Skip to Content
Merck
  • Visualization of the spatial arrangement of nuclear organization using three-dimensional fluorescence in situ hybridization in early mouse embryos: A new "EASI-FISH chamber glass" for mammalian embryos.

Visualization of the spatial arrangement of nuclear organization using three-dimensional fluorescence in situ hybridization in early mouse embryos: A new "EASI-FISH chamber glass" for mammalian embryos.

The Journal of reproduction and development (2017-02-14)
Masataka Nakaya, Hideyuki Tanabe, Shingo Takamatsu, Misaki Hosokawa, Tasuku Mitani
ABSTRACT

The fertilized oocyte begins cleavage, leading to zygotic gene activation (ZGA), which re-activates the resting genome to acquire totipotency. In this process, genomic function is regulated by the dynamic structural conversion in the nucleus. Indeed, a considerable number of genes that are essential for embryonic development are located near the pericentromeric regions, wherein the heterochromatin is formed. These genes are repressed transcriptionally in somatic cells. Three-dimensional fluorescence in situ hybridization (3D-FISH) enables the visualization of the intranuclear spatial arrangement, such as gene loci, chromosomal domains, and chromosome territories (CTs). However, the 3D-FISH approach in mammalian embryos has been limited to certain repeated sequences because of its unfavorable properties. In this study, we developed an easy-to-use chamber device (EASI-FISH chamber) for 3D-FISH in early embryos, and visualized, for the first time, the spatial arrangements of pericentromeric regions, the ZGA-activated gene (Zscan4) loci, and CTs (chromosome 7), simultaneously during the early cleavage stage of mouse embryos by 3D-FISH. As a result, it was revealed that morphological changes of the pericentromeric regions and CTs, and relocation of the Zscan4 loci in CTs, occurred in the 1- to 4-cell stage embryos, which was different from those in somatic cells. This convenient and reproducible 3D-FISH technique for mammalian embryos represents a valuable tool that will provide insights into the nuclear dynamics of development.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Anti-DNP antibody produced in rabbit, whole antiserum
Sigma-Aldrich
Monoclonal Anti-Digoxin antibody produced in mouse, clone DI-22, ascites fluid