Molecular characterization and expression analysis of caveolin-1 in pig tissues

Members of the caveolin family played important roles during fundamental cellular processes,such as regulation of cell morphology,migration,and gene expression in muscle cells.In this study,caveolin-1 (Cav-1),one of the caveolins,was identified from longissimus dorsi muscle of Large Yorkshire pig and Chinese indigenous Lantang pig based on the results of mRNA differential display analysis.The deduced amino acids sequence of the porcine Cav-1 contained a caveolin domain,and was very conservative among different species.The Cav-1 mRNA was widely expressed in the eight tissues in this study,including heart,liver,kidney,encephalon,spleen,lung,longissimus dorsi muscle,and back fat, and the highest expression quantity was found in back fat of the two pig breeds.The expression quantity of porcine Cav-1 in back fat and longissimus dorsi muscle of Lantang pig was significantly higher than that of Large Yorkshire(P<0.01,and P<0.05,respectively).These results suggested that the Cav-1 might be a candidate gene for carcass traits,and might provide valuable information for understanding the mechanism of caveolae signaling in fat deposition by using the animal model of pig.     

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.     

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).     

Molecular cloning,polymorphism and association analyses of a novel porcine mRNA differentially expressed in the Longissimus muscle tissues from Meishan and Large White pigs

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus muscle tissues from Meishan and Large White pigs. One novel mRNA that was differentially expressed was identified through semi-quantitative RT-PCR and the cDNA complete sequence was then obtained using the rapid amplification of cDNA ends (RACE) method. The nucleotide sequence of the mRNA is not homologous to any of the known porcine genes. Sequence prediction analysis revealed that the this mRNA is not protein-coding mRNA. Polymorphism analyses revealed that there was a C-T mutation on the position of 669 bp and PCR -Dra I-RFLP analyses revealed that Chinese indigenous pig breeds and exotic pig breeds displayed obvious genotype and allele frequency differences at this locus. Association analyses revealed that this polymorphic locus was significantly associated with the drip loss rate, skin percentage, meat color value (m.Longissimus Dorsi, LD), loin eye width, loin eye area, water holding capacity, carcass length, caul fat weight, intramuscular fat (m.Longissimus Dorsi, LD), lean meat weight, lean meat percentage, backfat thickness at buttock (P < 0.05).     

Molecular cloning,polymorphism and association analyses of a novel differentially expressed porcine mRNA

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus muscle tissues from Meishan and Large White pigs. One novel mRNA that was differentially expressed was identified through semi-quantitative RT-PCR and the full-length cDNA sequence was then obtained using the rapid amplification of cDNA ends (RACE) method. The nucleotide sequence of the mRNA is not homologous to any of the known porcine genes. Sequence prediction analysis revealed that this mRNA is no-coding mRNA. Polymorphism analyses revealed that there was a C-T mutation on the position of 505 bp and PCR-HhaI-RFLP analyses revealed that Chinese indigenous pig breeds and exotic pig breeds displayed obvious genotype and allele frequency differences at this locus. Association analyses revealed that this polymorphic locus was significantly associated with the drip loss rate, water holding capacity, dressing percentage, rib numbers, lean meat percentage, estimated lean meat percentage, loin eye width and loin eye area (P < 0.05).     

Molecular characterization and expression profile of a novel porcine gene differentially expressed in the muscle and backfat tissues from Chinese Meishan and Russian Large White pigs

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus dorsi muscle and backfat tissues from Chinese Meishan and Russian Large White pigs. One novel gene that was differentially expressed was identified through semiquantitative RT-PCR, and the cDNA complete sequence was then obtained using the rapid amplification of the cDNA ends (RACE) method. The cDNA sequence of this gene is not homologous to any of the known porcine genes. The sequence prediction analysis revealed that the open reading frame of this gene encodes a protein of 402 amino acids that contains the putative conserved transposase DDE domain, and further Blast analysis revealed that this protein has 100% homology with the Tn10 transposase from Oryza sativa, Serratia marcescens, and Salmonella, and, therefore, this gene can be defined as the swine Tn10 transposase gene. This novel porcine gene was finally assigned to Gene ID: 100049649. The RT-PCR analysis of the tissue expression profile was carried out using the tissue cDNAs of one Meishan pig as the templates, and the result indicated that this novel swine gene is moderately expressed in fat and weakly expressed in small intestine, liver, kidney, and spleen but almost not expressed in heart, ovary, muscle, and lung. Our experiment established the primary foundation for further research into the biological significance of swine Tn10 transposase gene.     

Molecular characterization and expression profile of a novel porcine gene differentially expressed in the muscle and backfat tissues from Chinese Meishan and Russian Large White pigs

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus dorsi muscle and backfat tissues from Chinese Meishan and Russian Large White pigs. One novel gene that was differentially expressed was identified through semi-quantitative RT-PCR and the cDNA complete sequence was then obtained using the rapid amplification of cDNA ends (RACE) method. The cDNA sequence of this gene is not homologous to any of the known porcine genes. The sequence prediction analysis revealed that the open reading frame of this gene encodes a protein of 402 amino acids that contains the putative conserved transposase DDE domain and further Blast analysis revealed that this protein has 100% homology with the Tn10 transposase from Oryza sativa, Serratia marcescens, and Salmonella, and therefore, this gene can be defined as the swine Tn10 transposase gene. This novel porcine gene was finally assigned to Gene ID: 100049649. The RT-PCR analysis of the tissue expression profile was carried out using the tissue cDNAs of one Meishan pig as the templates, and the result indicated that this novel swine gene is moderately expressed in fat, and weakly expressed in small intestine, liver, kidney, and spleen but almost not expressed in heart, ovary, muscle, and lung. Our experiment established the primary foundation for further research into the biological significance of swine Tn10 transposase gene.     

Characterization of 298 ESTs from porcine back fat tissue and their assignment to the SSRH radiation hybrid map

Following several criteria, we collected, clustered, and functionally categorized 653 expressed sequence tags (ESTs) of 5 ends from porcine back fat libraries from the >15,000 porcine ESTs collected to date. By searching the LocusLink and Mapviewer database, we knew the positions of these 653 ESTs on human chromosomes (HSAs). Sus scrofa radiation hybrid (SSRH) mapping revealed that 298 porcine EST clusters out of 653 were localized near microsatellite (MS) markers. Among these EST clusters, we could assign 182 to their porcine chromosomes (SSCs) on the SSRH map.     

Molecular characterization and association analysis of porcine adipose triglyceride lipase (<Emphasis Type="Italic">PNPLA2</Emphasis>) gene

The adipose triglyceride lipase (PNPLA2, also known as ATGL) is a novel triacylglycerol (TG) lipase which specifically removes the first fatty acid from the triglyceride molecule generating free fatty acid and diglyceride (DG) in mammalian cells. Here we describe the molecular characterization of the porcine ATGL gene. The full-length cDNA sequence contains a 1,461 bp open reading frame encoding a protein of 486 amino acids with a calculated molecular mass of 53.2 kDa and an isoelectric point of 7.90. The porcine ATGL protein shares high identity with other mammalian ATGL. The ATGL gene contains 9 coding exons, spans approximately 6 kb. The porcine ATGL mRNA was expressed predominantly in backfat, mildly in muscle, small intestine and heart, and almost absent in liver, spleen, lung, stomach, kidney and ovary. Statistical analysis showed the ATGL gene polymorphism (G/A³⁹²) was different between Chinese indigenous and introduced commercial western pig breeds, and was highly associated with almost all the fat deposition and carcass traits, including subcutaneous fat thickness, viscera adipose tissue, lean percentage, loin eye traits and even rib numbers.     

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.     

Quantitative gene expression analysis on chromosome 6 between Korean native pigs and Yorkshire breeds for fat deposition

Pig chromosome 6 (SSC6) has been reported to have QTL affecting backfat thickness (BFT) and intramuscular fat (IMF). A human-pig comparative map covering 18 autosomes with the highest resolution has been constructed and based on this map SSC6 has conserved syntenicgroups with human chromosome (HSA) 16, 19, 1, and 18. In this study, the pig Affy elements mapped to the SSC6 were analyzed, and the differentially expressed genes in three tissues (liver, backfat and loin muscle) between Yorkshire and Korean Native Pigs (KNP) were collected, in particular those genes located in the internal between markers SW1355 and SW1823 where a quantitative trait loci (QTL) affecting the intramuscular fat content (IMF) have been detected in multiple pig populations. The genes listed here may offer information for further study the candidate genes affecting these QTL on the expression level.     

Assessment of genomic imprinting of PPP1R9A, NAP1L5 and PEG3 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, kidney, 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 characterization and expression patterns of <Emphasis Type="Italic">Lbx1</Emphasis> in porcine skeletal muscle

Ladybird-like genes were recently identified in mammals. The first member characterized, Lbx1, is expressed in developing skeletal muscle and the nervous system. However, little is known about the porcine Lbx1 gene. In the present study, we cloned and characterized Lbx1 from porcine muscle. RT-PCR analyses showed that Lbx1 was highly expressed in porcine skeletal muscle tissues. And we provide the first evidence that Lbx1 has a certain regulated expression pattern during the postnatal period of the porcine skeletal muscle development. Lbx1 gene expressed at higher levels in biceps femoris muscles compared with masseter, semitendinosus and longissimus dorsi muscles in Meishan pigs. Phylogenetic tree was constructed by aligning the amino acid sequences of different species. Moreover, single nucleotide polymorphism (SNP) scanning in the Lbx1 genomic fragment identified two mutations, g.752A>G and g.−1559C>G. Association analysis in our experimental pig populations showed that the mutation of g.752A>G was significantly associated with loin muscle area (P < 0.05) and internal fat rate (P < 0.05). Our results suggest that the Lbx1 gene might be a candidate gene of carcass traits and provide useful information for further studies on its roles in porcine skeletal muscle.     

Investigation of <Emphasis Type="Italic">Lpin1</Emphasis> as a candidate gene for fat deposition in pigs

Lpin1 deficiency prevents normal adipose tissue development and remarkably reduces adipose tissue mass, while overexpression of the Lpin1 gene in either skeletal muscle or adipose tissue promotes adiposity in mice. However, little is known about the porcine Lpin1 gene. In the present study, a 5,559-bp cDNA sequence of the porcine Lpin1 gene was obtained by RT-PCR and 3′RACE. The sequence consisted of a 111-bp 5′UTR, a 2,685-bp open reading frame encoding a protein of 894 amino acids and a 2,763-bp 3′UTR. Semi-quantitative RT-PCR analysis revealed that Lpin1 had a high level of expression in the liver, spleen, skeletal muscle and fat, a low level of expression in the heart, lung and kidney. The porcine Lpin1 gene was assigned to 3q21-27 by using the somatic cell hybrid panel (SCHP) and the radiation hybrid (IMpRH) panel. One C93T single nucleotide polymorphism (SNP) was identified and genotyped using the TaqI PCR-RFLP method. Association analysis between the genotypes and fat deposition traits suggested that different genotypes of the Lpin1 gene were associated with percentage of leaf fat and intramuscular fat.