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Articles Published Processes
8/27/2014 4:51:00 PM | Browse: 1253 | Download: 1179
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Received |
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2013-01-14 09:33 |
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Peer-Review Started |
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2013-01-14 19:52 |
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First Decision by Editorial Office Director |
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2013-02-25 11:00 |
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Revised |
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2013-03-19 21:31 |
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Publication Fee Transferred |
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Second Decision by Editor |
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2013-04-28 14:27 |
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Second Decision by Editor-in-Chief |
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Final Decision by Editorial Office Director |
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2013-04-29 01:00 |
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Articles in Press |
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Edit the Manuscript by Language Editor |
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Typeset the Manuscript |
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2013-05-04 11:07 |
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Publish the Manuscript Online |
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2013-05-10 17:28 |
| Category |
Biology |
| Manuscript Type |
Autobiography |
| Article Title |
Refractoriness of interferon-beta signaling through NOD1 pathway in mouse respiratory epithelial cells using the anticancer xanthone compound
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| Manuscript Source |
Invited Manuscript |
| All Author List |
Zaifang Yu, Jarrod D Predina and Guanjun Cheng |
| Funding Agency and Grant Number |
| Funding Agency |
Grant Number |
| NCI PO1 CA |
66726 |
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| Corresponding Author |
Dr. Guanjun Cheng, Thoracic Oncology Research Laboratory, 1016B ARC, University of Pennsylvania, 3615 Civic Center Boulevard, Philadelphia, PA 19104, United States. guanjun@mail.med.upenn.edu |
| Key Words |
Innate immunity; Interferon; Refractoriness; Xanthone; Bronchial epithelium |
| Core Tip |
We recently demonstrated that a small, cell-permeable compound, 5,6-dimethylxanthenone-4-acetic acid (DMXAA), was able to induce production of interferon (IFN)-? and IFN-?-dependent proteins and protect epithelial cells in vitro from virally-induced cell death and to protect mice from a lethal dose of H1N1 influenza A virus. DMXAA that activates multiple antiviral pathways including IFN-? pathway is an attractive strategy in antiviral therapies. Nucleotide oligomerization domain 1 pathway may play an important role in refractoriness of IFN-? signaling in mouse respiratory epithelial cells induced by DMXAA. |
| Publish Date |
2013-05-10 17:28 |
| Citation |
Yu Z, Predina JD, Cheng G. Refractoriness of interferon-b signaling through NOD1 pathway in mouse respiratory epithelial cells using the anticancer xanthone compound. World J Biol Chem 2013; 4(2): 18-29 |
| URL |
http://www.wjgnet.com/1949-8454/full/v4/i2/18.htm |
| DOI |
http://dx.doi.org/10.4331/wjbc.v4.i2.18 |
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