Project description:Background: Marketing products with added-value characteristics is a current trend in livestock production systems. Regarding meat, selection for intramuscular fat and muscular fatty acid composition is a way to improve the palatability and juiciness of meat while assuring a healthy fat content. This represents selecting animal with a different muscular metabolic profile with respect to the extended selection of lean animals. Results: The present study has analysed the muscular gene expression profiles of 68 commercial Duroc pigs belonging to two groups with extreme phenotypes for traits strongly related with lipid deposition and composition. This has allowed us to compare the physiological and metabolic implications of selecting for each of these extreme groups. Rather than upregulation of a single pathway, the main differences lied on the transcriptional levels of genes related with lipogenesis and lipolysis, revealing the existence of a cycle where triacylglycerols are continuously synthesized and degraded. Most strikingly, several genes which enhanced fatty acid β-oxidation and favoured insulin signalling and glucose uptake were upregulated in the fattest animals, indicating that the events leading to peripheral insulin resistance in humans with increased levels of intramuscular fat and obesity do not take place in these pigs. Moreover, neither was detected the well-characterised low-grade inflammatory state observed in overweighed humans. Conclusion: As a whole, our data suggest that selection for increasing intramuscular fat content in pigs would lead to a shift but not a disruption of the metabolic homeostasis of muscle cells. Future studies on the post-translational changes affecting protein activity or expression as well as information about protein location within the cell would be needed to fully understand how lipid deposition affects muscle physiology in pigs. 68 gluteus medius samples form 68 animals belonging to two groups of 34 animals each: HIGH group had higher carcass, plasma and muscle fat content; LOW group had lower carcass, plasma and muscle fat content

Project description:In pigs, most of the lipogenic activity takes place in liver and the adipose tissue. Moreover, liver is responsible for the production and release of lipoproteins, which transports lipids from the liver to target tissues such as adipose and muscle. In the context of animal production, the amount and composition of lipoprotein have an implication in the accumulation of fat in adipose deposits but also in muscle in the form or intramuscular fat. These two events have consequences in the quality of the carcasses and meat. We have measured the level of liver gene expression in 104 commercial Duroc pigs belonging to two groups with extreme phenotypes for traits strongly related with lipid deposition and composition. This has allowed us to compare the physiological and metabolic implications of selecting for each of these extreme groups. This information has been complemented with genome-wide genotyping data in order to describe the implication of the liver transcriptome in the production traits which encompass the production and marketing of the products with consumer and industry-relevant added-value characteristics. 104 liver samples form pigs belonging to two groups of animals: HIGH group (n=53) had higher carcass, plasma and muscle fat content; LOW group (n=51) had lower carcass, plasma and muscle fat content

Project description:In pigs, most of the lipogenic activity takes place in liver and the adipose tissue. Moreover, liver is responsible for the production and release of lipoproteins, which transports lipids from the liver to target tissues such as adipose and muscle. In the context of animal production, the amount and composition of lipoprotein have an implication in the accumulation of fat in adipose deposits but also in muscle in the form or intramuscular fat. These two events have consequences in the quality of the carcasses and meat. We have measured the level of liver gene expression in 104 commercial Duroc pigs belonging to two groups with extreme phenotypes for traits strongly related with lipid deposition and composition. This has allowed us to compare the physiological and metabolic implications of selecting for each of these extreme groups. This information has been complemented with genome-wide genotyping data in order to describe the implication of the liver transcriptome in the production traits which encompass the production and marketing of the products with consumer and industry-relevant added-value characteristics.

Project description:Intramuscular (i.m.) fat content influencing consumer’s acceptability of pork is considered as a limiting factor for meat quality. To gain insight into the biological basis of individual variability in i.m. fat content, both gene expression profiling and proteomic investigation were associated in pig longissimus muscle (LM). Keywords: intramuscular fat, gene expression, pigs, proteomics, microarray, pork meat

Project description:Intramuscular (i.m.) fat content influencing consumer’s acceptability of pork is considered as a limiting factor for meat quality. To gain insight into the biological basis of individual variability in i.m. fat content, both gene expression profiling and proteomic investigation were associated in pig longissimus muscle (LM). Keywords: intramuscular fat, gene expression, pigs, proteomics, microarray, pork meat Animals were sampled from a population of 1,000 pigs generated as an F2 intercross between two production sire lines: FH016 (Pietrain type, France Hybrides SA, St Jean de Braye, France) and FH019 (Synthetic line, from Duroc, Hampshire and Large White founders, France Hybrides SA, St Jean de Braye, France).

Project description:Purpose: This study conducted RNA-Seq analysis on Dingyuan pig individuals with different intramuscular fat content and backfat thickness, in order to find genes that specifically regulate subcutaneous fat and intramuscular fat deposition in pigs

Project description:Intramuscular fat content is a known trait that attributes to meat quality, taste and juiciness. MicroRNAs have been reported to play key role in lipid metabolism, hence in fat deposition. There is little understanding of miRNA regulation of IMF content and identification of these non-coding factors is important for further understanding of pathways involved in intramuscular fat deposition Differentially expressed miRNAs were identified and their gene targets predicted.

Project description:Meat quality is one of the most important traits in pig production. Long non-coding RNAs (lncRNAs) has been involved in diverse biological processes such as muscle development through regulating gene expression. However, studies on lncRNAs lag behind and a comparatively small number of lncRNAs have been identified in pigs. Also, effects of lncRNAs on meat quality remains to be characterized. Here, we analyzed lncRNAs in longissimus thoracis (LT) and semitendinosus (ST) muscles, being different in meat quality, with RNA-sequencing technology. A total of 500 differentially expressed lncRNAs (DELs) and 2094 protein-coding genes (DEGs) were identified. Through KEGG analysis on DELs we first made clear that fat deposition might be the main reason resulting in differential phenotype of LT and ST, on the basis of which 41 key DELs and 50 DEGs involved in differential fat deposition were characterized. One of the key genes, cAMP-response element binding protein 1, was selected to confirm its role in porcine adipogenesis with molecular biology methods and found that it promotes the differentiation of porcine preadipocytes, consistent with its higher expression level and intramuscular fat contents in LT than that in ST muscle. Furthermore, through integrated analysis of DELs and DEGs, transcription factors important for differential fat deposition were characterized among which BCL6 have the most target DEGs while MEF2A was targeted by the most DELs. The results provide candidate genes crucial for meat quality, which will contribute to revealing the molecular mechanisms underlying meat quality

Project description:The content of intramuscular fat (IMF) is closely related to meat quality traits. In this study, in order to explore the candidate genes related to IMF content, the longissimus dorsi muscle of Guangling donkey was measured for intramuscular fat content. According to its intramuscular fat content, it was divided into two groups, the low fat group (L , N=3) and high-fat group (H, n=3), using RNA-seq to identify differentially expressed genes (DGEs) on the longissimus dorsi muscle tissue of Guangling donkey with high and low intramuscular fat content to reveal the possibility Gene network and metabolic pathways that help increase intramuscular fat content. A total of 167 DEGs (|log2Fold Change|>=1 and FDR<0.05) were detected in the high (H) and low (L) groups of Guangling donkeys, of which 64 were up-regulated genes and 103 were down-regulated genes. The GO enrichment and KEGG pathway analysis showed that these differential genes were enriched in several biological processes and pathways related to adipocyte differentiation, lipid biosynthesis, and neutral lipid metabolism. These results will help to further explore the molecular mechanism of IMF deposition in donkeys and provide a theoretical basis for the molecular breeding of Guangling donkeys.

Project description:Background The composition of intramuscular fat depends on genetic and environmental factors, including the diet. In pigs, we identified a haplotype of three SNP mutations in the steaoryl-coA desaturase (SCD) gene promoter associated with higher content of monounsaturated fatty acids in intramuscular fat. The second of these three SNPs (rs80912566, C>T) affected a putative retinol response element in the SCD promoter. The effect of dietary vitamin A restriction over intramuscular fat content is controversial in pigs as it seems to depend on the genetic line and the duration of the restriction. This study aims to investigate changes in the muscle transcriptome in SCD rs80912566_TT and CC pigs fed with and without vitamin A supplement during the fattening period. Results Vitamin A did not affect carcass fattening traits and fatty acid composition in muscle, but we observed an interaction between vitamin A and SCD genotype on the desaturation of muscle fatty acids. The diet without vitamin A supplement tended to enlarge the compositional differences between genotypes. The interaction between diet and genotype was also evident at the transcriptome level, the highest number of differentially expressed genes were detected between SCD rs80912566_TT pigs fed with the two diets. Conclusions Restricting dietary vitamin A during the fattening period did not improve intramuscular fat content despite relevant changes in muscle gene expression, both in coding and non-coding genes. Despite this, there was a significant interaction between the SCD genotype and the dietary vitamin A, which affected the quality of the meat through a change in the saturation index of intramuscular fat and activated general pathways of retinol response in a SCD genotype-dependant manner.