In vitro developmental competence of bovine demi-embryos generated by blastomere separation and blastocyst bisection.

The efficiency of bovine in vitro embryo production can be significantly improved by splitting embryos at different stages. However, the blastocyst quality of in vitro-produced demi-embryos remains unexplored. The objective of this research was to compare embryo developmental rates and quality of bovine demi-embryos produced by two different strategies: (a) embryo bisection (BSEC) and (b) 2-cell blastomere separation (BSEP).

The homeobox transcription factor DUXBL controls exit from totipotency.

In mice, exit from the totipotent two-cell (2C) stage embryo requires silencing of the 2C-associated transcriptional program. However, the molecular mechanisms involved in this process remain poorly understood. Here we demonstrate that the 2C-specific transcription factor double homeobox protein (DUX) mediates an essential negative feedback loop by inducing the expression of DUXBL to promote this silencing.

Essential role of Mg in mouse preimplantation embryo development revealed by TRPM7 chanzyme-deficient gametes.

TRPM7 (transient receptor potential cation channel subfamily M member 7) is a chanzyme with channel and kinase domains essential for embryo development. Using gamete-specific Trpm7-null lines, we report that TRPM7-mediated Mg influx is indispensable for reaching the blastocyst stage. TRPM7 is expressed dynamically from gametes to blastocysts; displays stage-specific localization on the plasma membrane, cytoplasm, and nucleus; and undergoes cleavage that produces C-terminal kinase fragments.

PMCA1 depletion in mouse eggs amplifies calcium signaling and impacts offspring growth†.

Egg activation in mammals is triggered by oscillations in egg intracellular calcium (Ca2+) level. Ca2+ oscillation patterns can be modified in vitro by changing the ionic composition of culture media or in vivo by conditions affecting mitochondrial function, such as obesity and inflammation. In mice, disruption of Ca2+ oscillations in vitro impacts embryo development and offspring growth.

CRISPR-on for Endogenous Activation of SMARCA4 Expression in Bovine Embryos.

The CRISPR-on system is a programmable, simple, and versatile gene activator that has proven to be efficient in cultured cells from several species and in bovine embryos. This technology allows for the precise and specific activation of single endogenous gene expression and also multiplexed gene expression in a simple fashion. Therefore, CRISPR-on has unique advantages over other activator systems and a wide adaptability for studies in basic and applied science, such as cell reprogramming and cell fate differentiation for regenerative medicine.