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.     

Identification and characterization of a differentially expressed protein (CAPZB) in skeletal muscle between Meishan and Large White pigs

Actin capping protein beta (CAPZB) protein was identified with considerable differences in the longissimus dorsi muscle between Large White and Meishan pigs using proteomics approach. However, in pigs, the information on CAPZB is very limited. In this study, we cloned and characterized the porcine actin capping protein beta (CAPZB) gene. In addition, we present two novel porcine CAPZB splice variants CAPZB1 and CAPZB2. CAPZB1 was expressed in all twenty tissues. However, CAPZB2 was predominantly expressed in the skeletal muscle and heart. In addition, the two isoforms had different expression profiles during the skeletal muscle development and between breeds. Moreover, the SNP T394G was identified in the coding region of the CAPZB gene, which was significantly associated with the carcass traits including the LFW, CFW, SFT and LEA. Data presented in our study suggests that the CAPZB gene may be a candidate gene of meat production trait and provides useful information for further studies on its roles in porcine skeletal muscle.     

Promoter variant-dependent mRNA expression of the MEF2A in longissimus dorsi muscle in cattle

The myocyte enhancer factor 2A (MEF2A) gene encodes a member of the myocyte enhancer factor 2 (MEF2) protein family that is involved in vertebrate skeletal, cardiac, and smooth muscle development and differentiation during myogenesis. According to recent studies, MEF2 genes might be major regulators of postnatal skeletal muscle growth; thus, they are considered to be important, novel candidates for muscle development and body growth in farm animals. The aim of the present study was to search for polymorphisms in the bovine MEF2A gene and analyze their effect on the MEF2A mRNA expression level in the longissimus dorsi muscle of Polish Holstein-Fresian cattle. In total, 4094?bp of the whole coding sequence and the promoter region of MEF2A were re-sequenced in 30 animals, resulting in the detection of 6 novel variants as well as one previously reported SNP. Three linked mutations in the promoter region (-780T/G, g.-768T/G, and g.-222A/G) and only two genotypes were identified in two Polish breeds (TTA/TTA and TTA/GGG). Three SNPs in the coding region [g.1599G/A (421aa), g.1626G/A (429aa), and g.1641G/A (434aa)] appeared to be silent substitutions and segregated as two intragene haplotypes: GGG and AAA. Expression analysis showed that the mutations in the promoter region are highly associated with the MEF2A mRNA level in the longissimus dorsi muscle of bulls carrying two different genotypes. The higher MEF2A mRNA level was estimated in the muscle of bulls carrying the TTA/TTA (p<0.01) genotype as compared with those with TTA/GGG. The results obtained suggest that the nucleotide sequence mutation in MEF2A might be useful marker for body growth traits in cattle.     

Association of 3 polymorphisms in porcine troponin I genes (TNNI1 andTNNI2) 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.     

Discovery of porcine miRNA‐196a/b may influence porcine adipogenesis in longissimus dorsi muscle by miRNA sequencing

Intramuscular fat (IMF) is one of the fat traits that has economic importance in the pork industry. Longissimus dorsi muscle contains IMF and is suitable for studying adipogenesis. To discover further potential regulatory miRNAs that may influence adipogenesis, we analyzed miRNA in the longissimus dorsi muscle of Yorkshire (YY, lean‐type) and Chinese Wannanhua (WH, fatty) pigs using miRNA sequencing (miRNA‐seq). From this dataset, we identified 598 unique miRNAs comprising 325 pre‐miRNAs and 273 novel pre‐miRNAs through comparison with known miRNAs in miRBase version 21. We found 42 miRNAs including nine up‐ and 33 down‐regulated between the YY and WH pigs. Moreover, we found two miRNAs, miR‐196a/b (miR‐196a, miR‐196b‐5p), that had the highest level of expression in WH pigs, and miR‐196a/b may influence porcine adipogenesis in longissimus dorsi muscle through an adipocytokine signaling pathway.     

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.     

Effects of new polymorphisms in the bovine myocyte enhancer factor 2D (MEF2D) gene on the expression rates of the longissimus dorsi muscle

Myocyte enhancer factor 2D (MEF2D), a product of the MEF2D gene, belongs to the myocyte enhancer factor 2 (MEF2) protein family which is involved in vertebrate skeletal muscle development and differentiation during myogenesis. The aim of the present study was to search for polymorphisms in the bovine MEF2D gene and to analyze their effect on MEF2D mRNA and on protein expression levels in the longissimus dorsi muscle of Polish Holstein-Friesian cattle. Overall, three novel variations, namely, insertion/deletion g.-818_-814AGCCG and g.-211C   

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。     

猪骨骼肌MyHC-Ⅱb基因上调表达的分子机制

哺乳动物骨骼肌由各种不同类型的肌纤维镶嵌而成,不同类型肌球蛋白重链的表达是造成不同类型肌纤维的主要原因.目前已知的肌球蛋白重链家族包含8种亚型,其中长白猪骨骼肌My HC-Ⅱb的表达量显著高于中国地方猪,然而造成这种差异的分子机制未见报道.本研究用荧光定量PCR证明了长白猪背最长肌中My HC-Ⅱb m RNA的表达量显著高于莱芜猪(P=0.013).删除实验结果表明,从转录起始位点上游-1024 bp删除到-187 bp之后,My HC-Ⅱb表达量显著下降,分析发现,在这段启动子区域内存在3个E-box序列;分别突变这3个E-box序列后,My HC-Ⅱb启动子驱动的荧光素酶活性显著下降(P=0.036).另外,在My HC-Ⅱb上游启动子区?1398 bp处发现一个GT的突变,所检测的64头莱芜猪在该位点全部为GG型,65头长白猪中13头为GG型,16头为TT型,36头为GT型.在C2C12细胞系中的转染实验结果显示,G突变为T之后有增加My HC-Ⅱb表达的趋势.Western blot的结果表明,转录因子Myo D在两猪种间表达差异不显著(P=0.136),而Myf-5在长白猪中的表达量极显著高于其在莱芜猪中的表达量(P=0.0036).这些数据表明,Myf-5是造成猪My HC-Ⅱb基因m RNA上调表达的重要因素之一.     

Expression and genome polymorphism of ACSL1 gene in different pig breeds

Acyl coenzyme A long-chain 1 synthetase (ACSL1) plays a key role in animal fat synthesis and fatty acid β-oxidation. In order to research the function of the ACSL1 gene in pig, we analyzed the mRNA expression in liver, backfat and longissimus dorsi muscle by quantitative real-time PCR in Tibet pig (TP, n = 10), Diannan small ear pig (DSP, n = 10) and large white pig (LW, n = 10). The results showed that the mRNA expressions of the ACSL1 gene in liver and longissimus dorsi muscle of DSP and TP were significant higher than that of LW (P < 0.01). However, the expression in backfat of LW was significant higher than that of TP (P < 0.01) and DSP (P < 0.05). In addition, four SNPs located in 5' flanking region (T-1191C), exon 6(G173A), exon 14(C36T) and exon 17(T46C) were identified, and the allele frequencies of the four SNPs were significant different in indigenous and introduced pig breeds. The results indicated that the ACSL1 gene might be relative to the capacity of fat deposition and meat quality in pig breeds.     

Breed difference and regulation of the porcine adipose triglyceride lipase and hormone sensitive lipase by TNFα

Adipose triglyceride lipase (ATGL) and hormone sensitive lipase (HSL) are major novel triglyceride lipases in animals. The aim of this study was to determine if there are differences in the porcine ATGL ( pATGL ) and HSL genes between Jinhua pigs (a fatty breed) and Landrace pigs (a leaner breed). In addition, the effect of TNFα and pATGL-specific siRNA ( pATGL-siRNA ) on the expression of pATGL and HSL in porcine adipocytes was also examined. Compared with Landrace pigs, the body weight ( BW ) of Jinhua pigs was lower ( P <  0.01), while intramuscular fat content (in the longissimus dorsi muscle), as well as the back fat thickness and body fat content were higher ( P <  0.01). The expression of pATGL and HSL mRNA in Jinhua pigs was lower ( P <  0.01) in subcutaneous adipose tissue, and greater ( P <  0.01) in longissimus dorsi muscle compared with Landrace pigs. In vitro treatment of porcine adipocytes with TNFα decreased ( P <  0.01) the glycerol release and the gene expression of pATGL , HSL and PPARγ in porcine adipocytes. Furthermore, transfection with pATGL-siRNA significantly decreased ( P <  0.01) the expression of pATGL , while it had no effect on the expression of HSL . Treatment with 25 ng/ml TNFα in conjunction with pATGL-siRNA significantly decreased ( P <  0.01) the expression of pATGL and HSL in cultured porcine adipocytes. These results provide useful information to further the understanding of the function of pATGL and HSL in porcine lipid metabolism, which should be applicable to the regulation of fat deposition and improvement of meat quality.     

The microRNA expression profile in porcine skeletal muscle is changed by constant heat stress

Heat stress has profound effects on animal performance and muscle function, and microRNAs (miRNAs) play a critical role in muscle development and stress responses. To characterize the changes in miRNAs in skeletal muscle responding to heat stress, the miRNA expression profiles of longissimus dorsi muscles of pigs raised under constant heat stress (30 °C; n = 8) or control temperature (22 °C; n = 8) for 21 days were analyzed by Illumina deep sequencing. A total of 58 differentially expressed miRNAs were identified with 30 down‐regulated and 28 up‐regulated, and 63 differentially expressed target genes were predicted by miRNA–mRNA joint analysis. GO and KEGG analyses showed that the genes regulated by differentially expressed miRNAs were enriched in glucose metabolism, cytoskeletal structure and function and stress response. Real‐time PCR showed that the mRNA levels of PDK4, HSP90 and DES were significantly increased, whereas those of SCD and LDHA significantly decreased by heat exposure. The protein levels of CALM1, DES and HIF1α were also significantly increased by constant heat. These results demonstrated that the change in miRNA expression in porcine longissimus dorsi muscle underlies the changes in muscle structure and metabolism in porcine skeletal muscle affected by constant heat stress.     

Subcellular localization, expression patterns, SNPs and association analyses of the porcine HUMMLC2B gene

Myosin regulatory light chain (MLC) regulates myofilament activation via phosphorylation by Ca²⁺ dependant myosin light chain kinase. In order to further understand the functions of the porcine fast myosin regulatory light chain gene (HUMMLC2B) in muscle, the subcellular localization, the temporal and spatial distributions of its gene product were analyzed, and the association between the presence of specific polymorphisms and commercial meat traits in pig was also examined. HUMMLC2B was demonstrated to localize both in the cytoplasm and the nucleus by confocal fluorescence microscopy. Real-time PCR further revealed HUMMLC2B expression variation in a waveform manner in the skeletal muscle of both Chinese Tongcheng and Western Landrace pig breeds at days 33, 65 and 90 post coitum (pc). After birth, the expression levels of HUMMLC2B were also found to decrease gradually with age. Our spatial expression analysis showed that HUMMLC2B was highly expressed in the semitendinosus, gastrocnemius, biceps femoris and longissimus dorsi muscles. In contrast, only low levels of expression of this gene were evident in fat, and no expression was detectable in brain, heart, kidney, lung, liver, lymph node, spleen, stomach, or in either large or small intestine. A total of 23 potential polymorphisms, comprising 3 exonic and 20 intronic, were detectable in the porcine HUMMLC2B gene and the G1094A, T1513C, G1876A and T2005G polymorphisms were further analyzed. The significant associations between the T1513C, G1876A and T2005G polymorphisms with marbling score, dressing percent and meat color, respectively, were identified (P < 0.05). Associations with the percentage of leaf fat could also be demonstrated by analysis of haplotypes harboring these three polymorphisms. Our current results thus shed further light on the roles and functions of the HUMMLC2B gene in muscle.     

QTL mapping for growth and carcass traits in an Iberian by Landrace pig intercross: additive,dominant and epistatic effects

Results from a QTL experiment on growth and carcass traits in an experimental F2 cross between Iberian and Landrace pigs are reported. Phenotypic data for growth, length of carcass and muscle mass, fat deposition and carcass composition traits from 321 individuals corresponding to 58 families were recorded. Animals were genotyped for 92 markers covering the 18 porcine autosomes (SSC). The results from the genomic scan show genomewide significant QTL in SSC2 (longissimus muscle area and backfat thickness), SSC4 (length of carcass, backfat thickness, loin, shoulder and belly bacon weights) and SSC6 (longissimus muscle area, backfat thickness, loin, shoulder and belly bacon weights). Suggestive QTL were also found on SSC1, SSC5, SSC7, SSC8, SSC9, SSC13, SCC14, SSC16 and SSC17. A bidimensional genomic scan every 10 cM was performed to detect interaction between QTL. The joint action of two suggestive QTL in SSC2 and SSC17 led to a genome-wide significant effect in live weight. The results of the bidimensional genomic scan showed that the genetic architecture was mainly additive or the experimental set-up did not have enough power to detect epistatic interactions.