In order to investigate genetic stability and gene expression profile after cloning procedure, two groups of cloned pigs were used for swine leukocyte antigen (SLA) gene nucleotide alteration and microarray analyses. Each group was consist of cloned pigs derived from same cell line (n=3 and 4, respectively). Six SLA loci were analyzed for cDNA sequences and protein translations. In total, 16 SLA alleles were identified and there were no evidence of SLA nucleotide alteration. All SLA sequences and protein translations were identical among the each pig in the same group. On the other hand, microarray assay was performed for profiling gene expression of the cloned pigs. In total, 43,603 genes were analyzed and 2,150～4,300 reliably hybridized spots on the each chip were selected for further analysis. Even though the cloned pigs in the same group had identical genetic background, 18.6～47.3% of analyzed genes were differentially expressed in between each cloned pigs. Furthermore, on gene clustering analysis, some cloned pigs showed abnormal physiological phenotypes such as inflammation, cancer or cardiomyopathy. We assumed that individual environmental adaption, sociality and rank in the pen might have induced these different phenotypes. In conclusion, the results of the present study indicate that SLA locus genes appear to be stable following SCNT. However, gene expressions and phenotypes between cloned pigs derived from the same cell line were not identical even under the same rearing conditions.

Gene expression profiles can serve as a valuable reference for deciphering gene functions. We exploited the potential of whole genome microarrays to measure the temporal expression profiles of rice genes in 13 stages of reproductive development. We could profile expression of 17,676 genes in at least one of the tissues. Differential expression analysis with compare to leaf and preceding stages of development revealed reproductive stage-preferential/-specific genes. we identified 35 genes expressing specifically during panicle and seed development. The metabolic/hormonal pathways and transcription factor families playing key role in reproductive development were elucidated after overlaying the expression data on the public databases and manually curated list of transcription factors, respectively. During floral meristem differentiation (P1cm) and male meiosis (P5cm), the genes involved in jasmonic acid and gebbellin biosynthesis were significantly upregulated. F11DAP stage of seed, containing enlargement organ, exhibited enrichment of transcripts involved in starch or sucrose biosynthesis. Genes regulating auxin biosynthesis were induced during early seed development. We validated the stage-specificity of regulatory regions of two panicle-specific genes, AK072471, Os08g0538700, and AK121412, an early seed-specific gene, in transgenic rice. The data generated here provides a snapshot of the underlying complexity of the gene networks regulating rice reproductive development.