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SRX2511284: GSM2465676: Lung_14wk_M0520522; Mus musculus; Bisulfite-Seq
1 ILLUMINA (Illumina HiSeq 2000) run: 21.6M spots, 3.3G bases, 1.3Gb downloads

Submitted by: NCBI (GEO)
Study: Multi-tissue DNA methylation age predictor in mouse
show Abstracthide Abstract
Background: DNA-methylation changes at a discrete set of sites in the human genome are predictive of chronological and biological age. However, it is not known whether these changes are causative or a consequence of an underlying ageing programme. It has also not been shown whether this ‘epigenetic clock’ is unique to humans or conserved in other animals such as the experimentally tractable mouse. Results: We have generated a comprehensive set of whole genome base-resolution methylation maps from multiple mouse tissues spanning a wide range of ages. A large number of CpG sites show significant tissue independent correlations with age and allowed us to develop a multi-tissue predictor of age in the mouse (‘mouse epigenetic clock’). The predictor, which estimates age based on DNA methylation at 644 unique CpG sites, is highly accurate (mean absolute error of 4.09 weeks) and has similar properties to the recently described human epigenetic clock. Using publicly available datasets from various biological manipulations in mice, we found that the mouse clock also measures biological age. While females and males showed no significant differences in predicted DNA methylation age, ovariectomy resulted in significant age acceleration in females. Furthermore we found significant differences in age-acceleration dependent on the lipid content of the maternal or offspring diet. Conclusions: Here we identify and characterise a highly accurate epigenetic predictor of age in mice, the ‘mouse epigenetic clock’. This clock will be instrumental for understanding the biology of ageing and will allow modulation of its ‘ticking’ rate and resetting the clock in vivo to study the impact on biological age. Overall design: RRBS-seq of different tissues from mice at different ages
Sample: Lung_14wk_M0520522
SAMN06250831 • SRS1935147 • All experiments • All runs
Organism: Mus musculus
Library:
Instrument: Illumina HiSeq 2000
Strategy: Bisulfite-Seq
Source: GENOMIC
Selection: Reduced Representation
Layout: PAIRED
Construction protocol: All tissues were snap frozen directly after isolation. Genomic DNA was isolated from ~10mg frozen tissue using the DNeasy Blood & Tissue Kit (Qiagen). RRBS libraries were prepared from isolated DNA following published protocols (Smallwood et al.,2011). Briefly, RRBS libraries were prepared by MspI digestion of 100-500ng genomic DNA, followed by end-repair and T-tailing using Klenow Exo- (Fermentas). Adapter ligation was performed overnight (homemade adapters) using T4 DNA Ligase (NEB), followed by a cleanup step using AMPure XP beads (Agencourt, 0.9x). Subsequently, libraries were bisulfite treated according to the manufactures instructions (Sigma Imprint Kit; 2 step protocol) and purified using an automated liquid handling robotic system (Agilent Bravo). The libraries were amplified using KAPA HiFi Uracil HotStart DNA Polymerase (KAPA Biosystems), indexing the samples with individual primers. All amplified libraries were purified (AMPure XP beads, 0.8x) and assessed for quality and quantity using High-Sensitivity DNA chips on the Agilent Bioanalyzer. High-throughput sequencing of all libraries was carried out with a 75 bp paired-end protocol on a HiSeq 2000 instrument (Illumina).
Experiment attributes:
GEO Accession: GSM2465676
Links:
Runs: 1 run, 21.6M spots, 3.3G bases, 1.3Gb
Run# of Spots# of BasesSizePublished
SRR519568221,609,2573.3G1.3Gb2017-03-28

ID:
3637658

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