review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Steven E. Wilson | Q57068193 |
P2093 | author name string | Andre A M Torricelli | |
Gustavo K Marino | |||
P2860 | cites work | The protein core of the proteoglycan perlecan binds specifically to fibroblast growth factor-7 | Q28145823 |
A simplified laminin nomenclature | Q28258382 | ||
Mammalian collagen IV | Q28265884 | ||
The absence of nidogen 1 does not affect murine basement membrane formation | Q28588236 | ||
Compound genetic ablation of nidogen 1 and 2 causes basement membrane defects and perinatal lethality in mice | Q29392813 | ||
Recombinant nidogen consists of three globular domains and mediates binding of laminin to collagen type IV | Q30448501 | ||
Laminin synthesis and the adhesion characteristics of immortalized human corneal epithelial cells to laminin isoforms | Q31759466 | ||
Genes expressed in the human trabecular meshwork during pressure-induced homeostatic response | Q33205289 | ||
Alterations of extracellular matrix components and proteinases in human corneal buttons with INTACS for post-laser in situ keratomileusis keratectasia and keratoconus | Q33339868 | ||
Basement membrane proteoglycans: from cellar to ceiling | Q34439478 | ||
Basement membranes: cell scaffoldings and signaling platforms. | Q34576367 | ||
Mammalian collagen receptors | Q34586505 | ||
Cellular and extracellular matrix modulation of corneal stromal opacity. | Q34657101 | ||
Transmission electron microscopy analysis of epithelial basement membrane repair in rabbit corneas with haze. | Q34733480 | ||
Epithelial basement membrane proteins perlecan and nidogen-2 are up-regulated in stromal cells after epithelial injury in human corneas | Q35588817 | ||
The epidermal basement membrane is a composite of separate laminin- or collagen IV-containing networks connected by aggregated perlecan, but not by nidogens | Q36003008 | ||
Compositional differences between infant and adult human corneal basement membranes | Q36296268 | ||
EBM regeneration and changes in EBM component mRNA expression in stromal cells after corneal injury | Q36301478 | ||
Regeneration of Defective Epithelial Basement Membrane and Restoration of Corneal Transparency After Photorefractive Keratectomy. | Q36367206 | ||
The corneal fibrosis response to epithelial-stromal injury | Q36382242 | ||
Laminin forms an independent network in basement membranes | Q36531408 | ||
Nidogens-Extracellular matrix linker molecules | Q37064964 | ||
The corneal epithelial basement membrane: structure, function, and disease. | Q37208901 | ||
Basement membrane proteoglycans: modulators Par Excellence of cancer growth and angiogenesis. | Q37494563 | ||
Transforming growth factor β and platelet-derived growth factor modulation of myofibroblast development from corneal fibroblasts in vitro. | Q37619509 | ||
Basement membranes in development and disease | Q37714474 | ||
TGFβ and PDGF-B signaling blockade inhibits myofibroblast development from both bone marrow-derived and keratocyte-derived precursor cells in vivo. | Q37717286 | ||
Basement membrane components are key players in specialized extracellular matrices | Q37739297 | ||
Targeting perlecan in human keratinocytes reveals novel roles for perlecan in epidermal formation | Q38319148 | ||
Epithelial basement membrane injury and regeneration modulates corneal fibrosis after pseudomonas corneal ulcers in rabbits. | Q38785065 | ||
Descemetorhexis Without Graft Placement for the Treatment of Fuchs Endothelial Dystrophy: Preliminary Results and Review of the Literature | Q39243103 | ||
Injury and defective regeneration of the epithelial basement membrane in corneal fibrosis: A paradigm for fibrosis in other organs? | Q39381291 | ||
Gene structure and functional analysis of the mouse nidogen-2 gene: nidogen-2 is not essential for basement membrane formation in mice | Q39681020 | ||
Models for the self-assembly of basement membrane | Q39725963 | ||
The bioactivity of transforming growth factor-beta1 can be regulated via binding to dermal collagens in mink lung epithelial cells | Q40342150 | ||
Laminin-511 and -521-based matrices for efficient ex vivo-expansion of human limbal epithelial progenitor cells | Q40986461 | ||
Transforming growth factor beta type 1 binds to collagen IV of basement membrane matrix: implications for development | Q41696868 | ||
Histopathologic Features of Descemet Membrane Endothelial Keratoplasty Graft Remnants, Folds, and Detachments | Q46482472 | ||
Basement membrane collagen IV: Isolation of functional domains | Q47223659 | ||
Mapping of the binding of platelet-derived growth factor to distinct domains of the basement membrane proteins BM-40 and perlecan and distinction from the BM-40 collagen-binding epitope | Q47733259 | ||
Loss of nidogen-1 and -2 results in syndactyly and changes in limb development | Q57923265 | ||
The Corneal Basement Membranes and Stromal Fibrosis | Q58806014 | ||
IL-1 and TGF-β Modulation of Epithelial Basement Membrane Components Perlecan and Nidogen Production by Corneal Stromal Cells | Q59810738 | ||
Laminins in normal, keratoconus, bullous keratopathy and scarred human corneas | Q62070123 | ||
Biosynthesis of stromal matrix proteoglycans and basement membrane components by human corneal fibroblasts | Q68070621 | ||
Nidogen: a new, self-aggregating basement membrane protein | Q70462480 | ||
Human corneal basement membrane heterogeneity: topographical differences in the expression of type IV collagen and laminin isoforms | Q72171959 | ||
P304 | page(s) | 108002 | |
P577 | publication date | 2020-03-13 | |
P1433 | published in | Experimental Eye Research | Q15754753 |
P1476 | title | Corneal epithelial basement membrane: Structure, function and regeneration | |
P478 | volume | 194 |
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