Loss of the oxidative stress sensor NPGPx compromises GRP78 chaperone activity and induces systemic disease. [electronic resource]

By:

Wei, Pei-Chi

Contributor(s):

Hsieh, Yi-Hsuan
Su, Mei-I
Jiang, Xianzhi
Hsu, Pang-Hung
Lo, Wen-Ting
Weng, Jui-Yun
Jeng, Yung-Ming
Wang, Ju-Ming
Chen, Phang-lang
Chang, Yi-Cheng
Lee, Kuo-Fen
Tsai, Ming-Daw
Shew, Jin-Yuh
Lee, Wen-Hwa

Producer: 20130219Description: 747-59 p. digitalISSN:

1097-4164

Subject(s):

Animals
Carrier Proteins -- genetics
Cell Line, Tumor
Cell Proliferation
Cell Survival
Cell Transformation, Neoplastic -- genetics
Cysteine
DNA Damage
Disulfides -- metabolism
Dose-Response Relationship, Drug
Endoplasmic Reticulum Chaperone BiP
Endoplasmic Reticulum Stress -- drug effects
Fibroblasts -- enzymology
Glutathione Peroxidase
Heat-Shock Proteins -- genetics
Homeostasis
Humans
Mice
Mice, Inbred C57BL
Mice, Knockout
Mutagenesis, Site-Directed
Mutation
Oxidants -- pharmacology
Oxidation-Reduction
Oxidative Stress -- drug effects
Peroxidases -- genetics
Protein Binding
Protein Folding
Proteostasis Deficiencies -- enzymology
Reactive Oxygen Species -- metabolism
Signal Transduction -- drug effects
Time Factors
Transfection

Online resources:

Available from publisher's website

In: Molecular cell vol. 48

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Publication Type: Journal Article; Research Support, N.I.H., Extramural; Research Support, Non-U.S. Gov't

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Loss of the oxidative stress sensor NPGPx compromises GRP78 chaperone activity and induces systemic disease.

APA

Wei P., Hsieh Y., Su M., Jiang X., Hsu P., Lo W., Weng J., Jeng Y., Wang J., Chen P., Chang Y., Lee K., Tsai M., Shew J. & Lee W. (20130219). Loss of the oxidative stress sensor NPGPx compromises GRP78 chaperone activity and induces systemic disease. : Molecular cell.

Chicago

Wei Pei-Chi, Hsieh Yi-Hsuan, Su Mei-I, Jiang Xianzhi, Hsu Pang-Hung, Lo Wen-Ting, Weng Jui-Yun, Jeng Yung-Ming, Wang Ju-Ming, Chen Phang-lang, Chang Yi-Cheng, Lee Kuo-Fen, Tsai Ming-Daw, Shew Jin-Yuh and Lee Wen-Hwa. 20130219. Loss of the oxidative stress sensor NPGPx compromises GRP78 chaperone activity and induces systemic disease. : Molecular cell.

Harvard

Wei P., Hsieh Y., Su M., Jiang X., Hsu P., Lo W., Weng J., Jeng Y., Wang J., Chen P., Chang Y., Lee K., Tsai M., Shew J. and Lee W. (20130219). Loss of the oxidative stress sensor NPGPx compromises GRP78 chaperone activity and induces systemic disease. : Molecular cell.

MLA

Wei Pei-Chi, Hsieh Yi-Hsuan, Su Mei-I, Jiang Xianzhi, Hsu Pang-Hung, Lo Wen-Ting, Weng Jui-Yun, Jeng Yung-Ming, Wang Ju-Ming, Chen Phang-lang, Chang Yi-Cheng, Lee Kuo-Fen, Tsai Ming-Daw, Shew Jin-Yuh and Lee Wen-Hwa. Loss of the oxidative stress sensor NPGPx compromises GRP78 chaperone activity and induces systemic disease. : Molecular cell. 20130219.

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