Upstream regulation of microRNA-9 through a complex cellular machinery during neurogenesis.

While microRNAs (miRs) like miR-9 are crucial for neurogenesis and neuronal differentiation, their regulatory mechanisms are not well understood. miR-9 is highly expressed in the brain and plays a significant role in neurogenesis. Using the Collaborative Cross resource, we identified significant quantitative trait loci (QTL) through genetic analyses. We then characterized over 130 candidate genes within these QTL regions using RNA interference, qPCR, and neuronal differentiation assays, narrowing them down to 13 promising candidates. Among these, Panx2, Polr1c, and Mgea5 were found to colocalize in the neurogenic niches of the SVZ and DG regions, as shown by immunofluorescence. Further ChIP-seq and Co-IP analyses revealed their interaction and binding to the miR-9 locus, forming a DNA-protein regulatory complex we termed 'miRSome-9.' A 3C/ChIP-loop assay confirmed the chromatin organization of miRSome-9 at the miR-9 locus, shedding light on the upstream mechanisms regulating miR-9 expression during neurogenesis.
Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.
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