Kinetic and mechanistic characterization and versatile catalytic properties of mammalian glutaredoxin 2: implications for intracellular roles.
about
Protein-thiol oxidation and cell death: regulatory role of glutaredoxinsArabidopsis Chloroplastic Glutaredoxin C5 as a Model to Explore Molecular Determinants for Iron-Sulfur Cluster Binding into GlutaredoxinsStructural Analysis of Glutaredoxin Domain of Mus musculus Thioredoxin Glutathione ReductaseGlutathione redox control of asthma: from molecular mechanisms to therapeutic opportunitiesThioredoxins, glutaredoxins, and peroxiredoxins--molecular mechanisms and health significance: from cofactors to antioxidants to redox signalingAging-dependent changes in rat heart mitochondrial glutaredoxins--Implications for redox regulationS-glutathionylation: from molecular mechanisms to health outcomesThe Incomplete Glutathione Puzzle: Just Guessing at Numbers and Figures?Redox regulation of cell survival by the thioredoxin superfamily: an implication of redox gene therapy in the heart.Glutaredoxin-2 is required to control oxidative phosphorylation in cardiac muscle by mediating deglutathionylation reactions.Mechanistic and kinetic details of catalysis of thiol-disulfide exchange by glutaredoxins and potential mechanisms of regulationInvolvement of the Azotobacter vinelandii rhodanese-like protein RhdA in the glutathione regeneration pathway.Reversible and irreversible protein glutathionylation: biological and clinical aspects.Glutaredoxin deficiency exacerbates neurodegeneration in C. elegans models of Parkinson's disease.The glutaredoxin mono- and di-thiol mechanisms for deglutathionylation are functionally equivalent: implications for redox systems biologyProtein S-glutathiolation: redox-sensitive regulation of protein function.Glutaredoxin GRXS13 plays a key role in protection against photooxidative stress in Arabidopsis.Vertebrate-specific glutaredoxin is essential for brain development.Glutaredoxin 2a overexpression in macrophages promotes mitochondrial dysfunction but has little or no effect on atherogenesis in LDL-receptor null mice.A comparison of reversible versus irreversible protein glutathionylation.Glutaredoxin 1 protects dopaminergic cells by increased protein glutathionylation in experimental Parkinson's disease.Glutaredoxin-2 is required to control proton leak through uncoupling protein-3.Investigations of the catalytic mechanism of thioredoxin glutathione reductase from Schistosoma mansoni.Molecular mechanisms and clinical implications of reversible protein S-glutathionylation.Redox modulation of endothelial nitric oxide synthase by glutaredoxin-1 through reversible oxidative post-translational modification.Plant cytoplasmic GAPDH: redox post-translational modifications and moonlighting propertiesPleiotropic functions of glutathione S-transferase PToward a refined classification of class I dithiol glutaredoxins from poplar: biochemical basis for the definition of two subclassesRegulation by glutathionylation of isocitrate lyase from Chlamydomonas reinhardtii.Upregulation of Glutaredoxin-1 Activates Microglia and Promotes Neurodegeneration: Implications for Parkinson's DiseaseMitochondrial peroxiredoxin involvement in antioxidant defence and redox signalling.S-glutathiolation in life and death decisions of the cell.The biological roles of glutaredoxins.Mono- and dithiol glutaredoxins in the trypanothione-based redox metabolism of pathogenic trypanosomes.S-glutathionylation reactions in mitochondrial function and diseaseConferring specificity in redox pathways by enzymatic thiol/disulfide exchange reactions.Protein Thiol Redox Signaling in Monocytes and Macrophages.Glutaredoxin 2a, a mitochondrial isoform, plays a protective role in a human cell line under serum deprivation.Glutaredoxin catalysis requires two distinct glutathione interaction sites.Biochemical characterization of glutaredoxins from Chlamydomonas reinhardtii: kinetics and specificity in deglutathionylation reactions.
P2860
Q26852767-D46DBE3A-93E4-4C95-B2C4-04C83729C6ACQ27668124-4D6560EB-F11D-41EE-A478-826B46479E79Q27675837-129E0D6B-DA8E-4966-B6D3-DF35A273442DQ27694579-628A73E1-D01B-4AE4-9DD6-E9362E355176Q28389739-6918F41E-9766-4439-8891-A8F926E552E4Q28577933-ABA711D5-94DC-4D69-AB1F-CE54E995F25FQ30398587-616DDCF5-63D8-4132-809D-B7ACD515425AQ33365461-80502CEB-8A98-4CBD-8817-556ACE0D668EQ33649846-764B27CC-D397-4F7E-BBF9-E4E25C1454A6Q33652142-D319D1CB-B074-4AAE-AF0F-91490113ECF0Q33741131-C0CF24A6-BEE8-4AB8-A641-030D084D95D6Q34438013-625826D1-9F6C-4183-ABA2-88D1ADFE80E6Q35048314-3A37DD28-AAEA-4725-BA0F-070B1C831062Q35063145-72D62E91-424F-4CBA-B72E-ED648CE33433Q35120791-E397E230-3AFA-41FB-BA4A-43849E258626Q35631788-6D33DC49-DB20-4FB9-B2E2-E0E32C836F30Q35632271-352489D6-3216-459D-B349-2CBF1C1F1B3CQ35651372-5F2621A7-4550-4F84-9DDD-E410629547CDQ35738923-28B5CDCA-E6E4-4BBE-BF98-490ADE9628E0Q36155876-7BDE0B1C-381D-4DBC-8F7D-9F749FBD5424Q36326552-BA23DE86-F60D-4D94-9693-E7F3AC21BD55Q36708578-292DD6EA-941E-495E-9C60-56823B851ABCQ36856181-E30192FD-C573-46F2-9755-72FC9F881DAAQ37262124-723AC355-D799-4112-963E-B29A01171057Q37270079-3DC02100-3899-477F-9C12-9AFF48A1B7DCQ37299555-23D07F34-57E2-4566-B92E-E41503325BA5Q37364876-3D9B1821-356A-47C7-A08F-252FD971AE7CQ37400029-8E50F1E2-06A7-4D83-8733-2CD36D50345EQ37479297-878A2994-050C-43E5-8AA6-4CC70D384EBBQ37523363-3875B675-32AA-45AE-B185-91CE2E2B8306Q37660501-96B5DD37-ADF3-4765-A5EF-1196894798AEQ37785101-3D829731-2C00-4E6E-97DB-B2723E58DCCDQ38038631-50DA7A05-5F16-4897-9BE1-E41508882252Q38043539-A5BE2CA3-2CB0-4B75-903B-0D92E56A0F2AQ38276703-0E76880D-90C1-4235-AA42-E2304E23C159Q38634845-DD058927-6CDB-4588-BA6F-BECAE20D112FQ38854845-CE454F9B-065E-4C7D-8FCA-47F81FF30F77Q39511414-9BE05C44-796B-4A07-96D3-DA157A8D10D5Q42208614-DCEE749F-BAC0-4E8E-B165-21D9982AC567Q43091803-A1171D53-2717-4118-9821-50CD8892E38A
P2860
Kinetic and mechanistic characterization and versatile catalytic properties of mammalian glutaredoxin 2: implications for intracellular roles.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Kinetic and mechanistic charac ...... tions for intracellular roles.
@en
Kinetic and mechanistic charac ...... tions for intracellular roles.
@nl
type
label
Kinetic and mechanistic charac ...... tions for intracellular roles.
@en
Kinetic and mechanistic charac ...... tions for intracellular roles.
@nl
prefLabel
Kinetic and mechanistic charac ...... tions for intracellular roles.
@en
Kinetic and mechanistic charac ...... tions for intracellular roles.
@nl
P2093
P2860
P356
P1433
P1476
Kinetic and mechanistic charac ...... tions for intracellular roles.
@en
P2093
Amanda K Leonberg
David W Starke
John J Mieyal
Molly M Gallogly
Susan M English Ospina
P2860
P304
11144-11157
P356
10.1021/BI800966V
P407
P577
2008-09-25T00:00:00Z