Assessment of genomic imprinting of <Emphasis Type="Italic">PPP1R9A</Emphasis>, <Emphasis Type="Italic">NAP1L5</Emphasis> and <Emphasis Type="Italic">PEG3</Emphasis> in pigs

Imprinted genes play significant roles in the regulation of fetal growth and development, function of the placenta, and maternal nurturing behaviour in mammals. At present, few imprinted genes have been reported in pigs compared to human and mouse. In order to increase understanding of imprinted genes in swine, a polymorphism-based approach was used to assess the imprinting status of three porcine genes in 12 tissue types, obtained from F1 pigs of reciprocal crosses between Rongchang and Landrace pure breeds. In contrast to human and mouse homologues, porcine PPP1R9A was not imprinted, and was found to be expressed in all tissues examined. The expression of porcine NAP1L5 was detected in pituitary, liver, spleen, lung, kiduey, stomach, small intestine, skeletal muscle, fat, ovary, and uterus, but undetectable in heart. Furthermore, porcine NAP1L5 was paternally expressed in the tissues where it’s expression was observed. For PEG3, pigs expressed the paternal allele in skeletal muscle, liver, spleen, kidney, and uterus, but biallele in heart, lung, fat, stomach, small intestine, and ovary. Our data indicate that tissue distribution of the three gene differs among mammals, and the imprinting of NAP1L5 and PEG3 is well conserved.     

Molecular cloning, mRNA expression and imprinting status of PEG3, NAP1L5 and PPP1R9A genes in pig

Imprinted genes are expressed monoallelically depending on their parental origin, and play important roles in the regulation of fetal growth, development, and postnatal behavior. Most genes known to be imprinted have been identified and studied in the human and the mouse. However, there are only a small number of reported imprinted genes in pigs. Therefore, identification and characterization of more imprinted genes in pigs is useful for comparative analysis of genomic imprinting across species. In this study, we cloned the porcine PEG3, NAP1L5 and PPP1R9A genes. The imprinting status of these genes was determined using sequencing directly and single nucleotide polymorphisms (SNPs) identified in individuals from reciprocal cross of Meishan and Large White pigs. Imprinting analysis was carried out in 13 different tissues (skeletal muscle, fat, pituitary gland, heart, lung, liver, kidney, spleen, stomach, small intestine, uterus, ovary and testis) from twelve 2-month-old piglets. Imprinting analysis showed that PEG3 and NAP1L5 were exclusively expressed from the paternal allele whereas PPP1R9A was biallelically expressed in all tissues tested where the genes were expressed. The study is of interest to understand the conservation of genomic imprinting among mammals at the 3 loci.     

Conservation of genomic imprinting at the NDN, MAGEL2 and MEST loci in pigs

Imprinted genes have important effects on the regulation of fetal growth, development, and postnatal behavior. However, the study of imprinted genes has been limited in mammalian species other than human and mouse. Therefore, the study of porcine imprinted genes is useful for defining the extent of conservation of genomic imprinting among different species. In this study, the imprinting status of porcine NDN, MAGEL2 and MEST genes was determined by direct sequencing of the cDNAs and detection of single nucleotide polymorphisms (SNPs) identified in individuals from reciprocal crosses between Meishan and Large White pigs for allele discrimination. The analysis was carried out in 13 different tissues (skeletal muscle, fat, pituitary gland, heart, lung, liver, kidney, spleen, stomach, small intestine, uterus, ovary and testis) from 12 two-month-old piglets. Imprinting analysis showed that NDN and MAGEL2 were paternally expressed in all tissues where the genes were expressed as in human and mouse. Interestingly, MEST showed tissue-specific imprinting, being paternally expressed in skeletal muscle, fat, pituitary gland, heart, kidney, lung, stomach and uterus, and maternally expressed in spleen and liver.     

Isolation and imprinting analysis of the porcine DLX5 gene and its association with carcass traits

Imprinted genes play important roles in mammalian growth and development. However, reports on imprinted genes are limited in livestock. In this study, the complete ORF containing 289 amino acids of the porcine DLX5 gene was obtained. A C-to-T SNP mutation in exon 1 of the DLX5 gene was used to detect imprinting status with an RT-PCR/RFLP test (using HhaI) in eight heterozygous pigs from a population of Large White × Meishan F₁ hybrids. Imprinting analysis showed that the porcine DLX5 gene was maternally expressed in skeletal muscle, fat, lung, spleen, stomach and small intestine, but not imprinted in heart, liver, kidney, uterus, ovary, testicle or pituitary. A PCR–RFLP test was also used to detect the polymorphism in 310 pigs of a Large White × Meishan F₂ resource population. The statistical results showed significant association ( P  < 0.01) of the genotypes and fat meat percentage, carcass length, bone percentage, 6–7 rib fat thickness, average backfat thickness, thorax-waist fat thickness and buttock fat thickness.     

Expression and genomic imprinting of the porcine Rasgrf1 gene

Imprinted genes play important roles in mammalian growth, development and behavior. The Rasgrf1 (Ras protein-specific guanine nucleotide exchange factor 1) gene has been identified as an imprinted gene in mouse and rat. In the present study, we detected its sequence, imprinting status and expression pattern in the domestic pigs. A 228 bp partial sequence located in exon 14 and a 193 bp partial sequence located in exon 1 of the Rasgrf1 gene in domestic pigs were obtained. A G/A transition, was identified in Rasgrf1 exon 14, and then, the reciprocal Berkshire × Wannan black F₁ hybrid model and the RT-PCR-RFLP method were used to detect the imprinting status of porcine Rasgrf1 gene at the developmental stage of 1-day-old. The expression profile results indicated that the porcine Rasgrf1 mRNA was highly expressed in brain, pituitary and pancreas, followed by kidney, stomach, lung, testis, small intestine, ovary, spleen and liver, and at low levels of expression in longissimus dorsi, heart, and backfat. The expression levels of Rasgrf1 gene in brain, pituitary and pancreas tissues were significantly different between the two reciprocal F₁ hybrids. Imprinting analysis showed that porcine Rasgrf1 gene was maternally expressed in the liver, small intestine, paternally expressed in the lung, but biallelically expressed in brain, heart, spleen, kidney, stomach, pancreas, backfat, testis, ovary, longissimus dorsi and pituitary tissues.     

Molecular characterization of porcine NECD, SNRPN and UBE3A genes and imprinting status in the skeletal muscle of neonate pigs

Imprinted genes are expressed monoallelically depending on their parental origin, and play important roles in embryo survival and postnatal growth regulation. In this study, we characterized the porcine NECD (necdin), SNRPN (small nuclear ribonucleoprotein polypeptide N) and UBE3A (UBE3A ubiquitin protein ligase E3A) genes, analyzed their expression in nine tissues including liver, lung, small intestine, skeletal muscle, heart, kidney, spleen, inguinal lymph nodes and fat, and also examined their imprinting status in the skeletal muscle of neonate pigs. Results indicated that these three genes were highly homologous between pigs and cattle, being 95.02?% in nucleotide and 99.17?% in amino acid with the cattle SNRPN gene, and 96.46?% in nucleotide and 98.63?% in amino acid with the cattle UBE3A gene, respectively. The three genes were expressed in all the tissues investigated. Three single nucleotide polymorphisms (SNPs) in the coding region of these genes, i.e. g.263G>C, g.402T>C and g.340A>G for porcine NECD, SNRPN and UBE3A genes, respectively, were revealed; and imprinting analysis with which indicated that, in the skeletal muscle of neonate pigs, both NECD and SNRPN were maternally imprinted, while UBE3A was not imprinted.     

Imprinting analysis of porcine <Emphasis Type="Italic">DIO3</Emphasis> gene in two fetal stages and association analysis with carcass and meat quality traits

Imprinted genes play important roles in mammalian growth, development and behavior. In this study, we obtained 1568 bp mRNA sequence of porcine DIO3 (deiodinase, iodothyronine, type III), and also identified its imprinting status during porcine fetal development. The complete open reading frame (ORF) encoding 278 amino acids. The porcine DIO3 mRNA was expressed predominantly in backfat, mildly in liver, uterus, kidney, heart, small intestine, muscle and stomach, and almost absent in spleen and lung. A single nucleotide polymorphism in exon (A/C ⁶⁸⁷) was used to investigate the allele frequencies in different pig breeds and the imprinting status in porcine embryonic tissues. The results indicate that DIO3 was imprinted in all the tested tissues. Statistical analysis showed the DIO3 gene polymorphism was significantly associated with almost all the fat deposition and carcass traits, including lean meat percentage (LMP), fat meat percentage (FMP), ratio of lean to fat (RLF), shoulder fat thickness (SFT), sixth–seventh rib fat thickness (RFT), buttock fat thickness (BFT), loin eye area (LEA), and intramuscular fat (IMF).     

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.     

Imprinting analysis of porcine MAGEL2 gene in two fetal stages and association analysis with carcass traits

Imprinted genes play an essential role in the regulation of fetal growth, development and function of the placenta, however only a limited number of imprinted genes have been studied in swine. In this study, we cloned and characterized porcine MAGEL2 (melanoma antigen-like gene 2), and also identified its imprinting status during porcine fetal development. The complete open reading frame (ORF) encoding 1,193 amino acids was isolated and two single nucleotide polymorphisms (SNPs) (g.2592A>C and g.3277T>C) in the coding region were identified. The reciprocal Yorkshire × Meishan F₁ hybrid model and the RT-PCR/RFLP method were used to detect the imprinting status of porcine MAGEL2 gene at two developmental stages of day 30 and 65 of gestation. Imprinting analysis showed that porcine MAGEL2 was paternally expressed in day 65 fetal tissues, including heart, liver, spleen, lung, kidney, stomach, small intestine, skeletal muscle, brain and placenta. Interestingly, we observed an imprinting variance of MAGEL2 gene in 30 dpc fetuses produced by the cross of Yorkshire boar × Meishan sow, in which seven heterozygous fetuses were monoallelically expressed from the paternal allele but two were biallelically expressed from both the paternal and maternal alleles. Association analysis in a Yorkshire × Meishan F₂ resource population showed that the mutation of g.2592A>C was significantly associated with dressed carcass percentage (P < 0.05) and buttock fat thickness (P < 0.05). Our results suggest that MAGEL2, as a novel imprinted gene in pig, might be a candidate gene affecting carcass traits and could provide important information for the functional study of imprinted genes during porcine development.     

Expression and genomic imprinting of DCN, PON2 and PEG3 genes in porcine placenta

Imprinted genes play vital roles in the placental development and fetal growth in eutherian mammals. DCN (decorin), PON2 (paraoxonase 2) and PEG3 (paternally expressed 3) genes have been identified as imprinted genes in the mouse. Here, we detected the imprinting status of three genes in the porcine placenta on DG90 (day 90 of gestation) and the expression differences in Yorkshire and Meishan placenta on DG26, DG55 and DG90. The results indicated that the DCN and PON2 genes were not imprinted genes, while the PEG3 gene showed paternal monoallelic expression in porcine placenta. The expression of the DCN gene increased from DG26 to DG90 in both Yorkshire and Meishan pig placenta. However, this gene expression was greater in Yorkshire than Meishan pig on DG55. The expression of the PON2 gene was greater in Meishan pig than that in Yorkshire on DG26 and DG90. The PEG3 gene expression was not affected by day of pregnancy or breed. Data from the present study contribute to function genomic of porcine placental development.     

Molecular characteristics of the porcine DLK1 and MEG3 genes

Imprinted genes play important roles in embryo survival and postnatal growth regulation. The DLK1 and MEG3 (previously GTL2) genes are linked and reciprocally imprinted in several mammals, but their imprinting status is still unknown in pigs. In this study, we report polymorphisms, imprinting status and QTL analyses of the porcine DLK1 and MEG3 genes. Muscle and adipose DNA and RNA samples from 30-day-old animals generated with reciprocal crosses between the Korean native pig (KNP) and Yorkshire breeds were used to analyse DLK1 and MEG3 variation and expression. The samples exhibited paternal expression of DLK1 and maternal expression of MEG3 in pigs. These results indicated that the imprinting status of the DLK1 and MEG3 genes is conserved across mammalian species. By linkage analyses, we assigned the DLK1 and MEG3 genes to the telomeric region of SSC7. By QTL analyses, we confirmed a significant polar overdominance (POD) effect in DLK1 , which was previously detected for several growth traits in pigs. However, no significant POD effect was found with the MEG3 locus.     

Genomic imprinting of IGF2, p57(KIP2) and PEG1/MEST in a marsupial, the tammar wallaby

Genomic imprinting is widespread amongst mammals, but has not yet been found in birds. To gain a broader understanding of the origin and significance of imprinting, we have characterized three genes, from three separate imprinted clusters in eutherian mammals in the developing fetus and placenta of an Australian marsupial, the tammar wallaby Macropus eugenii. Imprinted gene orthologues of human and mouse p57(KIP2), IGF2 and PEG1/MEST genes were isolated. p57(KIP2) did not show stable monoallelic expression suggesting that it is not imprinted in marsupials. In contrast, there was paternal-specific expression of IGF2 in almost all tissues, but the biased paternal expression of IGF2 in the fetal head and placenta, demonstrates the occurrence of tissue-specific imprinting, as occurs in mice and humans. There was also paternal-biased expression of PEG1/MESTalpha. The differentially methylated region (DMR) of the human and mouse PEG1/MEST promoter is absent in the wallaby. These data confirm the existence of common imprinted regions in eutherians and marsupials during development, but suggest that the regulatory mechanisms that control imprinted gene expression differ between these two groups of mammals.     

不同日龄大白猪视黄酸受体α基因组织表达

研究采用RT-PCR方法对大白猪的视黄酸受体α基因在1日龄、90日龄、180日龄、270日龄和360日龄的心、肝、胃、脾、肾、肺、大肠、小肠、肌肉、子宫、卵巢共11个组织的表达情况进行了研究。结果表明,RARαmRNA在肝、脾、肾、大肠、小肠、子宫和卵巢中持续表达,其中脾、大肠和小肠是持续高表达;180日龄时,所有组织的RARαmRNA的表达量普遍降低;360日龄时,所检的11个组织均高水平表达该基因。     

The origin and evolution of genomic imprinting and viviparity in mammals

Genomic imprinting is widespread in eutherian mammals. Marsupial mammals also have genomic imprinting, but in fewer loci. It has long been thought that genomic imprinting is somehow related to placentation and/or viviparity in mammals, although neither is restricted to mammals. Most imprinted genes are expressed in the placenta. There is no evidence for genomic imprinting in the egg-laying monotreme mammals, despite their short-lived placenta that transfers nutrients from mother to embryo. Post natal genomic imprinting also occurs, especially in the brain. However, little attention has been paid to the primary source of nutrition in the neonate in all mammals, the mammary gland. Differentially methylated regions (DMRs) play an important role as imprinting control centres in each imprinted region which usually comprises both paternally and maternally expressed genes (PEGs and MEGs). The DMR is established in the male or female germline (the gDMR). Comprehensive comparative genome studies demonstrated that two imprinted regions, PEG10 and IGF2-H19, are conserved in both marsupials and eutherians and that PEG10 and H19 DMRs emerged in the therian ancestor at least 160 Ma, indicating the ancestral origin of genomic imprinting during therian mammal evolution. Importantly, these regions are known to be deeply involved in placental and embryonic growth. It appears that most maternal gDMRs are always associated with imprinting in eutherian mammals, but emerged at differing times during mammalian evolution. Thus, genomic imprinting could evolve from a defence mechanism against transposable elements that depended on DNA methylation established in germ cells.     

Analysis of imprinted gene expression in normal fertilized and uniparental preimplantation porcine embryos

In the present study quantitative real-time PCR was used to determine the expression status of eight imprinted genes (GRB10, H19, IGF2R, XIST, IGF2, NNAT, PEG1 and PEG10) during preimplantation development, in normal fertilized and uniparental porcine embryos. The results demonstrated that, in all observed embryo samples, a non imprinted gene expression pattern up to the 16-cell stage of development was common for most genes. This was true for all classes of embryo, regardless of parental-origins and the direction of imprint. However, several differentially expressed genes (H19, IGF2, XIST and PEG10) were detected amongst the classes at the blastocyst stage of development. Most interestingly and despite the fact that maternally and paternally expressed genes should not be expressed in androgenones and parthenogenones, respectively, both uniparental embryos expressed these genes when tested for in this study. In order to account for this phenomenon, we compared the expression patterns of eight imprinted genes along with the methylation status of the IGF2/H19 DMR3 in haploid and diploid parthenogenetic embryos. Our findings revealed that IGF2, NNAT and PEG10 were silenced in haploid but not diploid parthenogenetic blastocysts and differential methylation of the IGF2/H19 DMR3 was consistently observed between haploid and diploid parthenogenetic blastocysts. These results appear to suggest that there exists a process to adjust the expression status of imprinted genes in diploid parthenogenetic embryos and that this phenomenon may be associated with altered methylation at an imprinting control region. In addition we believe that imprinted expression occurs in at least four genes, namely H19, IGF2, XIST and PEG10 in porcine blastocyst stage embryos.