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Paper Details

Unfolded Protein Response Inhibition Reduces Middle East Respiratory Syndrome Coronavirus-Induced Acute Lung Injury.
mBio
17
2021
-, -infected primary lung cells, Acute Lung Injury, Coronavirus, FB, HAE, MERS, MERS-, MERS-CoV, MERS-CoV-infected MVE cells, MERS-CoV-infected primary human lung microvascular endothelial (MVE) cells, MERS-CoV-infected primary lung cells, MVE, Middle East Respiratory Syndrome Coronavirus, Middle East respiratory syndrome coronavirus, RNA, UPR, acute lung injury, atypical pneumonia, coronavirus, end-stage, fibroblasts, human, human airway epithelial cell cultures, infected MVE cells, lung cell types, lung disease, lung injury, mice, patients, primary human lung microvascular endothelial cells, transcript, transcriptomes
Author NameAffiliation
Amy C SimsUniversity of North Carolina at Chapel Hillgrid.10698.36
Hugh D Mitchell
Lisa E GralinskiUniversity of North Carolina at Chapel Hillgrid.10698.36
Lisa E GralinskiUniversity of North Carolina at Chapel Hillgrid.10698.36
Jennifer E Kyle
Jennifer E Kyle
Kristin E Burnum-Johnson
Ande WestUniversity of North Carolina at Chapel Hillgrid.10698.36
Richard D Smith
Richard D Smith
Scott H RandellMarsico Lung Institute Tissue Procurement and Cell Culture Core, University of North Carolina at Chapel Hillgrid.10698.36
Scott H RandellUniversity of North Carolina at Chapel Hillgrid.10698.36
Thomas O Metz
Katrina M Waters
Katrina M Waters
Ralph S BaricUniversity of North Carolina at Chapel Hillgrid.10698.36
Ralph S BaricUniversity of North Carolina at Chapel Hillgrid.10698.36
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