Project description:Obese and lean pig breeds showed obvious phenotypic variations and physiological differences in skeletal muscle growth. Prenatal muscle development programs postnatal performance. In this study we initially conducted full transcriptional profiling of prenatal skeletal muscle from Tongcheng pigs (obese) and Landrace pigs (lean) at 33, 65 and 90 days post coitus (dpc), using long serial analysis of gene expression (LongSAGE). We subsequently sequenced 317,115 LongSAGE tags and identified 1400 and 1201 differentially expressed transcripts that showed eight expression patterns for Tongcheng and Landrace, respectively. These two breeds had more significant differences in their gene expression profiles at 65 than that at 33 and 90 dpc. We also identified 532, 653 and 459 transcripts that were differentially expressed at 33, 65 and 90 dpc between the two breeds, respectively. The cellular function of the differentially expressed transcripts that matched annotated genes revealed that each stage had a uniquely altered profile between the two breeds in various functional categories including muscle fiber constitute and contraction, apoptosis, protein synthesis, and signalling transduction. Our results suggest that skeletal muscle development potentially has a greater lag in its growth rate at 33-65 dpc in Tongcheng pigs when compared with their Landrace counterparts. Our analyses therefore not only will provide valuable resources in the further identification of candidate genes for meat production traits, but also assist in the elucidation of the development of prenatal skeletal muscle in pigs and other vertebrates. Keywords: comparative transcriptome analysis

Project description:Obese and lean pig breeds showed obvious phenotypic variations and physiological differences in skeletal muscle growth. Prenatal muscle development programs postnatal performance. In this study we initially conducted full transcriptional profiling of prenatal skeletal muscle from Tongcheng pigs (obese) and Landrace pigs (lean) at 33, 65 and 90 days post coitus (dpc), using long serial analysis of gene expression (LongSAGE). We subsequently sequenced 317,115 LongSAGE tags and identified 1400 and 1201 differentially expressed transcripts that showed eight expression patterns for Tongcheng and Landrace, respectively. These two breeds had more significant differences in their gene expression profiles at 65 than that at 33 and 90 dpc. We also identified 532, 653 and 459 transcripts that were differentially expressed at 33, 65 and 90 dpc between the two breeds, respectively. The cellular function of the differentially expressed transcripts that matched annotated genes revealed that each stage had a uniquely altered profile between the two breeds in various functional categories including muscle fiber constitute and contraction, apoptosis, protein synthesis, and signalling transduction. Our results suggest that skeletal muscle development potentially has a greater lag in its growth rate at 33-65 dpc in Tongcheng pigs when compared with their Landrace counterparts. Our analyses therefore not only will provide valuable resources in the further identification of candidate genes for meat production traits, but also assist in the elucidation of the development of prenatal skeletal muscle in pigs and other vertebrates. Keywords: comparative transcriptome analysis Three Tongcheng and Landrace sows were mated with the same boar of each corresponding breed, respectively. The sows were then sacrificed at a commercial slaughterhouse and the uteri containing the embryos were collected immediately. The longissimus muscle tissues were then rapidly dissected from each of the embryos at 33, 65 and 90 dpc for both the Tongcheng and Landrace pigs. These samples were snap-frozen in liquid nitrogen and stored at -80°C until further use in the LongSAGE experiments. For the skeletal muscles from the six different samples, that is, Tongcheng (T33, T65 and T90, respectively) and Landrace (L33, L65 and L90, respectively), equal quantities of total RNA from each individual (n=4) were pooled. Six LongSAGE libraries were subsequently generated using I-SAGETM Long kits (Invitrogen, USA) according to the manufacturer’s instructions. Transforming clones were sequenced with the help of an ABI PRIZM 3730 DNA sequencer.

Project description:a 4D-label free detection method using LC-MS/MS was employed to analyze the skeletal muscle samples from different pig breeds

Project description:In order to gain insight into hepatic metabolic pathways and key transcripts affecting traits related to body composition we aimed to compare samples of pigs of two breeds, the “obese” German Landrace (DL) and the “lean” Pietrain (Pi) obtained at prenatal stages (35, 63, and 91 days post conceptionem) and at adult age (180 days). In terms of number of genes regulated the most striking differences between DL and Pi were found at adult age with upregulation of key genes of lipid biosynthesis/metabolism pathways (FASN, ACSS2, ACACA) in obese DL pigs on the one hand and upregulation of genes of cell growth and/or maintenance, protein syntheses as well as cell proliferation pathways (PPARD, POU1F1, IGF2R) in lean Pi pigs on the other hand. Time course analysis of expression profiles of breed differences from foetal to adult stage and functional cluster analysis of the biological processes confirmed the trend of differences between genetically different obese and lean breeds. The highlighted classes of genes showed common breed-typical expression throughout prenatal development and at adult age. The transcriptional differences between obese and lean pigs involving lipid pathways and cell activity are already initiated during early prenatal development. The information about genetic differences between obese and lean pigs reveals a number of functional candidate genes for traits related to obesity and leaness. Keywords: pig, oligo-microarray, prenatal liver expression, adult liver expression, obesity, leaness

Project description:To obtain an overview of the transcriptome landscape in developing pig skeletal muscle, 81 high-quality transcriptome libraries that covered 27 developmental stages (3 biological replicates per stage) in pig skeletal muscle were produced by strand-specific rRNA-depleted total RNA sequencing (RNA-seq). We generated 8.59 billion paired-end reads (150 bp × 2) covering 1.24 Tb of sequence for RNA-seq.

Project description:In order to gain insight into hepatic metabolic pathways and key transcripts affecting traits related to body composition we aimed to compare samples of pigs of two breeds, the “obese” German Landrace (DL) and the “lean” Pietrain (Pi) obtained at prenatal stages (35, 63, and 91 days post conceptionem) and at adult age (180 days). In terms of number of genes regulated the most striking differences between DL and Pi were found at adult age with upregulation of key genes of lipid biosynthesis/metabolism pathways (FASN, ACSS2, ACACA) in obese DL pigs on the one hand and upregulation of genes of cell growth and/or maintenance, protein syntheses as well as cell proliferation pathways (PPARD, POU1F1, IGF2R) in lean Pi pigs on the other hand. Time course analysis of expression profiles of breed differences from foetal to adult stage and functional cluster analysis of the biological processes confirmed the trend of differences between genetically different obese and lean breeds. The highlighted classes of genes showed common breed-typical expression throughout prenatal development and at adult age. The transcriptional differences between obese and lean pigs involving lipid pathways and cell activity are already initiated during early prenatal development. The information about genetic differences between obese and lean pigs reveals a number of functional candidate genes for traits related to obesity and leaness. Porcine liver from three prenatal stages (35, 63, and 91 day post conceptionem, dpc) plus adult age (180 days) of 10 animals of each of the breeds DL and Pi, which differ in body composition, were collected. The hepatic gene expression patterns of DL and Pi breeds were compared at each of the four stages of development. Three or four biological replicate microarray hybridisations were performed for each stage with DL pools labelled with Cy5 and Pi pools labelled with Cy3.

Project description:Obese and lean-type pig breeds show obvious differences in adipose deposition and muscle growth; however, the molecular mechanisms underlying this phenotypic variation remains unclear. Landrace (a leaner, Western breed), Rongchang (a fatty, Chinese breed) and Tibetan (a feral, indigenous Chinese breed that has not undergone artificial selection) pig breeds were used in this study. We collected eight diverse adipose tissues and two phenotypically distinct skeletal muscle tissues from three well-defined pig models with distinct fat rates, and studied mRNA expression differences among breeds, males and females, and tissues. These results highlight some possible candidate genes for porcine adipose deposition and muscle growth and provide some data on which to base further studies of the molecular basis of energy metabolism. The mRNA expression differences of eight diverse adipose tissues and two phenotypically distinct skeletal muscle tissues from three well-defined pig models with distinct fat rates are measured.

Project description:MicroRNAs Expression Profiles Differ between Primary Myofiber of Lean and Obese Pigs breeds

Project description:To obtain an overview of the methylome landscape in the developing pig skeletal muscle, 81 high-quality whole-genome bisulfite sequencing(WGBS) libraries that covered 27 developmental stages (3 biological replicates per stage) from embryonic day 33 (E33) to postnatal day 180 (D180) were produced by whole-genome bisulfite sequencing.

Project description:Comparative transcriptomic analysis of skeletal muscle tissue during prenatal stages in Tongcheng and Yorkshire Pig using RNA-seq