The rapidly evolving X-linked MIR-506 family fine-tunes spermatogenesis to enhance sperm competition.
Zhuqing WangYue WangTong ZhouSheng ChenDayton MorrisRubens Daniel Miserani MagalhãesMusheng LiShawn WangHetan WangYeming XieHayden McSwigginDaniel OliverShuiqiao YuanHuili ZhengJaaved MohammedEric C LaiJohn R McCarreyWei YanPublished in: eLife (2024)
Despite rapid evolution across eutherian mammals, the X-linked MIR-506 family miRNAs are located in a region flanked by two highly conserved protein-coding genes ( SLITRK2 and FMR1 ) on the X chromosome. Intriguingly, these miRNAs are predominantly expressed in the testis, suggesting a potential role in spermatogenesis and male fertility. Here, we report that the X-linked MIR-506 family miRNAs were derived from the MER91C DNA transposons. Selective inactivation of individual miRNAs or clusters caused no discernible defects, but simultaneous ablation of five clusters containing 19 members of the MIR-506 family led to reduced male fertility in mice. Despite normal sperm counts, motility, and morphology, the KO sperm were less competitive than wild-type sperm when subjected to a polyandrous mating scheme. Transcriptomic and bioinformatic analyses revealed that these X-linked MIR-506 family miRNAs, in addition to targeting a set of conserved genes, have more targets that are critical for spermatogenesis and embryonic development during evolution. Our data suggest that the MIR-506 family miRNAs function to enhance sperm competitiveness and reproductive fitness of the male by finetuning gene expression during spermatogenesis.
Keyphrases
- cell proliferation
- long non coding rna
- long noncoding rna
- gene expression
- wild type
- transcription factor
- single cell
- genome wide
- type diabetes
- air pollution
- escherichia coli
- metabolic syndrome
- dna methylation
- staphylococcus aureus
- drug delivery
- cystic fibrosis
- adipose tissue
- cancer therapy
- amino acid
- deep learning
- rna seq
- genome wide identification
- binding protein
- biofilm formation
- radiofrequency ablation