Project description:pig gut metagenome breed:domesticated animals Transcriptome or Gene expression

Project description:Apostichopus japonicus breed:domesticated Transcriptome or Gene expression

Project description:Sus scrofa breed:domesticated animal Genome sequencing

Project description:The domestic pig (Sus scrofa) provides a large animal model for human innate immune responses and inflammation that is also economically important in its own right. Results: We demonstrate that macrophages can be harvested from 3 different compartments of the pig (lungs, blood and bone-marrow), cryopreserved and subsequently recovered and differentiated in CSF-1. We have performed surface marker analysis and gene expression profiling on macrophages from these compartments, comparing 25 animals from 5 different breeds and their response to lipopolysaccharide. The results provide a clear distinction between alveolar macrophages (AM) and monocyte-derived (MDM) and bone-marrow-derived macrophages (BMDM). In particular, the lung macrophages express the growth factor, Flt1 and its ligand, VEGFA at high levels, suggesting a distinct pathway of growth regulation. We confirm that pig macrophages more closely resemble human, than mouse, in their set of LPS-inducible genes. Relatively few genes showed breed-specific differential expression, notably CXCR2 and CD302 in alveolar macrophages. In contrast, there was substantial inter-individual variation between pigs within breeds, mostly affecting genes annotated as being involved in immune responses. Conclusions: Future research will address whether such variation is heritable, and might form the basis for selective breeding for disease resistance or functional genomics. The domestic pig (Sus scrofa) provides a large animal model for human innate immune responses and inflammation that is also economically important in its own right. We demonstrate that macrophages can be harvested from 3 different compartments of the pig (lungs, blood and bone-marrow), cryopreserved and subsequently recovered and differentiated in CSF-1. We have performed surface marker analysis and gene expression profiling on macrophages from these compartments, comparing 25 animals from 5 different breeds and their response to lipopolysaccharide. The results provide a clear distinction between alveolar macrophages (AM) and monocyte-derived (MDM) and bone-marrow-derived macrophages (BMDM). In particular, the lung macrophages express the growth factor, Flt1 and its ligand, VEGFA at high levels, suggesting a distinct pathway of growth regulation. We confirm that pig macrophages more closely resemble human, than mouse, in their set of LPS-inducible genes. Relatively few genes showed breed-specific differential expression, notably CXCR2 and CD302 in alveolar macrophages. In contrast, there was substantial inter-individual variation between pigs within breeds, mostly affecting genes annotated as being involved in immune responses. Future research will address whether such variation is heritable, and might form the basis for selective breeding for disease resistance or functional genomics. 140 Affymetrix Snowball microarray were analysed from 5 different breed (DR, LR, LW, PIE and HAM). 5 pig per breed were used and cells were harvested from Lungs, blood and bone-marrow (AM, MDM and BMDM). Cells were left untreated (0h) or stimulated with LPS Salmonella enterica serotype minnesota Re 595 - 100ng/ml (7h)

Project description:Gene expression data of micro RNA from skeletal muscle sample of pig breed Duroc and Pietrain at adult stage.

Project description:The domestic pig (Sus scrofa) provides a large animal model for human innate immune responses and inflammation that is also economically important in its own right. Results: We demonstrate that macrophages can be harvested from 3 different compartments of the pig (lungs, blood and bone-marrow), cryopreserved and subsequently recovered and differentiated in CSF-1. We have performed surface marker analysis and gene expression profiling on macrophages from these compartments, comparing 25 animals from 5 different breeds and their response to lipopolysaccharide. The results provide a clear distinction between alveolar macrophages (AM) and monocyte-derived (MDM) and bone-marrow-derived macrophages (BMDM). In particular, the lung macrophages express the growth factor, Flt1 and its ligand, VEGFA at high levels, suggesting a distinct pathway of growth regulation. We confirm that pig macrophages more closely resemble human, than mouse, in their set of LPS-inducible genes. Relatively few genes showed breed-specific differential expression, notably CXCR2 and CD302 in alveolar macrophages. In contrast, there was substantial inter-individual variation between pigs within breeds, mostly affecting genes annotated as being involved in immune responses. Conclusions: Future research will address whether such variation is heritable, and might form the basis for selective breeding for disease resistance or functional genomics. The domestic pig (Sus scrofa) provides a large animal model for human innate immune responses and inflammation that is also economically important in its own right. We demonstrate that macrophages can be harvested from 3 different compartments of the pig (lungs, blood and bone-marrow), cryopreserved and subsequently recovered and differentiated in CSF-1. We have performed surface marker analysis and gene expression profiling on macrophages from these compartments, comparing 25 animals from 5 different breeds and their response to lipopolysaccharide. The results provide a clear distinction between alveolar macrophages (AM) and monocyte-derived (MDM) and bone-marrow-derived macrophages (BMDM). In particular, the lung macrophages express the growth factor, Flt1 and its ligand, VEGFA at high levels, suggesting a distinct pathway of growth regulation. We confirm that pig macrophages more closely resemble human, than mouse, in their set of LPS-inducible genes. Relatively few genes showed breed-specific differential expression, notably CXCR2 and CD302 in alveolar macrophages. In contrast, there was substantial inter-individual variation between pigs within breeds, mostly affecting genes annotated as being involved in immune responses. Future research will address whether such variation is heritable, and might form the basis for selective breeding for disease resistance or functional genomics.

Project description:pig gut metagenome Metagenome

Project description:Pig gut Metagenome

Project description:Pig gut Metagenome

Project description:pig gut Metagenome