Genetic evidence for role of carotenoids in age-related macular degeneration in the Carotenoids in Age-Related Eye Disease Study (CAREDS).
about
Asparaginase treatment side-effects may be due to genes with homopolymeric Asn codons (Review-Hypothesis)Age-related Eye Disease Study 2: perspectives, recommendations, and unanswered questionsA genetic dissection of intestinal fat-soluble vitamin and carotenoid absorptionCirculating Autoantibodies in Age-Related Macular Degeneration Recognize Human Macular Tissue Antigens Implicated in Autophagy, Immunomodulation, and Protection from Oxidative Stress and ApoptosisLutein, zeaxanthin, and meso-zeaxanthin: The basic and clinical science underlying carotenoid-based nutritional interventions against ocular diseaseIntakes of Lutein, Zeaxanthin, and Other Carotenoids and Age-Related Macular Degeneration During 2 Decades of Prospective Follow-up.Bioavailability of AREDS1 micronutrients from softgel capsules and tablets: a pilot studyThe relationship between BCMO1 gene variants and macular pigment optical density in persons with and without age-related macular degeneration.Restoration of mesenchymal retinal pigmented epithelial cells by TGFβ pathway inhibitors: implications for age-related macular degenerationSynthesis of docosahexaenoic acid from eicosapentaenoic acid in retina neurons protects photoreceptors from oxidative stress.Molecular aspects of β, β-carotene-9', 10'-oxygenase 2 in carotenoid metabolism and diseases.Nutritional and Lifestyle Interventions for Age-Related Macular Degeneration: A Review.Brain xanthophyll content and exploratory gene expression analysis: subspecies differences in rhesus macaque.Potential protective function of the sterol regulatory element binding factor 1-fatty acid desaturase 1/2 axis in early-stage age-related macular degeneration.Nutritional supplements in age-related macular degeneration.Mechanisms of selective delivery of xanthophylls to retinal pigment epithelial cells by human lipoproteins.Risk factors and biomarkers of age-related macular degeneration.Lutein and Zeaxanthin Isomers in Eye Health and Disease.Plasma long-chain omega-3 polyunsaturated fatty acids and macular pigment in subjects with family history of age-related macular degeneration: the Limpia Study.Host-related factors explaining interindividual variability of carotenoid bioavailability and tissue concentrations in humansIncreased Macular Pigment Optical Density and Visual Acuity following Consumption of a Buttermilk Drink Containing Lutein-Enriched Egg Yolks: A Randomized, Double-Blind, Placebo-Controlled Trial.Light, lipids and photoreceptor survival: live or let die?Context-dependent compensation among phosphatidylserine-recognition receptors.Lack of β, β-carotene-9', 10'-oxygenase 2 leads to hepatic mitochondrial dysfunction and cellular oxidative stress in mice.Dietary guidance for lutein: consideration for intake recommendations is scientifically supported.Targeted Metabolomics Reveals Abnormal Hepatic Energy Metabolism by Depletion of β-Carotene Oxygenase 2 in Mice.Genetic Loci Controlling Carotenoid Biosynthesis in Diverse Tropical Maize Lines.Rethinking Phagocytes: Clues from the Retina and Testes.Intrinsic and Extrinsic Factors Impacting Absorption, Metabolism, and Health Effects of Dietary Carotenoids
P2860
Q26801165-AC5030EF-3EDF-4B2A-8934-965BDC652D88Q26823002-0857AD9C-19B0-48D8-A34D-A68B8B8C8778Q28512836-925F76B0-6F19-4DD2-8EFE-F9341F8F8C53Q28551885-7C79A27D-0259-4E2C-A956-BC661344908AQ30693939-E0C905F6-C177-446E-80BA-F073E7320C67Q30829406-20498EE3-9CE6-4454-9139-70255292E621Q34185581-2E4B8A5A-E5F0-43C4-ACF9-0FFF2DBE5396Q35106624-65919160-4897-45C9-9606-D6ABC6352869Q35819298-24E2A6A5-2FC5-4C86-B61B-E512FF9D94DFQ36586130-E22C6C58-38E3-4EF4-93C7-D7189CABF2EEQ37347216-DDE97E34-8166-44AC-BFF8-C85E00D33090Q37592954-47B57736-7CD4-49CC-8237-1099B4D973C2Q37686531-57708A33-28B4-48B7-8660-4C9B3328C260Q37715993-C924AAF1-8D33-4429-A46B-B1617FCE5D2AQ38317289-C0472ECB-B615-40F0-87B3-6AFBF9416FDBQ38751193-01BE465C-46E9-4A48-A1E9-201A3E164FFAQ38828895-77D2E561-1794-43D7-A4B4-DBD6D1C6C9C0Q38901504-71E5A112-C301-4116-82B0-5AF03675A258Q38921719-5E18B7A4-0382-45D7-8E84-EDA3BD7E8C14Q39094660-62C4FCA1-5DEB-41AF-B2B3-21650E0CB78CQ39533399-BDDBBFD9-81FD-4F97-910D-E3EC51323D0EQ40703905-0FB93CF7-55D3-4460-8B0D-5E404EFADF52Q45072284-E51B8858-3C8E-4EDE-AD8A-43BFDA70C9C0Q46443587-4127B775-21EC-4484-BB1F-6ED267F3B922Q47106416-0F310614-7186-4D60-B8C8-658E7C629ADCQ47130133-84ABE327-2282-4BA2-BFB9-CDD270C823D4Q49597781-2847D02F-FCD0-4A8F-86A1-020FF0FA717FQ49897721-3B73BBFF-53A7-4738-9104-D008FF723F74Q57177518-B2DEAE14-0AFD-4422-A486-A10517270FF6
P2860
Genetic evidence for role of carotenoids in age-related macular degeneration in the Carotenoids in Age-Related Eye Disease Study (CAREDS).
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 29 January 2014
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Genetic evidence for role of c ...... ed Eye Disease Study (CAREDS).
@en
Genetic evidence for role of c ...... Age-Related Eye Disease Study
@nl
type
label
Genetic evidence for role of c ...... ed Eye Disease Study (CAREDS).
@en
Genetic evidence for role of c ...... Age-Related Eye Disease Study
@nl
prefLabel
Genetic evidence for role of c ...... ed Eye Disease Study (CAREDS).
@en
Genetic evidence for role of c ...... Age-Related Eye Disease Study
@nl
P2093
P2860
P356
P1476
Genetic evidence for role of c ...... ed Eye Disease Study (CAREDS).
@en
P2093
Amy E Millen
Barbara Blodi
Barbara Truitt
Chitra K Karki
Corinne D Engelman
Elizabeth J Johnson
Erin S LeBlanc
Gloria Sarto
Jennifer Robinson
John Paul SanGiovanni
P2860
P304
P356
10.1167/IOVS.13-13216
P407
P577
2014-01-29T00:00:00Z