The mouse gene Ythdc2 exemplifies an evolutionarily ancient family of crucial regulators of the transition from germline stem cell divisions to meiosis.

Investigation of dynamic gene regulation across cell types and environments reveals new GxE regulatory loci that are important for disease.

The mechanism of inhibition by unfair competition is central to determining the protein phosphorylation states that govern cell cycle transitions between M phase and interphase.

N6-methyladenosine (m6A) reader Pho92 is directed by Paf1C to meiotic mRNAs in an m6A-dependent and independent manner and promotes CCR4-NOT-mediated mRNA decay of m6A modified transcripts contingent on translation.

Single-cell transcriptomics of the zebrafish ovary identifies both major and minor cell types and provides a valuable resource for researchers interested in reproductive biology, stem cell biology, and aquatic toxicology.

Xenopus embryos use tissue surface tension to generate hoop-stress around the blastopore to help close it during gastrulation.

Size regulation of the otic vesicle, the progenitor of the inner ear, is mediated by mechanical feedback involving fluid influx, hydraulic pressure, and tissue mechanics.

A single-cell atlas of the adult fly VNC charts the types and properties of cells for future studies of brain development and function.

Partially overlapping functions of a limited subset of actin binding proteins allow the parasite Toxoplasma gondii to achieve actin regulation required for complex cellular processes.