about
Role of Decorin Core Protein in Collagen Organisation in Congenital Stromal Corneal Dystrophy (CSCD)From nano to macro: studying the hierarchical structure of the corneal extracellular matrixThree-dimensional aspects of matrix assembly by cells in the developing cornea.Differential expression of the keratan sulphate proteoglycan, keratocan, during chick corneal embryogenesis.Three-dimensional reconstruction of collagen-proteoglycan interactions in the mouse corneal stroma by electron tomography.Structural interactions between collagen and proteoglycans are elucidated by three-dimensional electron tomography of bovine cornea.Three-dimensional architecture of collagen type VI in the human trabecular meshworkElastic microfibril distribution in the cornea: Differences between normal and keratoconic stroma.Imaging three-dimensional tissue architectures by focused ion beam scanning electron microscopy.Large proteoglycan complexes and disturbed collagen architecture in the corneal extracellular matrix of mucopolysaccharidosis type VII (Sly syndrome).A comparison of glycosaminoglycan distributions, keratan sulphate sulphation patterns and collagen fibril architecture from central to peripheral regions of the bovine corneaIn vitro growth factor-induced bio engineering of mature articular cartilage.The effect of riboflavin/UVA collagen cross-linking therapy on the structure and hydrodynamic behaviour of the ungulate and rabbit corneal stroma.Matrix morphogenesis in cornea is mediated by the modification of keratan sulfate by GlcNAc 6-O-sulfotransferase.Mesenchymal-epithelial cell interactions and proteoglycan matrix composition in the presumptive stem cell niche of the rabbit corneal limbus.Three-dimensional arrangement of elastic fibers in the human corneal stromaDevelopment of the corneal stroma, and the collagen-proteoglycan associations that help define its structure and function.Renewal of the Holocrine Meibomian Glands by Label-Retaining, Unipotent Epithelial ProgenitorsStructural and biochemical aspects of keratan sulphate in the cornea.The architecture of the cornea and structural basis of its transparency.Ultrastructural changes in the retinopathy, globe enlarged (rge) chick corneaA selective inhibitor of the Rho kinase pathway, Y-27632, and its influence on wound healing in the corneal stroma.Stromal edema in klf4 conditional null mouse cornea is associated with altered collagen fibril organization and reduced proteoglycans.A Surgical Cryoprobe for Targeted Transcorneal Freezing and Endothelial Cell Removal.Fibroblast growth factor 2 and transforming growth factor β1 induce precocious maturation of articular cartilage.Collagen and mature elastic fibre organisation as a function of depth in the human cornea and limbus.Differential relative sulfation of Keratan sulfate glycosaminoglycan in the chick cornea during embryonic development.P2X(7) receptors are redistributed on human monocytes after pore formation in response to prolonged agonist exposure.Structural collagen alterations in macular corneal dystrophy occur mainly in the posterior stroma.Actin and type I collagen propeptide distribution in the developing chick cornea.Spatial and temporal contribution of somitic myoblasts to avian hind limb muscles.Keratan Sulfate Glycosaminoglycan and the Association with Collagen Fibrils in Rudimentary Lamellae in the Developing Avian CorneaDifferential immunogold localisation of sulphated and unsulphated keratan sulphate proteoglycans in normal and macular dystrophy cornea using sulphation motif-specific antibodiesAtypical Composition and Ultrastructure of Proteoglycans in the Mouse Corneal StromaStromal architecture and immune tolerance in additive corneal xenografts in rodentsElectron tomography reveals multiple self-association of chondroitin sulphate/dermatan sulphate proteoglycans in Chst5-null mouse corneasA study of host corneal endothelial cells after non-Descemet stripping automated endothelial keratoplasty
P50
Q27324512-633BC3A6-0A53-48DB-94EE-376411950504Q28084854-E97B7166-A295-41BB-9359-DC4D7349AFB3Q30565952-4F4EA8FC-E995-41D4-88C0-F5A9D4943DABQ33298730-C25D9AEE-2F72-4049-B722-A40345EBB924Q33529516-CD35653F-63D0-4AD4-83E6-EB415159AB72Q33531599-CFBFC683-DF86-471B-B3FC-E44431C3B87FQ33614289-AF58C017-C0DA-4701-A232-3C269661CA27Q33746185-9C290A0D-3BF1-479C-B222-29EB034BDF0FQ33920734-D4679321-0899-4848-8640-14B1E60D2068Q33956704-2373F8CF-F049-4640-BFFA-F8F539B93F77Q34348778-BF3D6A06-A788-42C8-B00D-25E16217F436Q34489021-BA916E6E-E5F8-42D8-9BBE-9CEF04EFF023Q34562106-8A225A56-1C9B-4A3E-9848-BE4F5F336D04Q35037223-FE5C5BF3-5253-4222-BA6B-3B3EBA8E5B15Q35898632-0104AA33-FCD6-4AD3-A003-46EA71FF3719Q36958649-1527001B-35BD-4093-AAAB-4DD889C58993Q37181159-269065E8-F348-49E2-9612-AB7B729696C3Q37273979-4753614B-A930-46E3-834C-2B96D409CE89Q37705244-1212010C-AD11-42FC-B80E-8622071FD4B3Q37776042-5324DDCD-FCF0-4230-84FE-7D1757536023Q38435635-8DB10558-2321-424B-993F-55F147EF47FCQ42028653-89EA94A7-4685-49BA-82B2-FCA5279448D5Q42176062-0C632D22-9AFB-4C30-B9C4-D00759EBFA15Q42200204-E7C4B290-B283-4E94-9770-0EDD3BF6C708Q42491743-1547FAE9-37AF-474E-8848-85BA51250CCAQ43242088-38DD4E9B-C762-4F56-BFEC-460EC22271CEQ43264862-9BEB23D2-B1AB-4087-8F85-26D0512FE08BQ44305094-FB3E3051-F0FE-443B-8B4E-C9A4C15D233EQ45758203-ADE11A47-8F63-46A3-975D-D4AFCA7367D6Q46202213-19E06AD7-000C-49FE-B36B-2FCEE7EE7635Q52107799-07E83DFC-95F7-48DF-A59F-DC021874C938Q57539920-DB10B4A5-E0F8-44E6-B508-92C76E46DF59Q57539926-5F5EE34C-462F-4F86-95DA-3E647162E258Q57539935-81A396DB-7340-4FA1-8C34-4B149CEF8FBBQ80392593-5B36E1E0-9516-4651-A7D1-7333638C6378Q83724905-C0921A2B-DA64-4639-ADF1-05E8553E32C5Q84962092-57F083D7-C91D-457C-AD0C-5507014B32CD
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Robert D Young
@ast
Robert D Young
@en
Robert D Young
@es
Robert D Young
@nl
Robert D Young
@sl
type
label
Robert D Young
@ast
Robert D Young
@en
Robert D Young
@es
Robert D Young
@nl
Robert D Young
@sl
prefLabel
Robert D Young
@ast
Robert D Young
@en
Robert D Young
@es
Robert D Young
@nl
Robert D Young
@sl
P106
P21
P31
P496
0000-0002-1452-6682