Konstantinos Boulias scite author profile

mRNAs are regulated by nucleotide modifications that influence their cellular fate. Two of the most abundant modified nucleotides are N 6 -methyladenosine (m 6 A), found within mRNAs, and N 6 ,2'-O-dimethyladenosine (m 6 Am), which is found at the first-transcribed nucleotide. A longstanding challenge has been distinguishing these similar modifications in transcriptome-wide mapping studies. Here we identify and biochemically characterize, PCIF1, the methyltransferase that generates m 6 Am. We find that PCIF1 binds and is dependent on the m 7 G cap. By depleting PCIF1, we definitively identified m 6 Am sites and generated transcriptomewide maps that are selective for m 6 Am and m 6 A. We find that m 6 A and m 6 Am misannotations largely arise from mRNA isoforms with alternate transcription-start sites. These isoforms contain m 6 Am that appear to map to "internal" sites, increasing the likelihood of misannotation. Using the new m 6 Am annotations, we find that depleting m 6 Am does not affect mRNA translation but reduces the stability of a subset of m 6 Am-annotated mRNAs. The discovery of PCIF1 and our accurate mapping technique will facilitate future studies to characterize m 6 Am's function.

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The C. elegans MicroRNA mir-71 Acts in Neurons to Promote Germline-Mediated Longevity through Regulation of DAF-16/FOXO

Boulias

2012

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The life span of Caenorhabditis elegans is controlled by signaling between the germline and the soma. Germ cell removal extends life span by triggering the activation of the DAF-16/FOXO transcription factor in the intestine. Here we analyze microRNA function in C. elegans aging and show that the microRNA mir-71 functions to mediate the effects of germ cell loss on life span. mir-71 is required for the life span extension caused by germline removal, and overexpression of mir-71 further extends the life span of animals lacking germ cells. mir-71 functions in the nervous system to facilitate the localization and transcriptional activity of DAF-16 in the intestine. Our findings reveal a microRNA-dependent mechanism of life span regulation by the germline and indicate that signaling among the gonad, the nervous system, and the intestine coordinates the life span of the entire organism.

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Konstantinos Boulias

Identification of the m6Am Methyltransferase PCIF1 Reveals the Location and Functions of m6Am in the Transcriptome

Identification of the m6Am methyltransferase PCIF1 reveals the location and functions of m6Am in the transcriptome

The C. elegans MicroRNA mir-71 Acts in Neurons to Promote Germline-Mediated Longevity through Regulation of DAF-16/FOXO

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