about
Immunoproteasomes: structure, function, and antigen presentationThe proteome of central and peripheral retina with progression of age-related macular degeneration.Altered bioenergetics and enhanced resistance to oxidative stress in human retinal pigment epithelial cells from donors with age-related macular degenerationImmunoproteasome deficiency alters retinal proteasome's response to stressRetinal dendritic cell recruitment, but not function, was inhibited in MyD88 and TRIF deficient mice.Corneal wound healing is compromised by immunoproteasome deficiency.Mitochondrial DNA damage as a potential mechanism for age-related macular degenerationInvestigating mitochondria as a target for treating age-related macular degenerationLactoferrin Reduces Chorioretinal Damage in the Murine Laser Model of Choroidal Neovascularization.Immunoproteasome deficiency protects in the retina after optic nerve crush.Denervation-Induced Activation of the Standard Proteasome and ImmunoproteasomeGeneration of retinal pigmented epithelium from iPSCs derived from the conjunctiva of donors with and without age related macular degenerationDefects in retinal pigment epithelial cell proteolysis and the pathology associated with age-related macular degeneration.Simultaneous determination of 8-oxo-2'-deoxyguanosine and 8-oxo-2'-deoxyadenosine in human retinal DNA by liquid chromatography nanoelectrospray-tandem mass spectrometryLactoferrin Expression in Human and Murine Ocular Tissue.Activating the AKT2-nuclear factor-κB-lipocalin-2 axis elicits an inflammatory response in age-related macular degeneration.Immunoproteasome in animal models of Duchenne muscular dystrophy.Downhill exercise alters immunoproteasome content in mouse skeletal muscle.Perspective on AMD Pathobiology: A Bioenergetic Crisis in the RPE.Molecular Mechanisms Underlying Age-Related Ocular Diseases.Loss of NRF-2 and PGC-1α genes leads to retinal pigment epithelium damage resembling dry age-related macular degenerationAntimycin A-Induced Mitochondrial Damage Causes Human RPE Cell Death despite Activation of AutophagyImmunoproteasomes as a novel antiviral mechanism in rhinovirus-infected airwaysLipid-derived and other oxidative modifications of retinal proteins in a rat model of Smith-Lemli-Opitz syndromeRetinal transcriptome and eQTL analyses identify genes associated with age-related macular degenerationMitochondrial Defects Drive Degenerative Retinal DiseasesInvestigating AKT activation and autophagy in immunoproteasome-deficient retinal cellsAuthor Correction: Retinal transcriptome and eQTL analyses identify genes associated with age-related macular degenerationIncreased serum proteins in non-exudative AMD retinasEDITORIAL: Special issue on the role of lipid and protein oxidation in retinal degenerationsN-Acetyl-L-cysteine Protects Human Retinal Pigment Epithelial Cells from Oxidative Damage: Implications for Age-Related Macular Degeneration
P50
Q27024527-9A3E5137-E488-45E5-AE5F-8840C49FF38AQ33244626-BFFAFC9B-A9C3-461D-813F-54FA4EB67C58Q33784315-46B3F2EC-C7E2-40C2-96E6-15A3BCAF830CQ34018605-461C1CED-3290-4E30-87BC-0A3598354AFDQ34109073-AA1ADCAA-BE37-4D27-BAF6-662EED7C9859Q34568307-2A4ABEFA-FBDA-4C3A-8B2E-D5D86C874636Q34701955-2363EDD7-101F-4841-A5CF-01FB8C5EF13FQ35572570-CE8ABDD2-0963-4C6D-8006-01313E10ADE8Q35593031-1B1C7B22-8327-4F02-8918-1D78339E8C0EQ35610769-BE8E2BF6-1162-41D0-9F0B-979289CB077DQ36201122-2757A74E-7E21-4009-AF83-DBD04889A455Q36304333-82706A38-6760-49A3-AED5-FDD1EE0CC6D7Q36626060-F1C2AC78-B838-46EF-8CE6-24371EBE7DFAQ36690876-CA130F27-3F67-4378-80B7-3AE5BE1BE4CCQ36759407-3ECDA505-6AC8-4AEC-B535-CAC709E6A8D8Q39062817-3194E024-AAF1-4159-9440-27432CBEF0AAQ42785740-467C51EA-E730-4F55-A4F6-E9538787F8C9Q47619616-1B2A3409-EB56-4F24-8022-B6262AC5E82CQ55148402-02B6C154-E845-43D0-8A34-27CB4C7FC77DQ55285391-407D305F-A36B-4356-A3BB-52752A3DD460Q58739373-0F23C93E-8889-495C-8CA3-0F729C3CDDF6Q64083813-59332AB2-CA0A-4F74-8813-5D86FEBB9BF3Q89449419-EE67C956-7FA4-43BE-98A3-B2351111F669Q90980811-426DEF58-9C4E-4018-83A6-A109594FE61FQ91451376-0DBB687E-77B6-4916-A050-2BAED24E305FQ91472328-71DF6E08-391A-40D9-8509-6198205E5A82Q91805773-74654EA4-8DFE-45E6-B1FE-1F7739D03DAFQ91865186-4D1A131B-0F48-45B0-82BE-D4E0078B2403Q92489190-2736293C-6D91-490D-8548-3B7080012DA6Q92725508-1F78713B-AE64-45F0-AD3D-7D2CC6D75E4CQ93108838-40634CD3-0DD2-46D1-A7AF-0AC1395C9EDC
P50
description
investigador
@es
researcher
@en
name
Deborah A Ferrington
@en
type
label
Deborah A Ferrington
@en
prefLabel
Deborah A Ferrington
@en
P31
P496
0000-0003-2561-7464