Keyword search (4,164 papers available)

"English AM" Authored Publications:

Title Authors PubMed ID
1 Modeling CH sub 3 /sub SOH-aromatic complexes to probe cysteine sulfenic acid-aromatic interactions in proteins Orabi EA; English AM; 40994121
CHEMBIOCHEM
2 Modeling predicts facile release of nitrite but not nitric oxide from the thionitrate CH3SNO2 with relevance to nitroglycerin bioactivation Parmar V; Orabi EA; English AM; Peslherbe GH; 39738238
CERMM
3 Theoretical evidence that Cu(I) complexation promotes degradation of S-nitrosothiols Toubin C; Yeung DY; English AM; Peslherbe GH; 12475301
CERMM
4 Effective simulations of gas diffusion through kinetically accessible tunnels in multisubunit proteins: O2 pathways and escape routes in T-state deoxyhemoglobin Shadrina MS; English AM; Peslherbe GH; 22690872
CERMM
5 Structural determination and anticholinesterase assay of C-glycosidic ellagitannins from Lawsonia inermis leaves: A study supported by DFT calculations and molecular docking Orabi MAA; Orabi EA; Abdel-Sattar ES; English AM; Hatano T; Elimam H; 36423882
CHEMBIOCHEM
6 Modeling Shows that Rotation about the Peroxide O-O Bond Assists Protein and Lipid Functional Groups in Discriminating between H2O2 and H2O Orabi EA; English AM; 33356279
CHEMBIOCHEM
7 Sublethal Paraquat Confers Multidrug Tolerance in Pseudomonas aeruginosa by Inducing Superoxide Dismutase Activity and Lowering Envelope Permeability. Martins D, McKay GA, English AM, Nguyen D 33101252
CHEMBIOCHEM
8 Ctt1 catalase activity potentiates antifungal azoles in the emerging opportunistic pathogen Saccharomyces cerevisiae. Martins D, Nguyen D, English AM 31235707
CHEMBIOCHEM
9 Derivatization of yeast cytochrome c peroxidase with pentaammineruthenium(III). Fox T, English AM, Gibbs BF 8199229
CHEMBIOCHEM
10 Mass spectral analysis of protein-based radicals using DBNBS. Nonradical adduct formation versus spin trapping. Filosa A, English AM 11262405
CHEMBIOCHEM
11 Heme nitrosylation of deoxyhemoglobin by s-nitrosoglutathione requires copper. Romeo AA, Capobianco JA, English AM 11970954
CHEMBIOCHEM
12 S-nitrosation of Ca(2+)-loaded and Ca(2+)-free recombinant calbindin D(28K) from human brain. Tao L, Murphy ME, English AM 11994015
CHEMBIOCHEM
13 Different pathways of radical translocation in yeast cytochrome c peroxidase and its W191F mutant on reaction with H(2)O(2) suggest an antioxidant role. Tsaprailis G, English AM 12589560
CHEMBIOCHEM
14 Mechanism of S-nitrosation of recombinant human brain calbindin D28K. Tao L, English AM 12641465
CHEMBIOCHEM
15 Quantitative analysis of the yeast proteome by incorporation of isotopically labeled leucine. Jiang H, English AM 12645890
CHEMBIOCHEM
16 Scavenging with TEMPO* to identify peptide- and protein-based radicals by mass spectrometry: advantages of spin scavenging over spin trapping. Wright PJ, English AM 12848573
CHEMBIOCHEM
17 ESI-MS and FTIR studies of the interaction between the second PDZ domain of hPTP1E and target peptides. Papp R, Ekiel I, English AM 12870871
CHEMBIOCHEM
18 Superoxide dismutase targets NO from GSNO to Cysbeta93 of oxyhemoglobin in concentrated but not dilute solutions of the protein. Romeo AA, Capobianco JA, English AM 14624585
CHEMBIOCHEM
19 Protein S-glutathiolation triggered by decomposed S-nitrosoglutathione. Tao L, English AM 15049710
CHEMBIOCHEM
20 Mass spectrometric analysis of nitroxyl-mediated protein modification: comparison of products formed with free and protein-based cysteines. Shen B, English AM 16229492
CHEMBIOCHEM
21 Hemoglobin S-nitrosation on oxygenation of nitrite/deoxyhemoglobin incubations is attenuated by methemoglobin. Laterreur J, English AM 17889368
CHEMBIOCHEM
22 ESI-MS quantitation of iron as its 4-(2-pyridylazo)resorcinol (PAR) complex: application to pharmaceutical tablets containing iron oxide pigment. Susanto D, English AM, Sharma R, Kwong E 21520348
CHEMBIOCHEM
23 SOD1 oxidation and formation of soluble aggregates in yeast: relevance to sporadic ALS development. Martins D, English AM 24936435
CHEMBIOCHEM
24 Targeted proteomics identify metabolism-dependent interactors of yeast cytochrome c peroxidase: implications in stress response and heme trafficking. Kathiresan M, English AM 26980054
CHEMBIOCHEM
25 Expanding the range of binding energies and oxidizability of biologically relevant S-aromatic interactions: imidazolium and phenolate binding to sulfoxide and sulfone Orabi EA; English AM; 31214677
CHEMBIOCHEM
26 Evaluation of D10-Leu metabolic labeling coupled with MALDI-MS analysis in studying the response of the yeast proteome to H2O2 challenge Jiang H; English AM; 17022625
CBAMS
27 Reduction and S-nitrosation of the neuropeptide oxytocin: implications for its biological function Roy JF; Chrétien MN; Woodside B; English AM; 17692543
CBAMS
28 LC-MS/MS suggests that hole hopping in cytochrome c peroxidase protects its heme from oxidative modification by excess H2O2. Kathiresan M, English AM 28451256
CHEMBIOCHEM
29 LC-MS/MS Proteoform Profiling Exposes Cytochrome c Peroxidase Self-Oxidation in Mitochondria and Functionally Important Hole Hopping from Its Heme Kathiresan M; English AM; 30145880
CHEMBIOCHEM
30 Predicting structural and energetic changes in Met-aromatic motifs on methionine oxidation to the sulfoxide and sulfone Orabi EA; English AM; 30168822
CHEMBIOCHEM
31 Superoxide dismutase activity confers (p)ppGpp-mediated antibiotic tolerance to stationary-phase Pseudomonas aeruginosa. Martins D, McKay G, Sampathkumar G, Khakimova M, English AM, Nguyen D 30201715
CHEMBIOCHEM

 

Title:Heme nitrosylation of deoxyhemoglobin by s-nitrosoglutathione requires copper.
Authors:Romeo AACapobianco JAEnglish AM
Link:https://www.ncbi.nlm.nih.gov/pubmed/11970954?dopt=Abstract
DOI:10.1074/jbc.M202221200
Publication:The Journal of biological chemistry
Keywords:
PMID:11970954 Category:J Biol Chem Date Added:2019-06-20
Dept Affiliation: CHEMBIOCHEM
1 Department of Chemistry and Biochemistry, Concordia University, 1455 de Maisonneuve Boulevard West, Montreal, Quebec H3G 1M8, Canada.

Description:

Heme nitrosylation of deoxyhemoglobin by s-nitrosoglutathione requires copper.

J Biol Chem. 2002 Jul 05;277(27):24135-41

Authors: Romeo AA, Capobianco JA, English AM

Abstract

NO reactions with hemoglobin (Hb) likely play a role in blood pressure regulation. For example, NO exchange between Hb and S-nitrosoglutathione (GSNO) has been reported in vitro. Here we examine the reaction between GSNO and deoxyHb (HbFe(II)) in the presence of both Cu(I) (2,9-dimethyl-1, 10-phenanthroline (neocuproine)) and Cu(II) (diethylenetriamine-N,N,N',N",N"-pentaacetic acid) chelators using a copper-depleted Hb solution. Spectroscopic analysis of deoxyHb (HbFe(II))/GSNO incubates shows prompt formation (<5 min) of approximately 100% heme-nitrosylated Hb (HbFe(II)NO) in the absence of chelators, 46% in the presence of diethylenetriamine-N,N,N',N",N"-pentaacetic acid, and 25% in the presence of neocuproine. Negligible (<2%) HbFe(II)NO was detected when neocuproine was added to copper-depleted HbFe(II)/GSNO incubates. Thus, HbFe(II)NO formation via a mechanism involving free NO generated by Cu(I) catalysis of GSNO breakdown is proposed. GSH is a source of reducing equivalents because extensive GSSG was detected in HbFe(II)/GSNO incubates in the absence of metal chelators. No S-nitrosation of HbFe(II) was detected under any conditions. In contrast, the NO released from GSNO is directed to Cysbeta(93) of oxyHb in the absence of chelators, but only metHb formation is observed in the presence of chelators. Our findings reveal that the reactions of GSNO and Hb are controlled by copper and that metal chelators do not fully inhibit NO release from GSNO in Hb-containing solutions.

PMID: 11970954 [PubMed - indexed for MEDLINE]




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