Control of Developmental Speed in Zebrafish Embryos Using Different Incubation Temperatures.

ABSTRACT

The zebrafish is a valuable model organism that is widely used in studies of vertebrate development. In the laboratory, zebrafish embryonic development is normally carried out at 28.5°C. In this study, we sought to determine whether it was possible to modify the speed of embryonic development through the use of short- and long-term variations in incubation temperature. After incubation at 20°C-32°C, most early-stage embryos survived to the epiboly stage, whereas more than half of the embryos died at <20°C or >32°C. The rate of development differed between embryos incubated at the lowest (18°C) and highest (34°C) temperatures a difference of 60 min was observed at the 2-cell stage and 290 min at the 1k-cell stage. When blastulae that had developed at 28°C were transferred to a temperature lower than 18°C for one or more hours, they developed normally after being returned to the original 28°C. Analyses using green fluorescent protein-buckyball mRNA and in situ hybridization against vasa mRNA showed that primordial germ cells increase under low-temperature culture; this response may be of use for studies involving heterochronic germ cell transplantation. Our study shows that embryonic developmental speed can be slowed, which will be of value for performing time-consuming, complicated, and delicate microsurgical operations.