Effect of Laser Microbeam Irradiation of the Nucleus on the Cleavage of Mouse Eggs in Culture

Abstract

Two-cell mouse eggs were irradiated by a helium-cadmium laser on a spot of about 4 micron2 (d = 2.2 micron) in one or both nuclei either continuously or repeatedly at 0.36 erg micron-2 sec-1 and then cultured to observe cellular development. After exposing one nucleus to the microbeam to five or seven 1-sec pulses (1.80 or 2.52 ergs micron-2, respectively), about 45% developed to the 3-cell stage in 24 hr of culture. In overnight cultures of the 2-cell eggs in which both nuclei were irradiated for 9 or 20 sec continuously, 40 (9 sec) and 50% (20 sec) of the eggs remained at the 2-cell stage, while 45 (9 sec) and 25% (20 sec) developed to the 4-cell stage. Irradiating only one nucleus in a 2-cell egg by seven pulses in a spot of 4 micron2 amounting to 10 ergs reduced cleavage 45%. When both nuclei were each irradiated by a 9-sec continuous laser beam (totaling 13 ergs), about 40% of the embryos of the 2-cell stage did not divide. The effect of seven pulses on the blastomere cleavage of 2-cell mouse eggs appeared to be comparable to that of continuous 9-sec laser irradiation. Both pulse and continuous laser microirradiation methods may be developed for inactivation of the nucleus as a nonpipetting , less injurious method for enucleation of mammalian eggs.