Genetic evidence for the coordinated regulation of collagen fibrillogenesis in the cornea by decorin and biglycan
about
Defects in tendon, ligament, and enthesis in response to genetic alterations in key proteoglycans and glycoproteins: a reviewProteoglycan form and function: A comprehensive nomenclature of proteoglycansThe novel small leucine-rich protein chondroadherin-like (CHADL) is expressed in cartilage and modulates chondrocyte differentiationDecorin activates AMPK, an energy sensor kinase, to induce autophagy in endothelial cellsOncosuppressive functions of decorinDecoding the Matrix: Instructive Roles of Proteoglycan ReceptorsRegulation of corneal stroma extracellular matrix assemblyCorneal structure and transparencyFrom nano to macro: studying the hierarchical structure of the corneal extracellular matrixHanging on for the ride: adhesion to the extracellular matrix mediates cellular responses in skeletal muscle morphogenesis and diseaseEffects of decorin proteoglycan on fibrillogenesis, ultrastructure, and mechanics of type I collagen gels.Decorin induces mitophagy in breast carcinoma cells via peroxisome proliferator-activated receptor γ coactivator-1α (PGC-1α) and mitostatin.Biglycan and decorin differentially regulate signaling in the fetal membranesInterclass small leucine-rich repeat proteoglycan interactions regulate collagen fibrillogenesis and corneal stromal assembly.Decorin deficiency promotes hepatic carcinogenesisKey roles for the small leucine-rich proteoglycans in renal and pulmonary pathophysiologyIncreased C-telopeptide cross-linking of tendon type I collagen in fibromodulin-deficient mice.Thrombospondin-2 facilitates assembly of a type-I collagen-rich matrix in marrow stromal cells undergoing osteoblastic differentiation.Decorin induced by progesterone plays a crucial role in suppressing endometriosisA comparison of glycosaminoglycan distributions, keratan sulphate sulphation patterns and collagen fibril architecture from central to peripheral regions of the bovine corneaProteoglycans in health and disease: novel regulatory signaling mechanisms evoked by the small leucine-rich proteoglycansDecorin treatment of spinal cord injuryDecorin antagonizes Met receptor activity and down-regulates {beta}-catenin and Myc levels.Tendon proper- and peritenon-derived progenitor cells have unique tenogenic properties.Lack of decorin expression by human bladder cancer cells offers new tools in the therapy of urothelial malignanciesInhibitory role of the small leucine-rich proteoglycan biglycan in bladder cancerUse of laser capture microdissection for the assessment of equine lamellar basal epithelial cell signalling in the early stages of laminitis.Posterior amorphous corneal dystrophy is associated with a deletion of small leucine-rich proteoglycans on chromosome 12A mouse model of spontaneous preterm birth based on the genetic ablation of biglycan and decorinPathophysiological mechanisms of autosomal dominant congenital stromal corneal dystrophy: C-terminal-truncated decorin results in abnormal matrix assembly and altered expression of small leucine-rich proteoglycansRegulatory role of collagen V in establishing mechanical properties of tendons and ligaments is tissue dependent.Compensatory fetal membrane mechanisms between biglycan and decorin in inflammation.Collagen V is a dominant regulator of collagen fibrillogenesis: dysfunctional regulation of structure and function in a corneal-stroma-specific Col5a1-null mouse model.Recapitulation of the Achilles tendon mechanical properties during neonatal development: a study of differential healing during two stages of development in a mouse model.The P2X(7) receptor regulates proteoglycan expression in the corneal stromaDecorin antagonizes the angiogenic network: concurrent inhibition of Met, hypoxia inducible factor 1α, vascular endothelial growth factor A, and induction of thrombospondin-1 and TIMP3.Mechanical, compositional, and structural properties of the post-natal mouse Achilles tendonDecorin: a guardian from the matrixThe small leucine-rich repeat proteoglycans in tissue repair and atherosclerosisBiglycan: a multivalent proteoglycan providing structure and signals
P2860
Q21285116-2F87D524-92A9-4D0E-8AEB-D723113D725AQ21710680-5087282C-7276-46F0-8FEE-E843B215B122Q24307869-0011AD51-2206-490B-908C-72C7E48D13F0Q24323987-C289C786-DAC7-41BA-A42A-AC8FD95BC176Q26745697-BBCE318B-5E9F-4236-A58E-6D5EE74395ABQ26801397-0DEE11A4-999C-46C1-8C23-22FE25A07C15Q26830340-5D8342E2-B36B-4529-9811-697B2D8CD7B8Q26999346-E99EAE1A-2E68-4C4C-BB74-24CBBD5C4B6CQ28084854-88D6476E-146A-4705-A064-B65E6B5C5C39Q28087402-83055A97-313A-4644-AA6A-9C5FBDC84F47Q30550134-B5252E6D-0597-46FF-8DDA-CEBABD1C2DDFQ30572396-668064C0-B931-409B-9840-A9FEFA7675C0Q33690385-722C33D4-FF5A-43CF-895C-6C109578E3E6Q33690533-9E145C62-8175-4F2D-AC1F-FE282D5F5EDAQ33690924-A1267414-29D8-4604-9872-C934C75487DBQ33819300-584A738A-4DA2-479B-AC01-96B51203112FQ33846453-B5FC103E-FF4C-4BE3-91BD-9789DC7C9722Q33880460-3942F372-56A2-448B-9D73-927074C9CE55Q34343640-96842918-FF7B-435A-898A-CC904C40F32EQ34348778-6CA5D7C0-E551-4E42-979A-2D36011D4CE0Q34398188-1EFE5656-393B-4F5D-BD68-749AC69CCBEFQ34412717-29CE0EA4-AAE2-4088-8BE2-B16E928D1820Q34439113-442E83FC-E8DD-48C0-B6A5-57F009B4F87EQ34504327-3E277D6D-4CF7-43CE-9F09-F8E971004449Q35022673-5BD8FF1F-C55B-418A-B003-BD438A7B518CQ35040383-9A24F806-A3DB-4370-8577-F450D954AEA0Q35153486-18BCF2D8-4F8D-4FCA-98C2-5125D34C9A06Q35156016-B846CD0B-FD8B-4E84-A7A3-A700CADC1215Q35357064-A5C8143A-7A9E-4EDA-BD2E-54DE166FF53CQ35475232-A612DB5D-5BF3-4C8F-BCBC-D259F80A7340Q35561789-C1D2A6AF-4AA9-4713-AA35-A7D2BF23BA8DQ35629851-E7BA18FD-83E1-4891-8415-8951A2415992Q35630667-58C025B3-C123-4865-A671-FA501819CDDFQ35691476-CDF5595D-266C-4B7F-A5F4-D86F62E14889Q35691962-DFB6E063-689F-44B9-A130-300D8A8A1207Q35773980-6AE82A96-5885-469D-B317-1CB2AE3D6D82Q35925332-EF52FC5C-3D5F-40CC-9D1E-0625EA6BA888Q36131541-31913DE1-7FFE-4C2F-A67F-EB245BCFC754Q36192960-3314D35C-BAD1-4C74-9AC8-FD683F074AF6Q36481626-A19AAD56-1A9C-44B6-BA8D-F63CA59E75FD
P2860
Genetic evidence for the coordinated regulation of collagen fibrillogenesis in the cornea by decorin and biglycan
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 09 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Genetic evidence for the coord ...... cornea by decorin and biglycan
@en
Genetic evidence for the coord ...... ornea by decorin and biglycan.
@nl
type
label
Genetic evidence for the coord ...... cornea by decorin and biglycan
@en
Genetic evidence for the coord ...... ornea by decorin and biglycan.
@nl
prefLabel
Genetic evidence for the coord ...... cornea by decorin and biglycan
@en
Genetic evidence for the coord ...... ornea by decorin and biglycan.
@nl
P2093
P2860
P356
P1476
Genetic evidence for the coord ...... cornea by decorin and biglycan
@en
P2093
Bennett W Calder
David E Birk
David J McQuillan
Guiyun Zhang
Holly C Simpson
Marian F Young
Rick T Owens
Shoujun Chen
Silvia Goldoni
P2860
P304
P356
10.1074/JBC.M806590200
P407
P577
2009-01-09T00:00:00Z