Molecular cloning,sequence analysis and tissue-specific expression of Akirin2 gene in Tianfu goat

The Akirin2 gene is a nuclear factor and is considered as a potential functional candidate gene for meat quality. To better understand the structures and functions of Akirin2 gene, the cDNA of the Tianfu goat Akirin2 gene was cloned. Sequence analysis showed that the Tianfu goat Akirin2 cDNA full coding sequence (CDS) contains 579 bp nucleotides that encode 192 amino acids. A phylogenic tree of the Akirin2 protein sequence from the Tianfu goat and other species revealed that the Tianfu goat Akirin2 was closely related with cattle and sheep Akirin2. RT-qPCR analysis showed that Akirin2 was expressed in the myocardium, liver, spleen, lung, kidney, leg muscle, abdominal muscle and the longissimus dorsi muscle. Especially, high expression levels of Akirin2 were detected in the spleen, lung, and kidney whereas lower expression levels were seen in the liver, myocardium, leg muscle, abdominal muscle and longissimus dorsi muscle. Temporal mRNA expression showed that Akirin2 expression levels in the longissimus dorsi muscle, first increased then decreased from day 1 to month 12. Western blotting results showed that the Akirin2 protein was only detected in the lung and three skeletal muscle tissues.     

Molecular cloning, sequence identification and expression analysis of novel caprine MYLPF gene

Skeletal muscle genes are important potentially functional candidate genes for livestock production and meat quality. Myosin regulatory light chain (MLC) regulates myofilament activation via phosphorylation by Ca²⁺ dependent myosin light chain kinase. The cDNA of the myosin light chain, phosphorylatable, fast skeletal muscle (MYLPF) gene from the longissimus dorsi of Tianfu goat was cloned and sequenced. The results showed that MYLPF full-length coding sequence consists of 513 bp and encodes 170 amino acids with a molecular mass of 19.0 kD. Two EF-hand superfamily domain of MYLPF gene conserved between caprine and other animals. The deduced amino acid sequence of MYLPF shared significant identity with the MYLPF from other mammals. A phylogenetic tree analysis revealed that the caprine MYLPF protein has a close genetic relationship and evolutional distance with MYLPF in other mammals. Analysis by RT-PCR showed that the MYLPF mRNA was detected in heart, liver, spleen, lung, kidney, gastrocnemius, abdominal muscle and longissimus dorsi. In particular, high expression levels of MYLPF mRNA were detected in the longissimus dorsi, gastrocnemius and abdominal muscle, and low level of expressions were observed in liver, spleen, lung and kidney. In addition, the temporal expression analysis further showed MYLPF expression decreased gradually with age in the skeletal muscle. This may be important as muscle growth occurs mainly in young age in goats. Western blotting results detected the MYLPF protein in four of the tissues in which MYLPF was shown to be expressed; the four exceptions were liver, spleen, lung and kidney.     

生长激素基因的克隆和表达及其对贵州地方黄牛骨骼肌细胞增殖的影响

本研究旨在探究生长激素(Growth hormone,GH)对贵州地方黄牛骨骼肌细胞增殖的表达调控,探明超表达GH基因对骨骼肌细胞增殖的影响.首先利用反转录PCR扩增黄牛GH基因的蛋白质编码区(Coding sequence,CDS),将其克隆至pUCM-T载体,并连接转化构建超表达载体pEGFP-N3-GH.同时使用...     

Expression,SNV identification,linkage disequilibrium,and combined genotype association analysis of the muscle-specific gene CSRP3 in Chinese cattle

The cysteine and glycine-rich protein 3 (CSRP3) plays an important role in the myofiber differentiation. Here, we identified five SNVs in all exon and intron regions of the CSRP3 gene using DNA sequencing, PCR-RFLP and forced-PCR-RFLP methods in 554 cattle. Four of the five SNVs were significantly associated with growth performance and carcass traits of the cattle. In addition, we evaluated haplotype frequency and linkage disequilibrium coefficient of five sequence variants. The result of haplotype analysis demonstrated 28 haplotypes present in Qinchuan and two haplotypes in Chinese Holstein. Only haplotypes 1 and 8 were being shared by two populations, haplotype 14 had the highest haplotype frequency in Qinchuan (17.4%) and haplotype 8 had the highest haplotype frequency in Chinese Holstein (94.4%). Statistical analyses of combined genotypes indicated that some combined genotypes were significantly or highly significantly associated with growth and carcass traits in the Qinchuan cattle population. qPCR analyses also showed that bovine CSRP3 gene was exclusively expressed in longissimus dorsi muscle and heart tissues. The data support the high potential of the CSRP3 as a marker gene for the improvement of growth performance and carcass traits in selection programs.     

Cell death-inducing DFFA-like effector c (CIDEC/Fsp27) gene: molecular cloning, sequence characterization, tissue distribution and polymorphisms in Chinese cattles

Cell death-inducing DFFA-like effector c (CIDEC) protein, also known as fat specific protein 27 (Fsp27), is localized to lipid droplets. CIDEC protein is required for unilocular lipid droplet formation and optimal energy storage in addition to controlling lipid metabolism in adipocytes and hepatocytes. Research found that Ad-36 could induce lipid droplets in the cultured skeletal muscle cells and this process may be mediated by promoting CIDEC expression. The content of intermuscular fat is an important index for evaluation of beef quality, so the CIDEC gene appeared to be a candidate gene for regulation of intermuscular fat, however similar research for the bovine CIDEC gene is lacking. This paper examined the tissue expression profile of CIDEC gene in cattle using real-time RT-PCR to suggest that bovine CIDEC is highly expressed in adipose tissue. In addition, the Bovine CIDEC gene was cloned and inserted into the eukaryotic expression vector pET-28a(+), whereupon recombinant bovine CIDEC protein was induced and identified by Western-blot. A phylogenetic analysis showed that the animo acid sequence of bovine CIDEC was closer to mammalian CIDEC than rasorial CIDEC. We found ten single nucleotide polymorphisms sites (SNPs) in bovine CIDEC gene, of which SNP 2, 3, 4, 6 and 9, and SNP 8 and 10 were in complete linkage disequilibrium, respectively. SNP 1, 2 and 10 were used in further haplotype studies. Eight different haplotypes were identified in 973 cattle, of which haplotype 8 predominated with frequencies ranging from 42.90 to 54.30 %. This research provides a basis for future functional studies of CIDEC in cattle.     

Construction, characterization and expression of full length cDNA clone of sheep YAP1 gene

RT-PCR, 5′RACE, 3′RACE were used to clone sheep full length cDNA sequence of YAP1 (Yes-associated protein 1), eukaryotic expression plasmid and a mutant that cannot be phosphorylated at Ser42 was successfully constructed. The amino acid sequence analysis revealed that sheep YAP1 gene encoded water-soluble protein and its relative molecular weight and isoelectric point was 44,079.0 Da and 4.91, respectively. Sub-cellular localization of YAP1 was in the nucleus, it is hydrophilic non-transmembrane and non-secreted protein. YAP1 protein contained 33 phosphorylation sites, seven glycosylation sites and two WW domains. The secondary structure of YAP1 was mainly composed of random coil, while the tertiary structure of domain area showed a forniciform helix structure. YAP1 gene was expressed in different tissues, the highest expression was in kidney and the lowest was in hypothalamus. The CDS of sheep YAP1was amplified by RT-PCR from healthy sheep longissimus dorsi muscle, cloned into pMD19-T simple vector by T/A ligation. YAP1 coding region was further sub-cloned into pEGFP-C1 vector by T4 Ligase to construct a eukaryotic expression plasmid and then make the eukaryotic expression vector as the template to construct the phosphorylation site mutant. PCR, restriction enzyme and sequencing were used to confirm the recombinant plasmid. The sheep full-length YAP1 cDNA sequence is 1712 in length encoding 403 amino acids. It was confirmed that the sheep YAP1 CDS was correctly inserted into eukaryotic expression vector and serine had been mutated to alanine by PCR, restriction digestion and sequencing. The result showed that the recombinant plasmid pEGFP-C1-YAP1 and pEGFP-C1-YAP1 S42A was constructed correctly, this will help for further studies on the YAP1 protein expression and its biological activities.     

Identification and expression of the elongator protein 2 (Ajelp2) gene,a novel regeneration-related gene from the sea cucumber Apostichopus japonicus

Elongator proteins comprise six subunits (ELP1–ELP6) and form protein complexes. The elongator protein 2 gene (elp2) encodes a protein with a WD40 repeats domain that acts as a scaffold for complex assembly. It also plays an important role in growth and development. In this study, the full-length cDNA of elongator protein 2 (Ajelp2) was cloned from the sea cucumber Apostichopus japonicus (A. japonicus) using rapid amplification of cDNA ends PCR techniques and comprised 3,058 bp, including a 54 bp 5′ untranslated (UTR), a 526 bp 3′ UTR and a 2,478 bp open reading frame encoding a polypeptide of 825 amino acids. The Ajelp2 sequence showed high homology to 12 other species. The molecular weight and isoelectric of point the presumptive protein were 91.6 kDa and 5.84, respectively. In situ hybridization indicated that the gene is expressed in the body wall, intestine, respiratory tree and longitudinal muscle. The expression level of Ajelp2 increased in recovering of organs in sea cucumber and showed it’s the highest expression level at the 15th day in the intestine and respiratory tree. Its expression then gradually decreased to normal levels. In the body wall, the expression level of Ajelp2 was up-regulated and then down-regulated. These results indicated that Ajelp2 is involved in protein regulation during the regeneration process in the sea cucumber A. japonicus.     

Molecular cloning and tissue distribution of the phosphotyrosine interaction domain containing 1 (PID1) gene in Tianfu goat

Phosphotyrosine interaction domain containing 1 (PID1) is an important mediator in the development of obesity-related insulin resistance in humans and animals. For a better understanding of the structure and function of the PID1 gene and to study its effect in caprine, the cDNA of the PID1 gene from the abdominal muscle of Tianfu goat was cloned and sequenced. The structure of PID1 was analyzed using bioinformatics tools. The results showed that the full sequence of the caprine PID1 cDNA was 896 bp long and contained a 654 bp long coding region that encoded a 217 amino acid sequence. Fifteen phosphorylation sites were predicted in the translated PID1 protein. The protein had a phosphotyrosine-binding domain between Arg⁵³ and Ile¹⁹⁹. A phylogenic tree based on the PID1 proteins from other species revealed that the caprine protein was closely related to cattle PID1. Fluorescence quantitative PCR analyses revealed that PID1 was expressed in the heart, liver, spleen, lung, kidney, leg muscle, abdominal muscle and longissimus dorsi muscle of goats. In particular, high expression levels of PID1 were detected in liver and abdominal muscle, and low expression levels were seen in lung. Furthermore, the PID1 mRNA expression levels in the longissimus dorsi muscles increased gradually with the age of the goats (P < 0.05). Western blotting results detected the PID1 protein in six of the tissues in which PID1 was shown to be expressed; the two exceptions were liver and spleen.     

mRNA expression pattern and association study with growth traits of bovine vaspin gene

Visceral adipose tissue-derived serine protease inhibitor (vaspin) is an interesting novel adipocytokine with insulin-sensitizing effects. Some studies have suggested that vaspin could play an important role in the development of obesity and metabolic disorders. However, the tissue expression patterns in cattle and impact of vaspin gene variants on the growth traits has not been determined yet. Herein, we firstly investigated the tissue expression patterns of vaspin gene in new born and adult cattle. The results showed that vaspin was ubiquitously expressed in most tissues and strongly expressed in the heart, skeletal muscle and fat. Then, genetic variants within bovine vaspin gene were screened in 1235 individuals from five Chinese indigenous cattle breeds. Two novel mutations in coding region (NW_001494061: g.1124477 G>A and g.1118561 T>C) of bovine vaspin gene were identified using MspI PCR–RFLP and HhaI ACRS PCR–RFLP detection. Association analysis revealed both two mutations were significantly associated with bodyweight and chest girth at 24 months in cattle (P < 0.05). Therefore, the MspI and HhaI genetic variants of bovine vaspin gene were recommended as DNA markers related to growth traits through marker-assisted selection for genetics and breeding in cattle.     

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.     

Expression of modified xynA gene fragments from Bacillus subtilis BE-91

Expression of modified xynA gene fragments in Escherichia coli BL21 was studied, using the complete xynA gene from Bacillus subtilis BE-91 as the positive control. The technical workflow consisted of the following steps: (1) predicting protein structures relative to the xynA gene; (2) designing primers for modifiers; (3) amplifying the modifiers; (4) integrating the modifiers with the pET-28a(+) vector; (5) transferring the recombinant plasmids into E. coli BL21; (6) evaluating and analyzing the expression of modified cells. The results were: (1) the xynA gene from BE-91 with the untranslated region deleted on both ends was able to promote XynA activity by 28.9 %; (2) deletion of the 1- to 16-amino acid (AA) coding sequence in the open reading frame on the 5′-end, deletion of the 209- to 213-AA fragment on the 3′-end and deletion of the 20 AA on both ends could promote XynA activity by 27.2, 27.7 and 24.0 %,respectively; (3) deletion of the 1- to 29-AA fragment on the 5′-end and deletion of the 197- to 213-AA fragment on the 3′-end could reduce XynA activity dramatically by 95.6 and 74.8 %, respectively; (4) inactivation factors of XynA would be either the first β-fold and the hydrophilic structure domain or the last two α-screws and the seventeenth turn region. The results mean that any deletion in the catalytic domain would lead to a decline or inactivation in XynA activity while the deletion of any sequence outside the catalytic domain could effectively promote XynA activity, as such sequences are unnecessary for XynA function.     

The polymorphisms of LYRM1 gene and their association with body measurement and ultrasound traits of Qinchuan cattle

Body measurement and meat quality traits which play important roles in the assessment of productivity and economy in cattle were influenced by genes and environmental factors. Latest studies showed that LYR motif containing 1 (LYRM1) may be involved in influencing fatness deposition in animals. The objective of this study was to detect bovine LYRM1 gene polymorphism and analyze its association with body measurement and meat quality traits of cattle. Blood samples were taken from a total of 404 Qinchuan cattle aged from 18–24 months. Created restriction site-polymerase chain reaction-restriction fragment length polymorphism (CRS-PCR–RFLP) and DNA sequencing were used to find out LYRM1 single polymorphism nucleotide (SNPs). Sequence analysis of LYRM1 gene revealed two SNPs (g.165 C > A, g.193 A > G) in 3′ untranslated region (3′UTR) of exon 3. And g.165 C > A showed two genotypes namely AC and CC while g.193 A > G showed three genotypes: AA, AG and GG. Analysis results showed that there were significant associations between polymorphism of these two and body measurement and meat quality traits in Qinchuan cattle population. Based on the results obtained from this study, it is inferred that LYRM1 gene may have potential effects on body measurement and meat quality traits in Qinchuan cattle population and could be used for marker-assisted selection.