Abstract
The N6-methyladenosine (m6A) modification is the most prevalent internal RNA modification in eukaryotes. The majority of m6A sites are found in the last exon and 3’ UTRs. Here we show that the nuclear m6A reader YTHDC1 is essential for embryo viability and germline development in mouse. Specifically, YTHDC1 is required for spermatogonial development in males and for oocyte growth and maturation in females; Ythdc1-deficient oocytes are blocked at the primary follicle stage. Strikingly, loss of YTHDC1 leads to extensive alternative polyadenylation in oocytes, altering 3’ UTR length. Furthermore, YTHDC1 deficiency causes massive alternative splicing defects in oocytes. The majority of splicing defects in mutant oocytes are rescued by introducing wild-type, but not m6A-binding-deficient, YTHDC1. YTHDC1 is associated with the pre-mRNA 3’ end processing factors CPSF6, SRSF3, and SRSF7. Thus, YTHDC1 plays a critical role in processing of pre-mRNA transcripts in the oocyte nucleus and may have similar non-redundant roles throughout fetal development.
Highlights
More than one hundred different RNA modifications are known in eukaryotes [1]
YTHDC1 is required for oocyte growth and maturation
We examined expression of YTHDC1 in adult mouse tissues using polyclonal antibodies raised against an N-terminal region of mouse YTHDC1 (S2A Fig)
Summary
More than one hundred different RNA modifications are known in eukaryotes [1]. N6-methyladenosine (m6A) is the most prevalent internal modification in eukaryote mRNAs, occurring in transcripts of approximately one third of genes in human and mouse [2,3,4]. The m6A RNA modification is widely conserved among eukaryotes including yeast, flies, and plants [13,14,15,16,17]. Five mammalian m6A readers contain the YTH (YT521-B homology) domain: YTHDF1, 2, 3 and YTHDC1, 2 [6, 23,24,25,26]. The m6A modification occurs preferentially at the conserved RRACH motif (R: G or A; H: A, C, or T) [34].
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