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.     

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 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).     

A novel porcine gene, POT1, differentially expressed in the longissimus muscle tissues from Wujin and Large White pigs

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus muscle tissues from Wujin and Large White pigs. One novel gene differentially expressed was identified through quantitative real time PCR and the cDNA complete sequence was then obtained using the rapid amplification of cDNA ends (RACE) method. The nucleotide sequence of the 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 507 amino acids that shares high homology with the protection of telomeres 1 isoform 4 (POT1) of human (86%)-so that this gene can be defined as swine POT1 gene. This gene is structured in 12 exons and 11 introns as revealed by computer-assisted analysis. The tissue expression analysis indicated that the swine POT1 gene is differentially expressed in tissues including muscle, heart, liver, fat, kidney, lung, pancreas and spleen. Our experiment is the first to establish the primary foundation for further research on the swine POT1 gene.     

Molecular cloning and expression analyses of a novel swine gene-ARF4

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 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 nucleotide sequence of the 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 180 amino acids that contains the putative conserved domain of ADP-ribosylation factor (ARF) which has high homology with the ADP-ribosylation factor 4 (ARF4) of six species-bovine (98%), human and orangutan (96%), African clawed frog (96%), mouse and rat (98%)-so that it can be defined as swine ADP-ribosylation factor 4 (ARF4). This novel porcine gene was finally assigned to GeneID:595108. The phylogenetic tree analysis revealed that the swine ARF4 has a closer genetic relationship with the rat and mouse ARF4 than with those of human and African clawed frog. The tissue expression analysis indicated that the swine ARF4 gene is over expressed in muscle, fat, heart, spleen, liver, and ovary and moderately expressed in lung and kidney but weakly expressed in small intestine. Our experiment is the first to establish the primary foundation for further research on the swine ARF4 gene.     

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 characterization, expression patterns, and polymorphism of a differentially expressed porcine gene (PYGM) isolated by suppression subtractive hybridization and two-dimensional gel electrophoresis analysis

Suppression subtractive hybridization was performed to detect the differences in gene expression of porcine longissimus dorsi muscles between Large White and Chinese Meishan pigs. An upregulated gene in Large White that shared high homology with human muscle glycogen phosphorylase (PYGM) was identified. The porcine PYGM gene contains an open reading frame encoding 842 amino acid residues with 26 and 283 nucleotides in the 5' and 3' untranslated regions, respectively. Tissue distribution analysis indicated that porcine PYGM mRNAs are highly expressed in all tissues. Expression pattern of PYGM was similar in the two breeds. Both breeds had the highest expression levels when 120 days old (p<0.01), and PYGM was upregulated during skeletal muscle development. A similar expression pattern of PYGM in protein level was also observed by differential proteome analysis of skeletal muscle development using two-dimensional gel electrophoresis and mass spectroscopy. The mRNA abundance of PYGM in Large White was higher than Meishan at all four stages (p<0.05). Moreover, a G/T mutation in exon 8 was identified and association analysis with meat quality traits showed that it was significantly associated with lean meat percentage (p<0.05). Our data may provide further insight into the molecular mechanisms responsible for breed-specific differences in porcine growth and meat quality.     

猪ATF4基因多态性与生产性状的关联及基因表达分析

为进一步了解和认识ATF4基因的功能,揭示ATF4对猪脂肪代谢的影响,寻找与肉质性状相关联的分子标记,文章采用PCR方法扩增了ATF4基因部分序列,通过序列比对发现在翻译起始密码子ATG下游159 bp处存在A159G转换,通过PCR-AluⅠ-RFLP对大白猪、长白猪、梅山猪和通城猪进行酶切分型,发现在大白猪和长白猪中均为AA基因型,在梅山猪和通城猪中均为GG基因型。进一步对大白猪×梅山F2群体资源家系进行了酶切分型,并分析该位点的多态性与生产性状的关系。结果表明,ATF4的多态性与臀部平均膘厚存在极显著相关(P<0.01),与胸腰椎间膘厚、平均膘厚、眼肌高、眼肌面积存在显著相关(P<0.05)。采用Real-time PCR分析了ATF4基因在大白猪与梅山猪背最长肌不同发育阶段的表达模式。结果表明,ATF4基因在大白猪和梅山猪胚胎期65 d和出生后3 d中的表达水平相对都比较低,且在两品种间无明显差异;而在出生后60 d和120 d,ATF4基因在大白猪中与梅山猪均出现了上调表达,并且在梅山猪中的相对表达水平要显著高于大白猪。研究结果为进一步深入研究猪ATF4基因在脂肪代谢中的分子机理奠定了基础。     

Porcine skeletal muscle differentially expressed gene ATP5B: molecular characterization, expression patterns, and association analysis with meat quality traits

The 2-DE/MS-based proteomics approach was used to investigate the differences of porcine skeletal muscle, and ATP5B was identified as one differential expression protein. In the present study, ATP5B gene was further cloned by RT-PCR, the sequence was analyzed using the bioinformatics method, and the mRNA expression was detected by qRT-PCR. Sequence analysis showed that the porcine ATP5B gene contains an ORF encoding 528-amino-acid residues with 49 and 166 nucleotides in the 5′ and 3′ UTRs, respectively. The mRNA of ATP5B was widely expressed in all 14 tissues tested, but especially highly expressed in parorchis and fat. The expression pattern of ATP5B was similar in Large White and Meishan breeds, showing that the expression was upregulated by 3 days after birth and downregulated during postnatal development of skeletal muscle. Comparing the two breeds, the mRNA abundance of ATP5B in Large White was more highly expressed than in Meishan at all developmental stages (P < 0.05). Moreover, a synonymous mutation, G75A in exon 8, was identified and association analysis with the traits of meat quality showed that it was significantly associated with the RLF, FMP, IFR, IMF, and IMW (P < 0.05). These results suggested that ATP5B probably plays a key role in porcine skeletal muscle development and may provide further insight into the molecular mechanisms responsible for breed-specific differences in meat quality.     

Molecular characterization,expression pattern and association analysis of the porcine <Emphasis Type="Italic">BTG2</Emphasis> gene

B-cell translocation gene 2 (BTG2), a member of the B-cell translocation gene family with anti-proliferative properties, have been characterized to be involved in cell growth, differentiation and survival. In this study, we cloned the full length sequences of cDNA and genomic DNA of BTG2 gene from the porcine skeletal muscle. Spatial expression analysis showed that the porcine BTG2 gene is expressed predominantly in muscle. Temporal expression analysis in longissimus dorsi muscle demonstrated that the expression of BTG2 gene has the highest expression at 60 days old in Large White while with a peak expression at 120 days old in Meishan. Temporal analysis also revealed that the expression of BTG2 gene is generally higher in Large White than in Meishan at all the developmental stages tested (65 days of conception and 3, 35, 60, 120, and 180 days of postnatal). A single nucleotide polymorphism (G417C) in the intron of BTG2 gene was then detected by PCR-RFLP in Large White × Meishan F2 resource population and association analysis suggested that this polymorphic site had significant association (P < 0.05) with the buttock fat thickness, fat percentage, lean muscle percentage, ratio of lean to fat and carcass length.