Proteome changes of sheep rumen epithelium during postnatal development

Abstract: Background: The development of the rumen epithelium is a critical physiological challenge for sheep. However, the molecular mechanism underlying postnatal rumen development in sheep remains rarely understood.Results: Here, we used a shotgun approach and bioinformatics analyses to investigate and compare proteomic profiles of sheep rumen epithelium tissue on day 0, 15, 30, 45, and 60 of age. A total of 4,523 proteins were identified, in which we found 852, 342, 164, and 95 differentially expressed proteins (DEP… Show more

“…Notably, APOA2, GALK1, ADIPOQ, and NDUFS4 were implicated in sheep tail fat deposition and metabolism [59]. A comparative proteomic analysis of rumen epithelial tissues across different sheep ages revealed 4523 proteins, indicating the involvement of processes like glutathione, the Wnt signaling pathway, and the Notch signaling pathway in rumen epithelial cell growth [60]. Moreover, the ubiquitination and post-translational modification of histones emerged as critical molecular elements regulating rumen epithelial development.…”

Pan-Omics in Sheep: Unveiling Genetic Landscapes

“…Notably, APOA2, GALK1, ADIPOQ, and NDUFS4 were implicated in sheep tail fat deposition and metabolism [59]. A comparative proteomic analysis of rumen epithelial tissues across different sheep ages revealed 4523 proteins, indicating the involvement of processes like glutathione, the Wnt signaling pathway, and the Notch signaling pathway in rumen epithelial cell growth [60]. Moreover, the ubiquitination and post-translational modification of histones emerged as critical molecular elements regulating rumen epithelial development.…”

Pan-Omics in Sheep: Unveiling Genetic Landscapes