Aging, age-related macular degeneration, and the response-to-retention of apolipoprotein B-containing lipoproteins.
about
Genome-wide association study of advanced age-related macular degeneration identifies a role of the hepatic lipase gene (LIPC)Cellular and Molecular Pathology of Age-Related Macular Degeneration: Potential Role for ProteoglycansAMD and the alternative complement pathway: genetics and functional implicationsMacular xanthophylls, lipoprotein-related genes, and age-related macular degenerationImpaired cholesterol efflux in senescent macrophages promotes age-related macular degenerationSpatial distribution of the pathways of cholesterol homeostasis in human retinaExpression analysis of an evolutionarily conserved alternative splicing factor, Sfrs10, in age-related macular degenerationAn Eye on Age-Related Macular Degeneration: The Role of MicroRNAs in Disease Pathology.Abnormal vascularization in mouse retina with dysregulated retinal cholesterol homeostasis.Developing rods transplanted into the degenerating retina of Crx-knockout mice exhibit neural activity similar to native photoreceptorsOxidized Lipoprotein Uptake Through the CD36 Receptor Activates the NLRP3 Inflammasome in Human Retinal Pigment Epithelial Cells.A novel source of methylglyoxal and glyoxal in retina: implications for age-related macular degenerationAbundant lipid and protein components of drusenApolipoprotein B-containing lipoproteins in retinal aging and age-related macular degeneration.Funduscopy in adult zebrafish and its application to isolate mutant strains with ocular defectsCholesterol in the retina: the best is yet to come.The role of CRP and inflammation in the pathogenesis of age-related macular degeneration.Mutant Fibulin-3 Causes Proteoglycan Accumulation and Impaired Diffusion Across Bruch's Membrane.An in silico model of retinal cholesterol dynamics (RCD model): insights into the pathophysiology of dry AMDA rat model for choroidal neovascularization using subretinal lipid hydroperoxide injection.Age-related impairment in choroidal blood flow compensation for arterial blood pressure fluctuation in pigeons.Associations between abnormal rod-mediated dark adaptation and health and functioning in older adults with normal macular healthQuantitative autofluorescence and cell density maps of the human retinal pigment epithelium.Sterculic acid antagonizes 7-ketocholesterol-mediated inflammation and inhibits choroidal neovascularization.Rare and common variants in extracellular matrix gene Fibrillin 2 (FBN2) are associated with macular degeneration.Associations of smoking, body mass index, dietary lutein, and the LIPC gene variant rs10468017 with advanced age-related macular degenerationAge-related macular degeneration: genetics and biology coming together.Delayed Rod-Mediated Dark Adaptation Is a Functional Biomarker for Incident Early Age-Related Macular Degeneration.Mice that produce ApoB100 lipoproteins in the RPE do not develop drusen yet are still a valuable experimental systemCholestenoic Acid is an important elimination product of cholesterol in the retina: comparison of retinal cholesterol metabolism with that in the brain.Serum lipid biomarkers and hepatic lipase gene associations with age-related macular degenerationMorphological and physiological retinal degeneration induced by intravenous delivery of vitamin A dimers in rabbits.Identification of hydroxyapatite spherules provides new insight into subretinal pigment epithelial deposit formation in the aging eyeComplement activation and choriocapillaris loss in early AMD: implications for pathophysiology and therapy.Microstructure of subretinal drusenoid deposits revealed by adaptive optics imagingLipids, lipoproteins, and age-related macular degenerationAssociation of variants in the LIPC and ABCA1 genes with intermediate and large drusen and advanced age-related macular degenerationRetinal pigment epithelial expression of complement regulator CD46 is altered early in the course of geographic atrophy.Evidence of association of APOE with age-related macular degeneration: a pooled analysis of 15 studies.Investigating mitochondria as a target for treating age-related macular degeneration
P2860
Q24622766-722A4CEF-34D6-49BC-BAA0-36CA120225B2Q26738776-DBAA1B2A-2854-4493-BE66-80D83725804BQ26744106-7B8FDDB6-83B3-410D-B63D-432643B2F1FEQ28240096-B176A925-A9B2-40E9-8DCB-CDC0827D3EE1Q28288496-963DC5EC-8DE8-4B3E-B336-62EF7129E8A9Q28483866-2EC2DE70-0721-4FEE-9245-6FC77600A8E0Q28582788-F49CAD0B-B12A-4D37-B29F-BE134C41581BQ30489873-96CFF3EB-7363-45CA-9BFA-3494CAC1E681Q30523799-50EB0C8F-A952-41FA-A39D-064CEE333855Q30661642-3141AE08-B325-4B31-B2A3-E00B32898413Q30981897-98ECD6FC-1CC2-4BF6-BBD7-4D2223EC4FBCQ31076669-5DD382F4-DFCA-4815-B1BC-CE72ED458641Q33567644-4F089A79-FBB9-4030-8756-ECD81D3D6014Q33634096-6C06660B-DC9F-46B1-8C4D-D2575EA54046Q33747767-C45E9DD3-97AF-4B2E-B49D-B81BF87D0D49Q33758267-D26FF6D7-C87F-4A38-B0D0-EB7DB31A1F6FQ33773157-D97A6629-C30F-404D-AD21-09A41E82F708Q33816500-C8C2870A-02FF-4A19-B4D6-C00B0B493F3AQ33867675-B5ADE873-EA47-4743-81EC-8967B0B10321Q33882615-0E3F72C3-8335-4B15-A307-AE12A3F24491Q33986927-CCE2316D-3756-4411-8327-1E68BE63D023Q34003267-643291C7-9359-42D9-B083-24239435DF84Q34010917-04A971FB-2E34-4524-988F-B2DD29535CFEQ34161139-6D731A56-ECA5-4922-947E-6FB8A7AE551EQ34307274-70CCB5E3-F737-4D44-AC5A-0413DA6804D4Q34366242-D1BC877E-B989-4C4C-AA33-F3074841E4D8Q34440797-3EF2A157-3D69-4E0B-9AD2-4F72BDC3D0EDQ34500095-3CB0D84C-A2BC-4A7E-A0D9-05477668B051Q34531240-64A9B934-DF70-4F99-AA40-31FABA8495CEQ34646867-B10C04D0-47FD-4D9F-9B98-1A3EA22E03EDQ34847083-801F8100-3124-4CB9-A11D-15DAED039F44Q35041343-33FC90A3-EE50-4165-BD3F-8F6B6027CA82Q35062847-2EC53B7B-865D-4388-8B53-858B5BE9743BQ35118257-8582786D-5338-4F81-A1EE-151AC6370526Q35136590-6D7A69C0-B19A-4A20-9C93-D5D05A992F7BQ35138088-533BC5F4-C65C-4876-A626-5867242EDE97Q35221016-4BDD7839-915D-4BDE-9531-3CFC426BCCABQ35456717-70DEE297-E415-41DF-A2ED-634EFB67AD7CQ35552553-E7DD24A6-8315-48E2-B35C-B21994638393Q35572570-6FA8A9AE-9F33-44AC-A059-22542A57FD3C
P2860
Aging, age-related macular degeneration, and the response-to-retention of apolipoprotein B-containing lipoproteins.
description
2009 nî lūn-bûn
@nan
2009 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Aging, age-related macular deg ...... ein B-containing lipoproteins.
@ast
Aging, age-related macular deg ...... ein B-containing lipoproteins.
@en
type
label
Aging, age-related macular deg ...... ein B-containing lipoproteins.
@ast
Aging, age-related macular deg ...... ein B-containing lipoproteins.
@en
prefLabel
Aging, age-related macular deg ...... ein B-containing lipoproteins.
@ast
Aging, age-related macular deg ...... ein B-containing lipoproteins.
@en
P2093
P2860
P1476
Aging, age-related macular deg ...... ein B-containing lipoproteins.
@en
P2093
Christine A Curcio
Jiahn-Dar Huang
Mark Johnson
Martin Rudolf
P2860
P304
P356
10.1016/J.PRETEYERES.2009.08.001
P577
2009-08-19T00:00:00Z