At fertilization, the sperm triggers resumption from the arrest, extrusion of the second polar body and pronuclear formation, the events of which are collectively acknowledged as 'oocyte activation'. In all species up to date, oocyte activation requires a fertilization-associated increase in the intracellular concentration of calcium. Especially in mammals, the signal of intracellular calcium rise at fertilization consists of periodical rises, which are also referred to as calcium oscillations. Our recent results suggest that these calcium oscillations have an important role in not only oocyte activation but also development of mammals. Pigs are animals of great agricultural value and ones in which assisted reproductive techniques, including somatic cell nuclear transfer, to produce gene-modified pigs. Although reconstructed embryos require artificial activation stimuli which mimic fertilization-associated increase of intracellular calcium in the oocytes, it has been known that the developmental ability of the oocytes after artificial activation is low and the regimen seems to be required for improvement. Recently we focused on two molecules, phospholipase C zeta and inositol 1,4,5-triphosphate receptor which have important roles in regulation of calcium oscillations during fertilization in mammals, including pigs. In this review, we will discuss the present status and future perspective of molecular mechanisms during fertilization in pigs.