The biological significance of methionine sulfoxide stereochemistry.
about
The Impact of Non-Enzymatic Reactions and Enzyme Promiscuity on Cellular Metabolism during (Oxidative) Stress ConditionsMsrA Overexpression Targeted to the Mitochondria, but Not Cytosol, Preserves Insulin Sensitivity in Diet-Induced Obese MiceRegulation of protein function by reversible methionine oxidation and the role of selenoprotein MsrB1Methionine sulfoxide reductases are essential for virulence of Salmonella typhimuriumSelR reverses Mical-mediated oxidation of actin to regulate F-actin dynamics.Vibrio cholerae ensures function of host proteins required for virulence through consumption of luminal methionine sulfoxide.Altered KYN/TRP, Gln/Glu, and Met/methionine sulfoxide ratios in the blood plasma of medication-free patients with major depressive disorderOxidative modulation of voltage-gated potassium channels.Selenium, selenoproteins and the thyroid gland: interactions in health and disease.Methionine sulfoxide reductase A affects insulin resistance by protecting insulin receptor functionDiversity of plant methionine sulfoxide reductases B and evolution of a form specific for free methionine sulfoxideThiol-redox signaling, dopaminergic cell death, and Parkinson's diseaseIntracellular repair of oxidation-damaged α-synuclein fails to target C-terminal modification sitesA metabolomics-driven elucidation of the anti-obesity mechanisms of xanthohumol.Aβ monomers transiently sample oligomer and fibril-like configurations: ensemble characterization using a combined MD/NMR approachAntioxidant gene therapy against neuronal cell death.Characteristics and biotechnology applications of aliphatic amino acid hydroxylases belonging to the Fe(II)/α-ketoglutarate-dependent dioxygenase superfamily.Metformin Eased Cognitive Impairment Induced by Chronic L-methionine Administration: Potential Role of Oxidative Stress.Regulated methionine oxidation by monooxygenases.Oxidative stress, protein damage and repair in bacteria.Chronic administration of methionine and/or methionine sulfoxide alters oxidative stress parameters and ALA-D activity in liver and kidney of young rats.Corynebacterium diphtheriae methionine sulfoxide reductase a exploits a unique mycothiol redox relay mechanism.Differential cellular responses associated with oxidative stress and cell fate decision under nitrate and phosphate limitations in Thalassiosira pseudonana: Comparative proteomicsAntifragility and Tinkering in Biology (and in Business) Flexibility Provides an Efficient Epigenetic Way to Manage Risk.Repairing oxidized proteins in the bacterial envelope using respiratory chain electrons.Selective reduction of methylsulfinyl-containing compounds by mammalian MsrA suggests a strategy for improved drug efficacyStereospecific electrophoretically mediated microanalysis assay for methionine sulfoxide reductase enzymes.Methionine and methionine sulfoxide alter parameters of oxidative stress in the liver of young rats: in vitro and in vivo studies.Stereospecific micellar electrokinetic chromatography assay of methionine sulfoxide reductase activity employing a multiple layer coated capillary.Methionine and/or Methionine Sulfoxide Alter Ectoenzymes Activities in Lymphocytes and Inflammatory Parameters in Serum from Young Rats: Acute and Chronic Effects.
P2860
Q26785889-B89ED5AD-92CD-406D-8025-1901F7969513Q27314952-7E509418-8324-42B7-B49B-8B3913DA8012Q28084740-9AC5806D-419F-4E44-A409-F6CA3BD0C266Q28743222-6404564B-896B-4306-A605-9A0E6D3CC4ACQ30604695-8B24D6F9-CF9C-4EAE-89BE-7BE9024D8818Q33807128-40EF4B67-86E1-4E0E-8B57-3051C0A2BFF6Q33884852-4AEEE915-6D23-4049-8A41-DDA7C1451B78Q33975038-BE503A84-2439-4105-B5F1-2FB2086EF12AQ34225316-C560E556-CA62-496A-BF76-0F6789914BC6Q34307562-86D99B5F-3EC8-48DD-9D02-02555A8F37D9Q34775832-4DF59FE3-75AD-477F-96B4-CD54DA9277E6Q36326535-17B8997D-D5C6-40AE-B800-B17AF3B8B614Q36534162-1C6D33B9-B7C8-48D0-B16F-C023112E779DQ36967335-2F9232B7-6EBA-4654-89D7-D85B8F7954A6Q37191689-2809A099-77D7-41BD-872B-EDCC0CF7CDC4Q37647941-8DE97DC1-DE37-4B2E-B230-D27F79FAC425Q38200522-AB373C0B-4995-4A36-ACD5-45F5CF2818F1Q38479656-8E5509B4-B691-497B-9343-1D97BDF54AB7Q39147645-C633C73E-A3D5-466E-8FD1-C1A9171B19FDQ39249467-BEDCD4C1-ED68-4BDC-A976-809C40BA4E84Q39310558-CF7B7E5E-64ED-44C4-B4E9-43D4038E26B0Q40165299-B3053333-AFB2-4F8B-8B6B-BFA50344E105Q41070341-4D72EF47-C835-4FCB-83E2-FBBAD8E195D2Q41962414-C8A78948-3A64-47EC-BE89-44A7397D7AEDQ42170670-72EA5A96-DEB0-4728-834A-DD7B4058CF80Q42570124-08679BE5-A80D-4B78-BC38-DC7DAF22BED6Q44308827-2F247F94-C527-483D-8647-85B51D7D742CQ45968548-38B53F54-C299-47F3-97DA-26FA96F98899Q46812856-2BF73ECB-CC2D-4C6C-B5EC-D4E65558A15AQ50880829-DB4AC4B5-E994-4C5B-AB79-BBAFA751E01A
P2860
The biological significance of methionine sulfoxide stereochemistry.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh
2010年學術文章
@zh-hant
name
The biological significance of methionine sulfoxide stereochemistry.
@en
The biological significance of methionine sulfoxide stereochemistry.
@nl
type
label
The biological significance of methionine sulfoxide stereochemistry.
@en
The biological significance of methionine sulfoxide stereochemistry.
@nl
prefLabel
The biological significance of methionine sulfoxide stereochemistry.
@en
The biological significance of methionine sulfoxide stereochemistry.
@nl
P2860
P1476
The biological significance of methionine sulfoxide stereochemistry.
@en
P2093
Byung Cheon Lee
Vadim N Gladyshev
P2860
P304
P356
10.1016/J.FREERADBIOMED.2010.11.008
P577
2010-11-11T00:00:00Z