SUMMARY
In mammals during the early postnatal period the environment plays a critical role in promoting the final steps in the neuronal development. While epigenetic factors are thought to contribute to this process, the underlying molecular mechanisms remain poorly understood. Here we show that in the brain during early life the DNA methyltransferase DNMT3A transiently binds across transcribed regions of lowly expressed genes, and its binding specifies the pattern of DNA methylation at CA sequences (mCA) within these genes. We find that DNMT3A occupancy and mCA deposition within the transcribed regions of genes is negatively regulated by gene transcription and may be modified by early-life experience. Once deposited, mCA is bound by the methyl-DNA-binding protein MECP2 and functions in a rheostat-like manner to fine-tune the cell type-specific transcription of genes that are critical for brain function.
Highlights d MeCP2 represses transcription of highly methylated long genes through NCoR d Direct measurements of transcriptional initiation and elongation rates in the mouse brain d MeCP2 reduces transcriptional initiation, not elongation, of highly methylated long genes d Gene body-TSS contacts position distal MeCP2 molecules at the TSS
Cell lines expressing foreign genes have been widely used to produce a variety of recombinant proteins. However, generating recombinant protein-expressing cell lines is usually a lengthy process and the resulting protein expression levels are often inconsistent. Here, we describe an efficient method for making stable cell lines expressing any recombinant protein of interest in a controllable and quantifiable manner. We integrate transgenes into specific genomic loci using CRISPR/Cas9 such that transgene expression is driven by endogenous promoters to ensure consistent and predictable expression of the recombinant protein. Expression levels can be predetermined by selecting promoters from genes with the desired level of expression. To quantify recombinant protein expression, a protein quantitation reporter (PQR) is incorporated between the endogenous and foreign genes. The PQR allows equimolar production of the endogenous protein, the recombinant protein, and a fluorescent reporter. As a result, expression levels of both the endogenous and recombinant proteins can be continuously monitored using fluorescence.
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