Project description:Carnosine is a bioactive food component with several potential health benefits for humans due to its physiological functions. Dietary　supplementation with β-alanine or L-histidine can increase the carnosine content of skeletal muscles in chickens. Dietary supplementation with β-alanine or L-histidine has produced a slow-growing chicken variety　with high carnosine content in the breast meat; however, the　supplementation with L-histidine alone softens the meat toughness, which may affect consumers’ willingness to buy the meat. Gene　expression is a key factor that influences meat quality. Understanding the molecular mechanisms that affect carnosine content and meat toughness would allow the production of more value-added slow-growing chickens. We compared global gene expression in chicken breast muscles with differing carnosine contents and meat toughness produced through dietary supplementation with β-alanine or L-histidine. We identified differentially expressed genes involved in regulating myosin, collagen, intramuscular fat, and calpain—factors that may affect meat tenderness. Pathway enrichment analysis indicated that the insulin-related and adipocytokine signaling pathways were altered by dietary supplementation with β-alanine or L-histidine. These data will be useful for future studies on carnosine content and meat toughness in slow-growing chickens.

Project description:Adding lysolecithin to feed has reportedly improved the performance of broiler chickens. Lysolecithin is generated by phospholipase catalyzed hydrolysis of lecithin. The enzymatic reaction converts phospholipids into lysophospholipids, with lysophosphatidylcholine (LPC) the primary product. Here we compared supplementation with a commercial lysolecithin (Lysoforte(R) Kemin Industries, Inc., Des Moines, IA) with comparable levels of purified LPC for effects on broilers. Despite no differences in weight gain during the starter period, we discovered a significant increase in average villus length in the jejunum with lysolecithin, but not with LPC. High-throughput gene expression microarray analyses revealed many more genes were regulated in the epithelium of jejunum by lysolecithin compared to LPC. The most upregulated genes and pathways were for collagen, extracellular matrix and integrins. Staining sections of jejunum with Sirius Red confirmed the increased deposition of collagen fibrils in villi of broilers fed lysolecithin but not LPC. Thus, lysolecithin elicits gene expression in the intestinal epithelium leading to enhanced collagen deposition and villus length. LPC alone as a supplement does not mimic these responses. Feed supplementation with lysolecithin triggers changes in the intestinal epithelium with the potential to improve overall gut health and performance.

Project description:gut microbiota in Tibetan chickens and Arbor Acres broiler chickens

Project description:Optimization of broiler chicken breast muscle protein accretion is key for the efficient production of poultry meat, whose demand is steadily increasing. In a context where antimicrobial growth promoters use is being restricted, it is important to find alternatives as well as to characterize the effect of immunological stress on broiler chicken growth. Despite of its importance, research on broiler chicken muscle protein dynamics has been mostly limited to the study of mixed protein turnover. The present study aims to characterize the effect of a bacterial challenge and the feed supplementation of a citrus and a cucumber extract on broiler chicken individual breast muscle proteins fractional synthesis rates (FSR) using a recently developed dynamic proteomics pipeline. 21 day-old broiler chickens were administered a single 2H2O dose before being culled at different timepoints. A total of 60 breast muscle protein extracts from five experimental groups (Unchallenged, Challenged, Control Diet, Diet 1 and Diet 2) were analyzed using a DDA proteomics approach. Proteomics data was filtered in order to reliably calculate multiple proteins FSR making use of a newly developed bioinformatics pipeline. Broiler breast muscle proteins FSR uniformly decreased following a bacterial challenge, this change was judged significant for 15 individual proteins, the two major functional clusters identified as well as for mixed breast muscle protein. Citrus or cucumber extract feed supplementation did not show any effect on the breast muscle protein FSR of immunologically challenged broilers. The present study has identified potential predictive markers of breast muscle growth and provided new information on broiler chicken breast muscle protein turnover which could be essential for improving the efficiency of broiler chicken meat production.

Project description:Effect of Aronia Extract (AE) supplementation on cecal microbiome of broiler chickens

Project description:As an essential micronutrient for animals, vitamin E plays crucial physiological roles in reproduction, antioxidant and immune functions, and lipid metabolism. The objective of this study was to reveal molecular mechanism of vitamin E on intramuscular fat (IMF) deposition through transcriptome sequencing of pectoral muscle in broiler chickens. A total of 240 one-day-old health female chicks were randomly allocated into five dietary treatments with each treatment six replicates. The birds were fed basal diet supplemented with 0 and 100 IU/kg vitamin E in the form of DL-α-tocopheryl acetate, respectively. The body weight, carcass performance and IMF content were measured. Transcriptome profile of pectoral muscle in 35-day-old chickens were sequencing from the control and 100 IU/kg vitamin E treatment. Functional enrichment analyzes of differentially expressed genes (DEGs) based on Gene ontology (GO), KEGG pathway and bio function, and network were performed. Results shown that IMF content of broiler chickens were significantly increased at 12.89% (P < 0.05) between 100 IU/kg vitamin E treatment and control. Transcriptome sequencing results for pectoralis major muscle of 100 IU vitamin E-supplemented and the control groups identified 57 up-regulated and 102 down-regulated DEGs. These DEGs were significantly enriched (FDR corrected P-value < 0.05) in 13 of 236 GO terms involved in muscle development- and lipid metabolism. Pathway functional enrichment analysis revealed that the DEGs were significantly enriched in three signalling pathways (FDR corrected P-value < 0.05). Two of them, MAPK signaling pathway and FoxO signaling pathway, play key roles in muscular and lipid metabolism. It is worth mentioning that 46 DEGs were significantly enriched in 28 skeletal and muscular system development and function categories and 31 DEGs were significantly enriched in 17 lipid metabolism function categories. Moreover, three lipid metabolism and muscular development-related networks of DEGs were also identified. These DEGEs, pathways, function categories and networks identified in this study provide us new insights for the vitamin E regulation of the IMF deposition in broiler chickens.

Project description:Dietary isoleucine is a significant determinant of metabolic health and longevity. In this study, we found that even at an advanced age, both male and female mice received significant metabolic benefits from a low isoleucine diet. We collected liver tissues for transcriptomic analysis and the results found that the majority of age-driven changes is ameliorated with the administration of low isoleucine diet.

Project description:Domestic broiler chickens rapidly accumulate adipose tissue due to intensive genetic selection for rapid growth and are naturally hyperglycemic and insulin resistant, making them an attractive addition to the suite of rodent models used for studies of obesity and type 2 diabetes in humans. Furthermore, chicken adipose tissue is considered as poorly sensitive to insulin and lipolysis is under glucagon control. Excessive fat accumulation is also an economic and environmental concern for the broiler industry due to the loss of feed efficiency and excessive nitrogen wasting, as well as a negative trait for consumers who are increasingly conscious of dietary fat intake. Understanding the control of avian adipose tissue metabolism would both enhance the utility of chicken as a model organism for human obesity and insulin resistance and highlight new approaches to reduce fat deposition in commercial chickens. In the present study we simultaneously characterized the effects of a short term (5 hours) fast or neutralization of insulin action (5 hours) on adipose tissue of young (16-17 day-old), fed commercial broiler chickens.

Project description:Effect of microalgae supplementation on cecal microbiome of broiler chickens under heat stress

Project description:Effect of dietary supplementation of solubles from shredded, steam-exploded pine particles modulates cecal microbiome composition in broiler chickens