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Paper Details

Allosteric inhibition of the IRE1α RNase preserves cell viability and function during endoplasmic reticulum stress.
Cell
341
2014
ATP, Akita, Akita diabetic, ER proteins, ER stress, ER transmembrane multidomain protein IRE1, ER-localized mRNAs, IRE1, IRE1 Kinase, IRE1 RNase, IRE1 lumenal domain, IRE1's RNase, KIRA, KIRA6, RNase, XBP1 transcription factor, cell degeneration, cytosolic kinase, endoribonuclease, hyperglycemia, insulin, mRNA, mice, oligomers, pancreatic cells, photoreceptor, rat, retinal degeneration
Author NameAffiliation
Aeid IgbariaUniversity of California, USA Diabetes Center, USA California Institute for Quantitative Biosciences san francisco
Stephan C Sch??rerCenter for Computational Science, Miller School of Medicine, University of Miami
Stephan C Sch??rerCenter for Computational Science, Miller School of Medicine, University of Miami
Scott A OakesUniversity of California, USA Diabetes Center san francisco
Feroz R PapaUniversity of California, USA Diabetes Center, USA California Institute for Quantitative Biosciences san francisco
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