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Paper Details

Integrative functional genomic analysis of intron retention in human and mouse brain with Alzheimer's disease.
Alzheimers Dement
17
2021
', AD, Alzheimer, Alzheimer's disease, HMBOX1, cancers, differentially expressed genes, human, human and 1736 mouse genes, humans, innate immune genes, intron, intron-retained mRNAs, mouse, mouse models, splicing-related genes
Author NameAffiliation
Cory C FunkInstitute for Systems Biology
Karen N McFarlandCenter for Translational Research in Neurodegenerative disease, and McKnight Brain Institute, University of Florida
Eric B DammerEmory University
Mariet AllenMayo Clinic
Minerva M CarrasquilloMayo Clinic
Yona LevitesCenter for Translational Research in Neurodegenerative disease, and McKnight Brain Institute, University of Florida
Paramita ChakrabartyCenter for Translational Research in Neurodegenerative disease, and McKnight Brain Institute, University of Florida
Jeremy D BurgessMayo Clinic
Xue WangMayo Clinic
Dennis W DicksonMayo Clinic
James J LahEmory University
Steven G YounkinMayo Clinic
Allan I LeveyEmory University
Gilbert S OmennInstitute for Systems Biology
Gilbert S OmennUniversity of Michigan ann arbor
Gilbert S OmennInstitute for Systems Biology
Gilbert S OmennUniversity of Michigan ann arbor
Nil??fer Ertekin-TanerMayo Clinic
Nil??fer Ertekin-TanerMayo Clinic
Todd E GoldeCenter for Translational Research in Neurodegenerative disease, and McKnight Brain Institute, University of Florida
Nathan D PriceInstitute for Systems Biology
Nathan D PriceInstitute for Systems Biology
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