The 16S rDNA high-throughput sequencing correlation analysis of milk and gut microbial communities in mastitis Holstein cows.

This study aimed to understand the changes in the milk and gut microbiota of dairy cows with mastitis, and to further explore the relationship between mastitis and the microbiota. In this study, we extracted microbial DNA from healthy and mastitis cows and performed high-throughput sequencing using the Illumina NovaSeq sequencing platform. OTU clustering was performed to analyze complexity, multi-sample comparisons, differences in community structure between groups, and differential analysis of species composition and abundance. The results showed that there were differences in microbial diversity and community composition in the milk and feces of normal and mastitis cows, where the diversity of microbiota decreased and species abundance increased in the mastitis group. There was a significant difference in the flora composition of the two groups of samples (P < 0.05), especially at the genus level, the difference in the milk samples was Sphingomonas (P < 0.05) and Stenotrophomonas (P < 0.05), the differences in stool samples were Alistipes (P < 0.05), Flavonifractor (P < 0.05), Agathobacter (P < 0.05) and Pygmaiobacter (P < 0.05). In conclusion, the microbiota of the udder and intestinal tissues of dairy cows suffering from mastitis will change significantly. This suggests that the development of mastitis is related to the endogenous pathway of microbial intestinal mammary glands, but the mechanisms involved need further study.

Preparation of polyclonal antibody against phosphatidylethanolamine binding protein 1 recombinant protein and its functional verification in pulmonary hypertension syndrome in broilers.

Pulmonary hypertension syndrome (PHS) is a disease that is difficult to overcome for fast-growing broilers. It causes pulmonary vascular remodeling and ascites in broilers. As a classical inhibitor of cancer metastasis, phosphatidylethanolamine binding protein 1 (PEBP1) regulates angiogenesis in the process of tumor metastasis through multiple signal pathways. However, whether PEBP1 can regulate pulmonary artery remodeling in broilers with PHS has not been reported. This study constructed the prokaryotic expression vector of [PEBP1]-pET32a by genetic engineering technology, the recombinant PEBP1 protein was expressed in large quantities, and the PEBP1 polyclonal antibody was prepared by immunizing rabbits with the recombinant PEBP1 protein. Western blot and immunofluorescence results showed that PEBP1 was expressed in many kinds of animal tissues. However, due to the species specificity of polyclonal antibodies, the expression level of PEBP1 protein in broilers and ducks with high homology was significantly higher than that in other species of animals. More interestingly, we found that the expression of PEBP1 protein decreased significantly in broilers with PHS. These studies laid a foundation for further exploration of the mechanism of pulmonary artery remodeling. In addition, the PEBP1 polyclonal antibody provided convenience for further study of the role of PEBP1 in PHS.