Lean and obese pig breeds exhibit differences in prenatal gene expression profiles of muscle development

Muscle development in domesticated animals is important for meat production. Furthermore, intramuscular fat content is an important trait of meat intended for consumption. Here, we examined differences in the expression of factors related to myogenesis, adipogenesis and skeletal muscle growth during fetal muscle development of lean (Yorkshire) and obese (Chenghua) pig breeds. At prenatal days 50 (d50) and 90 (d90), muscles and sera were collected from pig fetuses. Histology revealed larger diameters and numbers of myofibers in Chenghua pig fetuses than those in Yorkshire pig fetuses at d50 and d90. Yorkshire fetuses had higher serum concentrations of myostatin (d90), a negative regulator for muscle development, and higher mRNA expression of the growth hormone receptor Ghr (d90), myogenic MyoG (d90) and adipogenic LPL (d50). By contrast, Chenghua fetuses exhibited higher serum concentration of growth hormone (d90), and higher mRNA expression of myogenic MyoD (d90) as well as adipogenic PPARG and FABP4 (d50). Our results revealed distinct expression patterns in the two pig breeds at each developmental stage before birth. Compared with Chenghua pigs, development and maturation of fetal skeletal muscles may occur earlier in Yorkshire pigs, but the negative regulatory effects of myostatin may suppress muscle development at the later stage.     

Characterization of the porcine differentially expressed <Emphasis Type="Italic">PDK4</Emphasis> gene and association with meat quality

To investigate the differential expression of genes in the skeletal muscle between Yorkshire and Chinese indigenous breed Meishan pigs, suppression subtractive hybridization was carried out and many genes were proved to be expressed significantly different in the two breeds. One gene highly expressed in Meishan but lowly expressed in Yorkshire specific library, shared strong homology with human pyruvate dehydrogenase kinase 4 (PDK4). Using semi-quantity and quantity PCR, We confirmed its differential expression between the two breeds. Temporal and spatial expression analysis indicated that porcine PDK4 gene is highly expressed in skeletal muscle and the highest in neonatal pigs. Complete cDNA cloning and sequence analysis revealed that porcine PDK4 gene contains an open reading frame of 1,221 bp. The deduced amino acid sequence showed conservation in evolution. A G/A mutation in intron 9 was identified and association analysis showed that it was significantly associated with intramuscular fat, muscle water content.     

Molecular characterization of differentially expressed TXNIP gene and its association with porcine carcass traits

Thioredoxin interacting protein (TXNIP), which plays a regulatory role in lipid metabolism and immune regulation, is down-regulated expressed in F₁ hybrids Landrace?×?Yorkshire skeletal muscle. Here we described the molecular characterization of porcine TXNIP gene. The full-length cDNA contains a coding sequence of 1,176?bp nucleotides with untranslated regions of 263?bp at 5′-end and 441?bp at 3′-end, respectively. The predicted molecular mass and isoelectric point of porcine TXNIP is 43.81?kDa and 7.385, respectively. The deduced 391 amino acids exhibit high identity with other mammalian TXNIP. The TXNIP gene contains eight coding exons and seven non coding introns, spans approximately 3,348?bp. The expression of porcine TXNIP mRNA is almost absent in Landrace?×?Yorkshire and lower level in 6-month-old pigs during skeletal muscle development. Other stages and breeds were high level expressed. Statistical analysis showed the TXNIP gene polymorphism (c.575-4T>C) was different between F₁ hybrids and their parents, was highly associated with dressing percentage (DP) and thorax–waist fat thickness (TFT) in the Yorkshire?×?Meishan F₂ population. The possible role of TXNIP was discussed.     

Molecular characterization and expression patterns of the actinin-associated LIM protein (ALP) subfamily genes in porcine skeletal muscle

The actinin-associated LIM protein (ALP) subfamily has important functions in cell signal transduction, cell proliferation, and integration of cytoskeletal architecture. To detect their functions in pig skeletal muscle, we cloned and characterized the pig ALP subfamily genes, drew their genomic structure maps, and detected their tissue expression patterns. We identified a new spliced variant of PDLIM3 in pig skeletal muscle and named it as PDLIM3-4, which was only expressed in the heart and skeletal muscle. Our results showed that PDLIM3-4 was expressed in adult pig skeletal muscle with the highest expression level, and both PDLIM3-4 isoform and PDLIM4 had different expression profiles during the prenatal and postnatal stages of skeletal muscle development among the three pig breeds. These studies provide useful information for further research on the functions of pig ALP subfamily genes in skeletal muscle development.     

Myf-6基因在不同猪种中的PCR-RFLP遗传多态性及其遗传效应分析

作为生肌调节因子家族的一个成员,Myf-6基因在肌形成的过程中发挥着重要的作用。实验采用PCR-RFLP技术分析了Myf-6基因在12个中外猪种及部分杂交群体中的分布情况,并分析了Myf-6基因对肌纤维、胴体品质、胴体等级性状和肉质性状的遗传效应。结果表明：Myf-6基因内含子1内的Ava I酶切位点多态性不丰富,多数中国地方猪种群体中A等位基因已经完全固定,B等位基因仅以较低的频率存在于外种猪或含外种猪血缘的杂交群体中。尽管没有检测到BB纯合个体,但AB杂合子的平均瘦肉率为50.344 %,极显著地高于AA纯合子的45.875 %(P<0.01)。AB杂合子的眼肌面积为27.097 cm2,极显著地大于AA纯合子的22.572 cm2(P<0.01)。AB杂合子的皮脂率（39.889 %）极显著地低于AA纯合子（44.503 %）(P<0.01)。上述结果说明本次试验群体中的B等位基因具有增加胴体瘦肉率和眼肌面积,降低胴体脂肪含量从而改善胴体品质的遗传效应。此外,Myf-6基因对肌纤维生长性状、FOM肉脂仪测定的胴体等级性状以及肉质性状等都没有显著影响(P>0.05)。     

猪背最长肌中肌肉生长和脂肪沉积相关基因的差异表达和主成分分析

骨骼肌细胞和脂肪细胞在分化生长速度上相对竞争的平衡点是猪肉质和胴体性状的决定因素.利用Oligo功能分类芯片检测了瘦肉型的长白猪和脂肪型的太湖猪在初生、1、2、3、4和5月龄间背最长肌中肌肉生长和脂肪沉积相关基因的动态表达变化.差异表达分析结果显示,在初生至5月龄的品种间分别有15、16、11、13、18和20个基因的表达差异倍数大于2倍.品种内的方差分析表明,长白猪分别有18和22个基因,太湖猪分别有3和7个基因在月龄间的表达差异达极显著(Ｐ<0.01)和显著水平(Ｐ<0.05).主成分分析结果显示,先降后升是两品种内最具代表性的基因表达模式,且长白猪和太湖猪分别有7和6个基因的表达模式明显偏离其他基因,提示其可能受到了重要的调控. 此外,5个差异表达基因的荧光定量RT-PCR验证结果均与芯片结果呈正相关趋势.以上结果筛选出了对于猪肉质和胴体性状可能具有重要影响,值得深入研究的一些候选基因,为深入研究生长发育过程中参与肌纤维生长和脂肪酸合成关键基因的表达变化规律和互作调控机制提供了基础数据.     

Molecular characterization and association analysis of porcine CA3

Carbonic anhydrase 3 (CA3) is a member of the carbonic anhydrase family, which plays an important role in various cell processes. In this paper, molecular characterization revealed that CA3 genomic DNA consists of seven exons and six introns, spans about 10.5 kb and maps to porcine chromosome 4q11-->q14. Results of expression profiles showed that the expression levels of CA3 increased in skeletal muscles from prenatal 33- to 65-day-old Chinese Tongcheng pigs. These levels subsequently decreased to a steady state in prenatal 90-day-old, postnatal 2-day-old, postnatal 28-day-old, and pregnant 65-day-old pigs. The expression patterns of Chinese Tongcheng pig embryos were different from that of Landrace pig embryos. CA3 was expressed at higher levels in skeletal muscle and liver than in kidney, lung, stomach, intestine, and brain, but was not detected in heart and spleen. Statistical analysis showed the CA3 gene polymorphism was different between Chinese indigenous and introduced commercial western pig breeds, and was associated with intramuscular fat content and percentage of ham of pigs.     

Single nucleotide polymorphism scanning and expression of the FRZB gene in pig populations

Secreted frizzled-related protein 3 (sFRP3), encoded by the gene FRZB, is a member of the sFRP family with important roles in inhibition of the Wnt signalling pathway through competitive binding of the Wnt receptor. Here, we investigated pig FRZB as a candidate gene for growth traits and identified three polymorphic sites, an insertion (A-532B) and two SNPs (G636A and C650T) in its 5′-UTR. The genotype distributions of G636A and C650T were significantly different among mini-type indigenous (Diannan Small-ear and Tibetan), normal indigenous (Laiwu and Huai), and introduced (Large Yorkshire and Landrace) breeds. In semi-quantitative PCR expression analysis, expression of FRZB mRNA was abundant in tissues of hypophysis, longissimus dorsi muscle, and adipose tissues, and low in the heart, hypothalamus, and brain. Quantitative determination of mRNA level and protein expression analysis were corresponding. The results demonstrated that FRZB gene expression in longissimus dorsi muscle and liver tissue was significantly higher in Diannan Small-ear and Tibetan pigs than in the Large Yorkshire breed (P < 0.05); however, in back fat tissue, the expression was significantly higher in Diannan Small-ear pig than in Tibetan or Large Yorkshire breeds (P < 0.05). Given the known growth and fat characteristics of the breeds, these results indicate that FRZB expression has a negative association with muscle growth and a positive association with fat deposition. In conclusion, FRZB may be a major candidate gene for growth traits in pigs.     

Molecular characterization of the porcine <Emphasis Type="Italic">JHDM1A</Emphasis> gene associated with average daily gain: evaluation its role in skeletal muscle development and growth

JHDM1A, a member of the JHDM (JmjC-domain-containing histone demethylase) family, plays an central role in gene silencing, cell cycle, cell growth and cancer development through histone H3K36 demethylation modification. Here reported the cloning, expression, chromosomal location and association analysis with growth traits of porcine JHDM1A gene. Sequence analysis showed that the porcine JHDM1A gene encodes 1,162 amino acids and contains JmjC, F-box, and CXXC zinc-finger domains, which coding sequence and deduced protein shares 91 and 99% similarity with human JHDM1A, respectively. Spatio-Temporal expression analysis indicated that the mRNA expression of porcine JHDM1A had significantly higher levels in the middle (65 days) and later (90 days) period’s embryo skeletal muscle than that of 33 days, and showed a ubiquitously expression but with the highest abundance in kidney, lung and liver of an adult pig. Radiation hybrid mapping and the following linkage mapping data indicate that JHDM1A maps to 2p17 region of pig chromosome 2 (SSC2). Allele frequency differences were detected in different pig breeds and an association study was performed with a SNP within 3′UTR. The results showed that there is a tendency for allele frequencies to differ between the fast growth breeds (Yorkshire) and slow growth pig breeds (Qingping pigs, Yushan Black pigs, Erhualian pigs and Dahuabai pigs). The association analysis using a Berkshire × Yorkshire F₂ population indicated that the C224G polymorphism had a highly significant association with average daily gain on test (P < 0.01), a trend association with average back fat thickness (P < 0.07), and significant associations (P < 0.01) on percent of average drip loss, Fiber Type II Ratio, muscle shear force and average lactate content in μmol/g. This study provides the first evidence that JHDM1A is differentially expressed in porcine embryonic skeletal muscle and associated with meat growth and quality traits.     

Comparison of microRNAs in adipose and muscle tissue from seven indigenous Chinese breeds and Yorkshire pigs

Elucidation of the pig microRNAome is essential for interpreting functional elements of the genome and understanding the genetic architecture of complex traits. Here, we extracted small RNAs from skeletal muscle and adipose tissue, and we compared their expression levels between one Western breed (Yorkshire) and seven indigenous Chinese breeds. We detected the expression of 172 known porcine microRNAs (miRNAs) and 181 novel miRNAs. Differential expression analysis found 92 and 12 differentially expressed miRNAs in adipose and muscle tissue respectively. We found that different Chinese breeds shared common directional miRNA expression changes compared to Yorkshire pigs. Some miRNAs differentially expressed across multiple Chinese breeds, including ssc‐miR‐129‐5p, ssc‐miR‐30 and ssc‐miR‐150, are involved in adipose tissue function. Functional enrichment analysis revealed that the target genes of the differentially expressed miRNAs are associated mainly with signaling pathways rather than metabolic and biosynthetic processes. The miRNA–target gene and miRNA–phenotypic traits networks identified many hub miRNAs that regulate a large number of target genes or phenotypic traits. Specifically, we found that intramuscular fat content is regulated by the greatest number of miRNAs in muscle tissue. This study provides valuable new candidate miRNAs that will aid in the improvement of meat quality and production.     

Assignment of the gene for porcine insulin-like growth factor 1 (IGF1) to chromosome 5 by linkage mapping

Investigation of published sequence data from the porcine insulin-like growth factor 1 (IGF1) gene, resulted in the detection of a microsatellite in the first intron of the gene. Polymerase chain reaction (PCR) primers flanking the (CA)₁₉ repeat were constructed. Polymorphism and Mendelian segregation were documented in a three-generation pedigree and allele frequencies were determined in 74 unrelated animals from four different breeds. Seven alleles were encountered. Linkage analysis was performed in a large pedigree established for gene mapping. Linkage between the IGF1 microsatellite and an anonymous microsatellite marker, S0005, was detected. Furthermore, IGF1 and S0005 was found to be linked to the porcine submaxillary gland mucin (MUC) gene, previously assigned to chromosome 5. The results presented here extend the linkage group on pig chromosome 5 and are in accordance with conserved synteny between human chromosome 12, cattle chromosome 5, mouse chromosome 10 and pig chromosome 5.