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Synergistic cooperation of PDI family members in peroxiredoxin 4-driven oxidative protein folding
by
Hagiwara, Masatoshi
, Masui, Shoji
, Kojima, Rieko
, Horibe, Tomohisa
, Okumura, Masaki
, Inaba, Kenji
, Sato, Yoshimi
, Maegawa, Ken-ichi
, Saiki, Masatoshi
, Suzuki, Mamoru
in
631/45/470/1463
/ 631/45/470/1981
/ 631/535/1266
/ 631/535/1267
/ Binding Sites
/ Chemical bonds
/ Cooperativity
/ Crystal structure
/ Disulfide bonds
/ Endoplasmic reticulum
/ Endoplasmic Reticulum - chemistry
/ Endoplasmic Reticulum - metabolism
/ Enzymes
/ Eukaryotes
/ Fidelity
/ HEK293 Cells
/ Humanities and Social Sciences
/ Humans
/ Mammals
/ multidisciplinary
/ Oxidation-Reduction
/ Peroxiredoxin
/ Peroxiredoxins - chemistry
/ Peroxiredoxins - metabolism
/ Peroxiredoxins - ultrastructure
/ Protein Binding
/ Protein disulfide-isomerase
/ Protein Disulfide-Isomerases - chemistry
/ Protein Disulfide-Isomerases - metabolism
/ Protein Disulfide-Isomerases - ultrastructure
/ Protein Folding
/ Science
/ Thioredoxin
2013
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Synergistic cooperation of PDI family members in peroxiredoxin 4-driven oxidative protein folding
by
Hagiwara, Masatoshi
, Masui, Shoji
, Kojima, Rieko
, Horibe, Tomohisa
, Okumura, Masaki
, Inaba, Kenji
, Sato, Yoshimi
, Maegawa, Ken-ichi
, Saiki, Masatoshi
, Suzuki, Mamoru
in
631/45/470/1463
/ 631/45/470/1981
/ 631/535/1266
/ 631/535/1267
/ Binding Sites
/ Chemical bonds
/ Cooperativity
/ Crystal structure
/ Disulfide bonds
/ Endoplasmic reticulum
/ Endoplasmic Reticulum - chemistry
/ Endoplasmic Reticulum - metabolism
/ Enzymes
/ Eukaryotes
/ Fidelity
/ HEK293 Cells
/ Humanities and Social Sciences
/ Humans
/ Mammals
/ multidisciplinary
/ Oxidation-Reduction
/ Peroxiredoxin
/ Peroxiredoxins - chemistry
/ Peroxiredoxins - metabolism
/ Peroxiredoxins - ultrastructure
/ Protein Binding
/ Protein disulfide-isomerase
/ Protein Disulfide-Isomerases - chemistry
/ Protein Disulfide-Isomerases - metabolism
/ Protein Disulfide-Isomerases - ultrastructure
/ Protein Folding
/ Science
/ Thioredoxin
2013
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Synergistic cooperation of PDI family members in peroxiredoxin 4-driven oxidative protein folding
by
Hagiwara, Masatoshi
, Masui, Shoji
, Kojima, Rieko
, Horibe, Tomohisa
, Okumura, Masaki
, Inaba, Kenji
, Sato, Yoshimi
, Maegawa, Ken-ichi
, Saiki, Masatoshi
, Suzuki, Mamoru
in
631/45/470/1463
/ 631/45/470/1981
/ 631/535/1266
/ 631/535/1267
/ Binding Sites
/ Chemical bonds
/ Cooperativity
/ Crystal structure
/ Disulfide bonds
/ Endoplasmic reticulum
/ Endoplasmic Reticulum - chemistry
/ Endoplasmic Reticulum - metabolism
/ Enzymes
/ Eukaryotes
/ Fidelity
/ HEK293 Cells
/ Humanities and Social Sciences
/ Humans
/ Mammals
/ multidisciplinary
/ Oxidation-Reduction
/ Peroxiredoxin
/ Peroxiredoxins - chemistry
/ Peroxiredoxins - metabolism
/ Peroxiredoxins - ultrastructure
/ Protein Binding
/ Protein disulfide-isomerase
/ Protein Disulfide-Isomerases - chemistry
/ Protein Disulfide-Isomerases - metabolism
/ Protein Disulfide-Isomerases - ultrastructure
/ Protein Folding
/ Science
/ Thioredoxin
2013
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Synergistic cooperation of PDI family members in peroxiredoxin 4-driven oxidative protein folding
Journal Article
Synergistic cooperation of PDI family members in peroxiredoxin 4-driven oxidative protein folding
2013
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Overview
The mammalian endoplasmic reticulum (ER) harbors disulfide bond-generating enzymes, including Ero1α and peroxiredoxin 4 (Prx4) and nearly 20 members of the protein disulfide isomerase family (PDIs), which together constitute a suitable environment for oxidative protein folding. Here, we clarified the Prx4 preferential recognition of two PDI family proteins, P5 and ERp46 and the mode of interaction between Prx4 and P5 thioredoxin domain. Detailed analyses of oxidative folding catalyzed by the reconstituted Prx4–PDIs pathways demonstrated that, while P5 and ERp46 are dedicated to rapid, but promiscuous, disulfide introduction, PDI is an efficient proofreader of non-native disulfides. Remarkably, the Prx4-dependent formation of native disulfide bonds was accelerated when PDI was combined with ERp46 or P5, suggesting that PDIs work synergistically to increase the rate and fidelity of oxidative protein folding. Thus, the mammalian ER seems to contain highly systematized oxidative networks for the efficient production of large quantities of secretory proteins.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
/ Endoplasmic Reticulum - chemistry
/ Endoplasmic Reticulum - metabolism
/ Enzymes
/ Fidelity
/ Humanities and Social Sciences
/ Humans
/ Mammals
/ Peroxiredoxins - ultrastructure
/ Protein Disulfide-Isomerases - chemistry
/ Protein Disulfide-Isomerases - metabolism
/ Protein Disulfide-Isomerases - ultrastructure
/ Science
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