N-epsilon-(carboxyethyl)lysine, a product of the chemical modification of proteins by methylglyoxal, increases with age in human lens proteins
about
Overexpression of glyoxalase-I in bovine endothelial cells inhibits intracellular advanced glycation endproduct formation and prevents hyperglycemia-induced increases in macromolecular endocytosisDeamidation alters the structure and decreases the stability of human lens betaA3-crystallinPrevention of non-enzymatic glycosylation (glycation): Implication in the treatment of diabetic complicationDetection of AGEs as markers for carbohydrate metabolism and protein denaturationThe 1.5 A Crystal Structure of Human Receptor for Advanced Glycation Endproducts (RAGE) Ectodomains Reveals Unique Features Determining Ligand BindingDihydroxyacetone kinases in Saccharomyces cerevisiae are involved in detoxification of dihydroxyacetone.Simple non-invasive assessment of advanced glycation endproduct accumulationHydrogen sulfide releasing aspirin, ACS14, attenuates high glucose-induced increased methylglyoxal and oxidative stress in cultured vascular smooth muscle cellsA Snapshot of the Plant Glycated Proteome: STRUCTURAL, FUNCTIONAL, AND MECHANISTIC ASPECTS.Comprehensive analysis of maillard protein modifications in human lenses: effect of age and cataractVitamin C-mediated Maillard reaction in the lens probed in a transgenic-mouse model.Global Proteomic Analysis of Advanced Glycation End Products in the Arabidopsis Proteome Provides Evidence for Age-related Glycation Hotspots.Dissociation of functional status from accrual of CML and RAGE in the aged mouse brain.Identification of N(omega)-carboxymethylarginine as a novel acid-labileadvanced glycation end product in collagen.2-ammonio-6-(3-oxidopyridinium-1-yl)hexanoate (OP-lysine) is a newly identified advanced glycation end product in cataractous and aged human lenses.Early glycation products produce pentosidine cross-links on native proteins. novel mechanism of pentosidine formation and propagation of glycation.Isolation and characterization of advanced glycation end products derived from the in vitro reaction of ribose and collagen.Neurotoxicity of advanced glycation end-products for cultured cortical neurons.Paradoxical impact of antioxidants on post-Amadori glycoxidation: Counterintuitive increase in the yields of pentosidine and Nepsilon-carboxymethyllysine using a novel multifunctional pyridoxamine derivative.Mass spectrometry for the study of protein glycation in disease.Markers of oxidative stress and aging in Duchene muscular dystrophy patients and the possible ameliorating effect of He:Ne laser.High-performance liquid chromatographic determination of creatine kinase activity influenced by methylglyoxal.Deamidation alters interactions of beta-crystallins in hetero-oligomersAdvanced glycation end products and the absence of premature atherosclerosis in glycogen storage disease Ia.Increased concentration of two different advanced glycation end-products detected by enzyme immunoassays with new monoclonal antibodies in sera of patients with rheumatoid arthritis.Methylglyoxal modification of protein. Chemical and immunochemical characterization of methylglyoxal-arginine adducts.Antiglycating potential of Zingiber officinalis and delay of diabetic cataract in rats.Diagnostic potential of plasma carboxymethyllysine and carboxyethyllysine in multiple sclerosisArgpyrimidine, a methylglyoxal-derived advanced glycation end-product in familial amyloidotic polyneuropathy.Chondroprotective effects and mechanisms of resveratrol in advanced glycation end products-stimulated chondrocytesAdvanced glycoxidation and lipoxidation end products (AGEs and ALEs): an overview of their mechanisms of formation.Identification in human atherosclerotic lesions of GA-pyridine, a novel structure derived from glycolaldehyde-modified proteins.Glutamic and aminoadipic semialdehydes are the main carbonyl products of metal-catalyzed oxidation of proteins.Life and death: metabolic rate, membrane composition, and life span of animals.Skin advanced glycation end products glucosepane and methylglyoxal hydroimidazolone are independently associated with long-term microvascular complication progression of type 1 diabetes.A review of current research on the effect of diabetes mellitus on the eye.Glucose autoxidation induces functional damage to proteins via modification of critical arginine residuesVitamin C mediates chemical aging of lens crystallins by the Maillard reaction in a humanized mouse model.Advanced glycation end products in diabetic and non-diabetic human subjects suffering from cataract.Determination of dideoxyosone precursors of AGEs in human lens proteins.
P2860
Q24564718-72F551BD-C85D-4428-BD90-BD0AF415EAE4Q24648868-6D041079-19BB-468A-8632-C953F8542971Q26751110-90D0AB4D-4479-4BB3-A29D-89F600174F8BQ27011470-BCB8E26A-6264-4A5E-BA86-58136CDAEF3DQ27664995-8798C214-9C34-4A54-852B-C93FD8E10731Q27935617-DD2B0158-353E-4895-BB0F-06FDF93541C5Q28271097-A3D6AB7D-486F-4C5B-B9FB-1EE2B09BD0D0Q28539333-F9637C95-9253-4624-B0DC-599F8D1B9878Q30315721-4F0C65ED-C121-45A2-97DA-97D17918E10BQ30316666-4A37F93A-8F47-4034-95D8-3FBC2DE82F41Q30369188-099D084C-67E9-4E19-984E-EB2B8103728CQ30403010-3AEA2A09-A42E-404E-9D84-2F2F0C5969C9Q30484885-5F577C0E-AF20-4872-8E47-9B6B1C289F08Q30848765-A9001717-BB9C-457F-ACD7-9DADFF46BA3FQ30884619-45D68B22-0A53-4282-B6A1-7B899B159F15Q31561110-B7F49590-8806-4E2E-9FF6-1C1E7EBD27E1Q32101565-F3C549CE-A5D0-4637-B524-8E07C91BC8B7Q33181556-6467B04A-9957-41A5-B509-B37A09C5E204Q33187854-B045660D-B15C-42B7-8F61-B17B0953E2AAQ33235868-7282E286-9CF8-4562-A6F2-1A55014BAEF1Q33301531-71CCB775-CB1E-4536-9926-65475795874EQ33371849-1F101B21-E9B9-4BFD-9F0E-BF231C9100EAQ33405234-E2EB9A1E-78EF-414D-8216-D666FBA2A086Q33563689-3000406D-2430-4B43-8D65-DD6A01DFBB94Q33569373-765A4944-5FA6-491F-B941-F39A61B6ED74Q33865328-9CDFBDFC-49F2-4FC8-BB97-0CF06BE64EECQ34079319-92652BC5-8EF1-49FF-BE2F-674F1C190726Q34321561-13D13CB8-5F65-4B7E-8426-A7D82A20488CQ34336978-22BE501B-62B8-4844-B165-396C44144F45Q34346185-D7CCC4FB-5D9E-4FF8-9A28-64296C9F3513Q34350918-A163B305-09EC-41CD-9A15-5BDBA21D02A7Q34528130-C4A9BA9F-0E54-4F20-AE4A-2B868697ABC7Q34583349-51B9A411-E425-4847-B5C2-9CDF2C69EBB6Q34700154-F54A116A-FACC-4C00-AA96-25549FAE3497Q34762475-142A053A-9BD7-49F2-ACB2-1F33AF55C168Q35025928-5ECAEB9D-B217-4BC5-8A32-275C5DD9B994Q35118391-A4F3E970-5EC0-4829-8ED8-94EDE696C95DQ35130805-C497DE6B-6BC3-46F6-B06D-1660526D5BA2Q35201120-8472101F-0C04-4D1C-9C74-6AB174190186Q35211155-05569ECE-496F-483C-96B3-8E2E8AE8E540
P2860
N-epsilon-(carboxyethyl)lysine, a product of the chemical modification of proteins by methylglyoxal, increases with age in human lens proteins
description
1997 nî lūn-bûn
@nan
1997 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@ast
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@en
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@nl
type
label
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@ast
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@en
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@nl
prefLabel
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@ast
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@en
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@nl
P2093
P2860
P3181
P356
P1433
P1476
N-epsilon-(carboxyethyl)lysine ...... ith age in human lens proteins
@en
P2093
E Brinkmann Frye
J W Baynes
S R Thorpe
T P Degenhardt
P2860
P304
P3181
P356
10.1042/BJ3240565
P407
P478
324 ( Pt 2)
P577
1997-06-01T00:00:00Z