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Full-Text Articles in Medicine and Health Sciences
Transcriptional Regulatory Networks Underlying Gene Expression Changes In Huntington's Disease., Seth A Ament, Jocelynn R Pearl, Jeffrey P Cantle, Robert M Bragg, Peter J Skene, Sydney R Coffey, Dani E Bergey, Vanessa C Wheeler, Marcy E Macdonald, Nitin S Baliga, Jim Rosinski, Leroy E Hood, Jeffrey B Carroll, Nathan D Price
Transcriptional Regulatory Networks Underlying Gene Expression Changes In Huntington's Disease., Seth A Ament, Jocelynn R Pearl, Jeffrey P Cantle, Robert M Bragg, Peter J Skene, Sydney R Coffey, Dani E Bergey, Vanessa C Wheeler, Marcy E Macdonald, Nitin S Baliga, Jim Rosinski, Leroy E Hood, Jeffrey B Carroll, Nathan D Price
Articles, Abstracts, and Reports
Transcriptional changes occur presymptomatically and throughout Huntington's disease (HD), motivating the study of transcriptional regulatory networks (TRNs) in HD We reconstructed a genome-scale model for the target genes of 718 transcription factors (TFs) in the mouse striatum by integrating a model of genomic binding sites with transcriptome profiling of striatal tissue from HD mouse models. We identified 48 differentially expressed TF-target gene modules associated with age- and CAG repeat length-dependent gene expression changes in
Preparation Of Acute Brain Slices Using An Optimized N-Methyl-D-Glucamine Protective Recovery Method., Jonathan T Ting, Brian R Lee, Peter Chong, Gilberto Soler-Llavina, Charles Cobbs, Christof Koch, Hongkui Zeng, Ed Lein
Preparation Of Acute Brain Slices Using An Optimized N-Methyl-D-Glucamine Protective Recovery Method., Jonathan T Ting, Brian R Lee, Peter Chong, Gilberto Soler-Llavina, Charles Cobbs, Christof Koch, Hongkui Zeng, Ed Lein
Articles, Abstracts, and Reports
This protocol is a practical guide to the N-methyl-D-glucamine (NMDG) protective recovery method of brain slice preparation. Numerous recent studies have validated the utility of this method for enhancing neuronal preservation and overall brain slice viability. The implementation of this technique by early adopters has facilitated detailed investigations into brain function using diverse experimental applications and spanning a wide range of animal ages, brain regions, and cell types. Steps are outlined for carrying out the protective recovery brain slice technique using an optimized NMDG artificial cerebrospinal fluid (aCSF) media formulation and enhanced procedure to reliably obtain healthy brain slices for …