153-2189-4E67-BD18-622D270F2E19Q34303870-1156DF8A-D2A9-44A3-9665-2820767CDA60Q34472211-337F878C-BD16-4F1B-8011-C18C18C3F26CQ34632447-885015FB-923E-4AA5-ABC3-10C5369AC2FBQ34977247-40579C70-5A28-40BE-90FD-6C52372CB3A3Q35025572-D2660938-28F7-449D-8B56-61155B2ADAEFQ35075504-7359E298-A589-4E5B-9505-B221A7BBCCB0Q35283819-9796C29F-78EE-4AE4-82B5-F7B591F50675Q35819839-43E85801-5279-4570-92C9-94C1CAE7B438Q35837725-BEAD0502-E659-45C7-8C1E-990FBF28712CQ35855735-780F7E8A-5C3F-49D5-9343-5913F6AA1718Q36086258-C422C3BE-9EFC-43AF-9F50-5963AF47AB12Q36605456-CF4E3A04-5D88-40CB-AF1B-C8F31317F04FQ36936881-FD61EB3F-2AA3-4255-A931-60C3DE883A1AQ37517234-0063AFD8-68A0-4D24-96C3-A434314CD94EQ37773643-E7BA2371-40C2-4CD5-9E00-1CB3E289FFA2Q38167719-4A8B0A59-42EB-4AC7-B452-973CAFB7296AQ38758167-36E36C73-EFFD-4059-AD1E-22EC2C92C726Q38769485-CB67514E-41E8-4FE6-B8D3-1C95437F9D5FQ38916687-E7DA21F8-BB3B-481F-8442-52ED77B1583BQ39005377-6D4AEA5B-FFB9-4D49-830F-7B7A4DF4571EQ39640146-164806E2-6459-4CF5-A24F-97E0619F78D6Q41145792-B281FD32-D58A-47C8-A07A-8837B940D28DQ41587581-8167625B-37D8-4AD5-99DB-8E408653DE2FQ41647480-61800FF6-BF8E-42A5-9F16-985E075E5D4BQ41876422-62F0AE4E-D8A3-4DB1-9ED4-CC69EDD1F85BQ41959255-DF9E8C84-B349-4E7C-9104-B8B41C560FDAQ41970382-8E9FD18F-C92A-48BE-AB2C-55BD73C79476Q42505598-3B55BADB-3FAF-4053-A437-F38E84786C41
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Eye regeneration at the molecular age.
@ast
Eye regeneration at the molecular age.
@en
type
label
Eye regeneration at the molecular age.
@ast
Eye regeneration at the molecular age.
@en
prefLabel
Eye regeneration at the molecular age.
@ast
Eye regeneration at the molecular age.
@en
P356
P1476
Eye regeneration at the molecular age.
@en
P2093
Katia Del Rio-Tsonis
Panagiotis A Tsonis
P304
P356
10.1002/DVDY.10224
P577
2003-02-01T00:00:00Z