Differences in hepatic gene expression as a major distinguishing factor between Korean native pig and Yorkshire

There are phenotypic differences between Korean native pig (KNP) and Yorkshire (YS) breeds due to different interests in selection. YS has been selected for industrial interests such as a growth rate and lean meat production, while KNP has been maintained as a regional breed with local interests such as disease resistance and fat content in and between muscle. A comparison of gene expression profiles from liver tissue reflected overall long-term effects of artificial selection for these two pig breeds. Based on minimum positive false discovery rate (less than 10%) and fold change (|FC|>1.5), 73 differentially expressed genes (DEGs) were identified. Functional analysis of these DEGs indicated clear distinctions in signaling capacity related to epidermal growth factor (EGF), extracellular structure, protein metabolism, and detoxification. Hepatic DEGs demonstrated the importance of hormonal and metabolic capabilities to differences between these two pig breeds.     

猪背最长肌中肌肉生长和脂肪沉积相关基因的差异表达和主成分分析

骨骼肌细胞和脂肪细胞在分化生长速度上相对竞争的平衡点是猪肉质和胴体性状的决定因素.利用Oligo功能分类芯片检测了瘦肉型的长白猪和脂肪型的太湖猪在初生、1、2、3、4和5月龄间背最长肌中肌肉生长和脂肪沉积相关基因的动态表达变化.差异表达分析结果显示,在初生至5月龄的品种间分别有15、16、11、13、18和20个基因的表达差异倍数大于2倍.品种内的方差分析表明,长白猪分别有18和22个基因,太湖猪分别有3和7个基因在月龄间的表达差异达极显著(Ｐ<0.01)和显著水平(Ｐ<0.05).主成分分析结果显示,先降后升是两品种内最具代表性的基因表达模式,且长白猪和太湖猪分别有7和6个基因的表达模式明显偏离其他基因,提示其可能受到了重要的调控. 此外,5个差异表达基因的荧光定量RT-PCR验证结果均与芯片结果呈正相关趋势.以上结果筛选出了对于猪肉质和胴体性状可能具有重要影响,值得深入研究的一些候选基因,为深入研究生长发育过程中参与肌纤维生长和脂肪酸合成关键基因的表达变化规律和互作调控机制提供了基础数据.     

Porcine granulin gene (GRN): molecular cloning, polymorphism and chromosomal localization.

GRN has been shown to have roles in multiple processes involved in cell growth, development and wound repair in rodents and humans. We have isolated the full-length cDNA of GRN gene encoding porcine granulin protein by in silico cloning, RT-PCR and RACE. The deduced amino acid indicated 71.5% identity with the corresponding human sequence and the seven and one-half granulins showed highly conservative between pig, human and murine. A single nucleotide substitution resulting in the amino acid change (ATG/Met --> TTG/Leu) was detected within exon 5. Allele frequencies in six pig breeds showed distinctive differences between those Chinese indigenous pig breeds and European pigs. Using the IMpRH panel, we mapped the porcine GRN gene to porcine chromosome 12p11-p13. Our data provide basic molecular information useful for the further investigation on the function of GRN gene.     

Identification of extracellular matrix and cell adhesion molecule genes associated with muscle development in pigs

Extracellular matrix (ECM) and cell adhesion molecule (CAM) genes are involved in the regulation of skeletal muscle development; however, their roles in skeletal muscle development in pigs are still poorly understood. 65 days postcopulation (dpc) is a critical time point in pig development. Therefore, we analyzed expression of ECM and CAM genes in the longissimus dorsi muscles at 65?dpc from Landrace (lean-type: L65), Tongcheng (obese-type: T65), and Wuzhishan pigs (miniature-type: W65) using microarray technology. A total of 35 genes were differently expressed between the breeds, and of them, 18, 18, and 20 genes, were observed in the comparisons of L65 versus T65, L65 versus W65, and T65 versus W65 (L65/T65, L65/W65, and T65/W65), respectively. In L65/T65, differently expressed genes were widely distributed, whereas in L65/W65 and T65/W65, they mostly focused on the genes encoding CAMs and ECMs proteins. Moreover, the largest number of up-regulated genes involved in skeletal muscle development was detected in L65, a moderate number in W65, and the smallest number was in T65. Cluster analysis suggested that T65 showed a more similar expression pattern to L65 than W65. In addition, we validated that five genes from microarray data were more highly expressed in the prenatal as compared to postnatal periods in Landrace and Tongcheng pigs and showed a greater range of high-level expression during gestation in Landrace than Tongcheng pigs. Our data indicated that ECM and CAM genes are differently expressed among the three breeds, and more complicated molecular events involving CAMs and ECMs were observed in Wuzhishan pigs. This study advances our knowledge of the molecular basis of phenotypic variation and provides a helpful resource for the identification of candidate genes associated with meat production traits in pigs.