M. G. Lei

Differential proteome analysis of porcine skeletal muscles between Meishan and Large White

Western and indigenous Chinese pig breeds show obvious differences in muscle growth and meat quality; however, the underlying molecular mechanism remains unclear. In this study, proteome analysis of LM between purebred Meishan and Large White pigs was performed by 2-dimensional gel electrophoresis and mass spectrometry. A total of 25 protein spots were differentially expressed in the 2 breeds. The 14 identified proteins could be divided into 4 groups: energy metabolism, defense and stress, myofibrillar filaments, and other unclassified proteins. Quantitative real-time PCR was used to analyze the partly differentially expressed proteins in mRNA level, which revealed a positive correlation between the content of the proteins and their mRNA levels. We also analyzed the mRNA levels of myosin heavy chain isoforms using quantitative real-time PCR. The results indicated that IIa and IIx fibers were elevated in Meishan pigs, whereas the IIb fiber was more highly expressed in Large White pigs. To the best of our knowledge, this was the first proteomics-based investigation of total skeletal muscle protein in different pig breeds, and these results may provide valuable information for understanding the molecular mechanism responsible for breed-specific differences in growth performance and meat quality.

Identification of polymorphism and association analysis with reproductive traits in the porcine RNF4 gene.

The ring finger protein 4 gene (RNF4), which might play a role in fetal germ cell development as well as in oocyte and granulosa cell maturation, was one of the potential candidate genes for reproductive traits. In the present work, we isolated the complete coding sequence of porcine RNF4 gene, identified a single nucleotide polymorphism (SNP: T/C) in intron5, and developed a PCR-SacII-RFLP genotyping assay. Association of this SNP with reproductive traits was assessed in three populations with diverse genetic backgrounds. One was Chinese Qingping sows. Another was consisted of crossbred sows derived from Landrace, Large White, Chinese Tongcheng and/or Chinese Meishan (Line DIV). The third is Large White x Meishan (LW x M) F(2) slaughtered population. Statistical analysis demonstrated that, in the first parity, the difference between RNF4 genotypes and reproductive traits of both Qingping and Line DIV sows was not significant. In the second and subsequent litters, CC animals in Qingping population had more piglets born (+1.74 piglets) and piglets born alive (+2.02 piglets) than sows with the TT genotype (P<0.05). Line DIV sows inheriting the CC genotype had additional 0.69 piglets born compared to the TC animals (P<0.05) in second and subsequent litters. No significant difference was observed between genotypes and reproductive tracts components in F(2) animals. In addition, we found RNF4 gene has a significant additive effect on both piglet born and piglet born alive in Qingping animals (P<0.05). Results here suggested that the RNF4 SNP was significantly associated with litter size in two populations and could be useful in selection for increasing litter size in pigs. Further studies were needed to confirm these preliminary researches.

Molecular characterization and SNPs analysis of the porcine Deleted in AZoospermia Like (pDAZL) gene.

The Deleted in AZoospermia Like (DAZL) gene is expressed in prenatal and postnatal germ cells. In this study, we cloned and characterized the porcine Deleted in AZoospermia Like (pDAZL) gene. We found the full-length coding sequence of the pDAZL encoded a protein of 295 amino acids with a RNA recognition motif (amino acids 41-111) and a DAZ repeat (amino acids 167-120). The deduced protein sequence of pDAZL is 92.5% and 91.5% similar to those of human and bovine, respectively. PCR-MspI-RFLP and PCR-TaqI-RFLP were established to detect an A/G mutation in intron 7 and a C/A mutation in intron 9, respectively. Associations of two SNPs with litter size traits were assessed in Large White (n=275) and DIV (n=128) pig populations, and the statistical analysis demonstrated that CC produced 0.716 more (P<0.05) piglets born alive than CD genotypes in Large White pigs at TaqI locus (C/A mutation in intron 9), and the dominance effect was 0.304 pig per litter (P<0.05). This result suggests that the pDAZL gene might be a good candidate gene of litter size trait and provides some marker information for marker-assisted selection (MAS).

Association of 3 polymorphisms in porcine troponin I genes (TNNI1 and TNNI2) with meat quality traits.

The contractile protein troponin I (TnI), a constituent protein of the troponin complex located on the thin filaments of striated muscle, is involved in inhibition of calcium-induced myosin AT Pase activity (and thus contraction). TnI-slow (slow-twitch skeletal muscle isoform, named TNNI1) and TnI-fast (fast-twitch skeletal muscle isoform, named TNNI2) are muscle-fiber-type-specific proteins, and expression of their genes may affect the composition of muscle fiber, thereby influencing the meat quality traits. Thus, the TnI genes are potential candidate genes for traits related to meat quality in animals. Association of 2 SNPs (EU743939:g.5174T>C in intron 4, and EU743939:g.8350C>A in intron 7) of theTNNI1 gene and a SNP (EU696779:g.1167C>T in intron 3) of theTNNI2 gene with 11 meat quality traits were studied on 334 Large White × Meishan F2 pigs. In theTNNI1 gene, g.5174T>C and g.8350C>A were found to be significantly associated with intramuscular fat content and meat color value of biceps femoris. The g.5174T>C also showed significant effects on meat color value and marbling score of longissimus dorsi, as well as pH of longissimus dorsi and semispinalis capitis. The g.1167C>T polymorphism in theTNNI2 gene affected significantly the pH of longissimus dorsi, meat color value of longissimus dorsi and semispinalis capitis, marbling score of longissimus dorsi, and intramuscular fat.

Identification of three novel SNPs and association with carcass traits in porcine TNNI1 and TNNI2

In this study, two novel SNPs (EU743939:g.5174T>C in intron 4 and EU743939:g.8350C>A in intron 7) in TNNI1 and one SNP (EU696779:g.1167C>T in intron 3) in TNNI2 were identified by PCR–RFLP (PCR restriction fragment length polymorphism) using XbaI, MspI and SmaI restriction enzyme, respectively. The allele frequencies of three novel SNPs were determined in the genetically diverse pig breeds including ten Chinese indigenous pigs and three Western commercial pig breeds. Association analysis of the SNPs with the carcass traits were conducted in a Large Whitexa0×xa0Meishan F2 pig population. The linkage of two SNPs (g.5174T>C and g.8350C>A) in TNNI1 gene had significant effect on fat percentage. Besides these, the g.5174T>C polymorphism was also significantly associated with skin percentage (Pxa0<xa00.05), shoulder fat thickness (Pxa0<xa00.05) and backfat thickness between sixth and seventh ribs (Pxa0<xa00.05). The significant effects of g.1167C>T polymorphism in TNNI2 gene on fat percentage (Pxa0<xa00.01), lean meat percentage (Pxa0<xa00.05), lion eye area (Pxa0<xa00.05), thorax–waist backfat thickness (Pxa0<xa00.01) and average backfat thickness (Pxa0<xa00.05) were also found.

Association of the polymorphism in GYS1 and ACOX1 genes with meat quality traits in pigs

Phenotypic information about several pig meat quality traits on 334 Large White × Meishan F2 pigs was collected. Effects of the association of the FokI variants in the seventh intron of the skeletal muscle glycogen synthase (GYS1) gene and the PstI variants in the ninth intron of the palmitoyl acyl-CoA oxidase 1 (ACOX1) gene on the meat quality traits were examined on all pigs. The FokI variants of the GYS1 gene showed significant effects on pH of m. semipinalis capitis (P < 0.05). Linkage analysis indicated that the peak of the quantitative trait loci (QTL) curve was located around this marker for pH, but it did not reach significance (P > 0.05). The results may be due to several reasons such as linkage disequilibrium to the causal mutations, the limited number of animals or balance of another QTL or marker with negative effects. Significant effects of PstI variants of ACOX1 gene were also found on meat colour value and meat marbling score of both m. longissimus dorsi and m. biceps femoris (P < 0.05). Dominant effects for the affected traits at those two loci were significant except for meat marbling score of m. biceps femoris (P < 0.05). The results of this study give us some evidence for the potential of those dominant markers used in the marker-assisted selection of crossbreeding of the Large White pig sire lines and Meishan-derived synthetic dam lines.

Genetic polymorphisms and preliminary association analysis with production traits of the porcine SLC27A4 gene.

Solute carrier family 27 (fatty acid transporter), member 4 (SLC27A4) is a fatty acyl-CoA synthetase producing very long chain fatty acid-CoA for lipid metabolic pathways, suggesting that the SLC27A4 gene is a potential candidate gene for traits related to fat deposition in animals. This study was conducted to sequence the genomic region from exon 6 to 12 of porcine SLC27A4 and detect polymorphisms by comparative sequencing. Inxa0silico mapping assigned SLC27A4 gene between gene COQ4 (coenzyme Q4 homolog) and URM1 (ubiquitin related modifier 1 homolog) on pig chromosome 1q24-q2.12 where significant QTL affecting backfat depth had previously been identified. Thirty six putative sites of variation were detected, of which 31 polymorphisms including 28 SNPs and 3 indels were located in the intronic region, and 5 in the exonic regions. The g.1777G>A (EU703769) in intron 8 was confirmed by PCR-RFLP using HpaII restriction enzyme and further genotyped in four Chinese native pig breeds (Meishan, Erhualian, Tongcheng and Qingping) and three western meat-type pig breeds (Duroc, Large White and Landrace). Allele G was exclusively present in Tongcheng and Qingping pigs and predominant in the other pig populations analyzed. Significant differences of backfat at rump, body weight at birth and average daily gain on weaning between the AG and GG genotype were observed in Landrace pig population (Pxa0<xa00.05).

Transcription factor C/EBPβ promotes the transcription of the porcine GPR120 gene

G protein-coupled receptor 120 (GPR120), an adipogenic receptor critical for the differentiation and maturation of adipocytes, plays an important role in controlling obesity in both humans and rodents and, thus, is an attractive target of obesity treatment studies. However, the mechanisms that regulate the expression of porcine GPR120 remain unclear. In this study, electrophoretic mobility shift assay (EMSA) and chromatin immunoprecipitation (ChIP) techniques were used to analyze and identify the binding of C/EBPβ (transcription factor CCAAT/enhancer binding protein beta) to the GPR120 promoter. C/EBPβ overexpression and RNA interference studies showed that C/EBPβ regulated GPR120 promoter activity and endogenous GPR120 expression. The binding site of C/EBPβ in the GPR120 promoter region from -101 to -87 was identified by promoter deletion analysis and site-directed mutagenesis. Overexpression of C/EBPβ increased endogenous GPR120 expression in pig kidney cells (PK). Furthermore, when endogenous C/EBPβ was knocked down, GPR120 mRNA and protein levels were decreased. The stimulatory effect of C/EBPβ on GPR120 transcription and its ability to bind the transcription factor-binding site were confirmed by luciferase, ChIP, and EMSA. Moreover, the mRNA and protein expression levels of C/EBPβ were induced by high fat diet feeding. Taken together, it can be concluded that C/EBPβ plays a vital role in regulating GPR120 transcription and suggests HFD-feeding induces GPR120 transcription by influencing C/EBPβ expression.

Molecular characterization, expression pattern and association analysis of the porcine BTG2 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 60xa0days old in Large White while with a peak expression at 120xa0days 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 (65xa0days of conception and 3, 35, 60, 120, and 180xa0days of postnatal). A single nucleotide polymorphism (G417C) in the intron of BTG2 gene was then detected by PCR-RFLP in Large Whitexa0×xa0Meishan F2 resource population and association analysis suggested that this polymorphic site had significant association (Pxa0<xa00.05) with the buttock fat thickness, fat percentage, lean muscle percentage, ratio of lean to fat and carcass length.

Real-time reverse transcription-PCR expression profiling of porcine troponin I family in three different types of muscles during development.

In this study, the expression profiling of three troponin I isoforms (TNNI1, TNNI2 and TNNI3) was investigated in two pig breeds differing in muscularity (Yorkshire and Meishan) at six stages (fetal 60xa0days and postnatal 3, 35, 60, 120, and 180xa0days) and three types of muscles (longissimus dorsi muscle, LD; semitendinosus, ST; cardiac muscle, CM) using relative real-time quantitative PCR. Significant differences of troponin I expression in three muscles were found between Yorkshire and Meishan breeds at some stages. The expression peak of TNNI1 and TNNI2 in LD and ST was at postnatal 35 or 60xa0days in Yorkshire and at postnatal 120 or 180xa0days in Meishan pigs, while it occurred in CM at postnatal 3xa0days in two pig breeds. The relative expression values of TNNI1 and TNNI2 were significantly higher in LD than ST at most of stages after birth. The expression ratio of TNNI2 versus TNNI1 favoured TNNI2 expression in ST and LD, but on the contrary in CM. The expression peak of TNNI3 occurred at postnatal 60 and 120xa0days in Yorkshire and Meishan pigs, respectively. TNNI1 and TNNI3 were co-expressed in CM during the fetal and earlier stages after birth.