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Paper Details

Gene expression analysis in Fmr1KO mice identifies an immunological signature in brain tissue and mGluR5-related signaling in primary neuronal cultures.
Mol Autism
14
2015
), FXS, Fmr1, Fmr1KO, Fmr1KO murine cultures, Fragile X syndrome, KO/WT cultures, autism, cell cultures, cultured, cultured cells, cultured neurons, cultured primary neuronal cells, fragile, fragile X mental retardation, fragile X mental retardation 1, genome, glia, human, mGluR5, mRNA, mice, mouse, murine, murine differentially expressed genes, neurodevelopmental disorder, neurological transcriptome, neurons, primary neuronal cells, primary neuronal cultures, transcriptome, transcriptomes, wild-type (WT) murine primary neuronal cultures
Author NameAffiliation
Daria PrilutskyHarvard Medical School
Alvin T KhoChildren's Hospital Informatics Program, Boston Children's Hospital
Nathan PalmerHarvard Medical School
Nathan PalmerHarvard Medical School
Asha L BhakarPicower Institute for Learning and Memory, Massachusetts Institute of Technology
Niklas Smedemark-MarguliesHarvard Medical School
Sek Won KongChildren's Hospital Informatics Program, Boston Children's Hospital, Harvard Medical School
David M MarguliesHarvard Medical School
Mark F BearPicower Institute for Learning and Memory, Massachusetts Institute of Technology
Isaac S KohaneHarvard Medical School, MA USA Children's Hospital Informatics Program, Boston Children's Hospital
Isaac S KohaneHarvard Medical School, MA USA Children's Hospital Informatics Program, Boston Children's Hospital
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