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Enrichment methods provide a feasible approach to comprehensive and adequately powered investigations of the brain methylome.

Nucleic acids research (2017-03-24)
Robin F Chan, Andrey A Shabalin, Lin Y Xie, Daniel E Adkins, Min Zhao, Gustavo Turecki, Shaunna L Clark, Karolina A Aberg, Edwin J C G van den Oord
RÉSUMÉ

Methylome-wide association studies are typically performed using microarray technologies that only assay a very small fraction of the CG methylome and entirely miss two forms of methylation that are common in brain and likely of particular relevance for neuroscience and psychiatric disorders. The alternative is to use whole genome bisulfite (WGB) sequencing but this approach is not yet practically feasible with sample sizes required for adequate statistical power. We argue for revisiting methylation enrichment methods that, provided optimal protocols are used, enable comprehensive, adequately powered and cost-effective genome-wide investigations of the brain methylome. To support our claim we use data showing that enrichment methods approximate the sensitivity obtained with WGB methods and with slightly better specificity. However, this performance is achieved at <5% of the reagent costs. Furthermore, because many more samples can be sequenced simultaneously, projects can be completed about 15 times faster. Currently the only viable option available for comprehensive brain methylome studies, enrichment methods may be critical for moving the field forward.

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Sigma-Aldrich
Anticorps Milli-Mark® anti-NeuN-PE, clone A60, clone A60, Milli-Mark®, from mouse
Sigma-Aldrich
Milli-Mark® Mouse IgG1-k, clone MOPC-21, PE conjugate, This Milli-Mark Anti-mouse IgG1-PE Antibody, clone MOPC-21 is validated for use in FC for the detection of mouse IgG1.