Detection of differentially expressed genes between Erhualian and Large White placentas on day 75 and 90 of gestation.

BACKGROUND: Placental efficiency is strongly associated with litter size, fetal weight and prenatal mortality. Together with its rapid growth during late gestation, the Large White pig breed shows a significant increase in placental size and weight, but this does not occur in the highly prolific Chinese pig breeds. To understand the molecular basis of placental development during late gestation in Chinese indigenous and Western breeds with different placental efficiency, female placental samples were collected from six pregnant Erhualian gilts at gestation day 75 (E75) and day 90 (E90) and from six pregnant Large White gilts at gestation day 75 (L75) and day 90 (L90). Two female placentas from one sow were used to extract RNA and then pooled in equal volumes. Twelve pooled samples were hybridized to the porcine Affymetrix GeneChip. RESULTS: A total of 226 and 577 transcripts were detected that were differentially expressed between E75 and L75 and between E90 and L90 (p < 0.01, q < 0.2), respectively. Gene Ontology (GO) analysis revealed that these genes belong to the class of genes that participate in angiogenesis and development. Real-time RT-PCR confirmed the differential expression of eight selected genes. Significant differential expression of five genes in the VEGF pathway was also detected between the breeds. A search of chromosomal location revealed that 44 differentially expressed genes located to QTL regions related to reproduction. Differential expression of six candidate imprinted genes was also confirmed. Three of the six genes (PLAGL1, DIRAS3, and SLC38A4) showed monoallelic expression in the porcine placenta. CONCLUSION: Our study detected many genes that showed differential expression between placentas of two divergent breed of pigs, and confirmed the imprinting of three genes. These findings help to elucidate the genetic control of placental efficiency and improve the understanding of placental development.

Molecular characterization and association analysis with production traits of the porcine INPP5F gene.

Inositol polyphosphate-5-phosphatase F (INPP5F) is one of the largest families of phosphoinositide phosphatases, 5-phosphatase. It contains a Sac domain whose amino acids are essential for inositol polyphosphate phosphatase activities. Here, we assigned the porcine INPP5F to SSC14q29 by using SCHP and IMpRH. Sequencing of PCR products from different breeds identified an A/G polymorphism in the last exon. The allele frequencies of this SNP showed that the Yorkshire and Duroc pigs have high G allele frequency, whereas the local pigs have high A allele frequency. Association analysis of the genotypes with growth and carcass traits found that different genotypes of INPP5F have significant differences in average daily gain (ADG) (P < 0.05) in Yorkshire pigs.

Imprinting analyses of the porcine GATM and PEG10 genes in placentas on days 75 and 90 of gestation.

Imprinted genes are expressed monoallelically depending on their parental origin, and escape the Mendel's laws of heredity. They play important roles in the mammalian development, growth, and behavior. Placenta is a key tissue for the normal development and growth of fetus. It is also used to illuminate the evolution of genomic imprinting. In this study, we cloned the porcine GATM and PEG10 genes. Somatic cell hybrid panel (SCHP) and porcine radiation hybrid (IMpRH) panel were employed to locate GATM and PEG10 genes to SSC1q12-21 and SSC9p13-21, respectively. By sequencing PCR products, we detected several cSNPs in the two genes. The BseLI (GATM) and TaqI (PEG10) polymorphisms were used to investigate the allele frequencies in different pig breeds and the imprinting status in porcine placentas on days 75 and 90 of gestation. The results showed that for the GATM BseLI polymorphism, the Yorkshire and Duroc pigs had higher allele frequencies at the G allele, whereas the local pigs had higher allele frequencies at the A allele. Expression and sequencing analyses showed that both alleles were expressed for the GATM gene, indicating the GATM was not imprinted in the porcine placentas on days 75 and 90 of gestation. The allele frequencies of TaqI polymorphism for PEG10 gene were significantly different in native Chinese Erhualian breed comparing to Yorkshire. PEG10 was monoallelically expressed, showing the PEG10 gene may be imprinted in porcine placentas on days 75 and 90 of gestation.