Many mammals have been successfully

Many mammals have been successfully cloned by somatic cell nuclear transfer (SCNT), a technique used for reprogramming a terminally differentiated cell to its totipotent state. In 1989, the first pig was successfully cloned by using undifferentiated embryonic cells as donor nuclei [1]. Thereafter, new protocols were developed to generate cloned pigs by double nuclear transfer [2] and somatic cell microinjection into enucleated oocytes [3]. The efficiency of pig cloning was subsequently improved by modifying activation protocols and culture systems [4], [5], [6] and [7], increasing the embryo numbers for transfer [8], treating embryos with histone deacetylase inhibitors [9] and [10], and increasing the duration of donor nucleus exposure to oocyte factors [11]. Pig cloning could be used to preserve invaluable genetic resources or to generate genetically modified pigs for agriculture purposes and regenerative medicine [12].

Studies on cloned pigs have revealed a higher perinatal mortality and higher rate of malformations compared with the conventional reproduction programs, whereas growth rate, reproductive performance, behavioral traits, and disease incidence are normal throughout the lifetime of surviving clones [8], [13] and [14]. Notably, the variability of some phenotypic characteristics is even higher in cloned pigs derived from a single donor cell line than those from routine breeding programs [15] and [16]. Despite the variation found in the cloned pigs, similar phenotypic characteristics are shown between progenies of cloned and noncloned pigs [16] and [17]. Meat composition of the offspring of clones is also not different from that from the control pigs [18], suggesting no discernible risks associated with the consumption of products from the offspring of cloned pigs [16]. However, to date, the information of genotypes and other phenotypic characteristics, including growth and reproductive performance of cloned pigs and their offspring, are still poorly documented. In addition, the performance of cloned pigs and their offspring warrants investigation to assess the practical feasibility of SCNT technology.

In Taiwan, the growth performance index in combination with marker-assisted selection is now the preferred routine to accelerate the improvement of economically important traits in pig breeding program [19], [20] and [21]. In order to assess the practical application SCNT in breeding programs, polymorphism of genes associated with reproductive performance and meat quality, growth performance, hematological parameters, and semen characteristics of cloned Landrace boars were compared with those of noncloned boars. In addition, the growth performance of clone offspring was also evaluated.