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I and DPR abundance in C9-BAC mice was observed to
I and DPR abundance in C9-BAC mice was observed to significantly decline as a function of age [23]. This is somewhat counter-intuitive since ALS/FTD are age-related disorders. Therefore, we hypothesized that partial epigenetic repression of the C9ORF72 transgene could potentially attenuate the severity of phenotypes in C9-BAC mice, limiting their applicability to human disease. Herein, we performed a post-natal purchase GW 4064 developmental study using transgenic BAC mice reported by Peters et al. [23] to systematically investigate whether characteristic epigenetic features of the HRE in C9-ALS are recapitulated in this mouse model system.MethodsC9-BAC miceAnimals used in the present study have previously been described [23]. Briefly, a BAC containing human sequence from a C9-ALS patient, spanning the gene promoter to exon 6, was inserted into the mouse genome using standard transgenic methods. All experimental procedures involving transgenic mice were performed in accordance with the guidelines of Institutional Animal Care and Use Committee of the University of Massachusetts Medical School.DNA and RNA extractionGenomic DNA and total RNA extractions were performed from 30 mg of mouse brain tissues using a kit (AllPrep DNA/RNA Mini Kit? Qiagen #80204) as per manufacturers’ instructions.Quantitative PCR (qPCR)Reactions were performed using TaqMan?assays that amplify C9ORF72 transcript variants V1, V2, V3 (Hs00376619_m1), C9ORF72 V1, V3 (Hs00331877_m1), C9ORF72 V2 (NM_018325.3, L/R/Probe: 5’CGGT GGCGAGTGGATATCTC / 5’TGGGCAAAGAGTC GACATCA/ 5’TAATGTGACAGTTGGAATGC), mouseEsanov et al. Molecular Neurodegeneration (2017) 12:Page 3 ofGlyceraldehyde 3-phosphate dehydrogenase (GAPDH) (Mm99999915_g1), beta-actin (Mm00607939_s1), eukaryotic 18S ribosomal RNA (Hs99999901_s1) and human GAPDH (Hs02758991_g1). Relative quantification values were calculated using a standard PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/26024392 curve method, normalized to the average of GAPDH and 18S endogenous control genes.Digital droplet PCR (ddPCR)For gene expression, 500 ng of total RNA was used in a 20 l reaction to generate complementary DNA (cDNA) using random hexamer primers and MultiScribe reverse transcriptase (High capacity RNA-to-cDNA Kit, Life Technologies). After diluting the cDNA 1:1.25, 2 l were loaded into a 20 l reaction containing ddPCR Supermix for Probes (nodUTP) (Bio-Rad, Gladesville, NSW, Australia), and 1 l of primers amplifying all three C9ORF72 transcripts (Hs00376619_m1, Life Technologies). The 20 l sample, along with 70 l of ddPCR-oil was loaded into a DG8 cartridge and covered with a gasket according to manufacturer’s instructions; the cartridge was then placed in a QX100 droplet generator. 40 l of sample were then transferred to a 96-well PCR plate and put in a normal PCR thermocycler (Eppendorf, North Ryde, NSW, Australia). The plate was then placed in the QX100 ddPCR reader (Bio-Rad, Gladesville, NSW, Australia) for absolute quantification.Methylation-sensitive quantitative PCRovernight at 55 , RNAse treated and eluted following manufacturer’s instructions (Gentra Puregene Tissue Kit, Qiagen). The DNA was diluted to 20 ng/l and 2 l were added to the ddPCR master mix along with 1 l of each primer/probe. Primer and probe sequences used for human genomic C9ORF72 (L/R/Probe: 5’AAGGCACAGA GAGAATGGAAG / 5’AGGCTTATTCGTATGTCTCCA AG / 5’AGGTTGATGGCTACATTTGTCAAGGC) and for mouse EIF2C1 diploid genome (L/R/Probe: 5’C CTGCCATGTGGAAGATGAT / 5’GAGTGTGGTGGC TGGATTTA / 5’TGGGGAGAGCTGGAGCCAG) quantification are indicated. D.

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