Chicken gut microbiota plays an important role in maintaining their physiological health. However, the cultivability of chicken gut microbiota is not well understood, limiting the exploration of certain key gut bacteria in regulating intestinal health and nutritional metabolism. This study aimed to examine the cultivability of chicken cecal microbiota and to provide guidance for future chicken gut microbiota cultivation. A total of 58 different culture conditions were applied to culture broiler cecal microbiota, and the culture-dependent (CD; pooled colonies form each plate) and culture-independent (CI; broiler cecal contents) samples were collected for 16S rRNA gene sequencing and microbial analysis. The CD methods detected higher microbial richness (3,636 vs 2,331 OTUs) than CI methods, and the recovery rates of bacterial OTUs and genera reached 43.6% and 68.9%, respectively. The genera of Bacteroides (19.9%), Alistipes (11.0%) and Barnesiella (10.7%) were highly abundant detected by CI methods, however, there occupied a small proportion (<1.0%) of total cultured microbiota in CD methods. We then developed reference figures and tables showing optimal cultivation conditions for different gut bacteria taxa. Moreover, 81 different lactic acid bacteria strains covering 5 genera were isolated, and 15 strains had less than 97.0% similarity to known bacteria in the national center for biotechnology information (NCBI) online database. Overall, this study provides preliminary guidance in culturing specific gut microbiota from chickens, which will contribute to future studies to characterize the biological functions of key microbes in chicken nutritional metabolism and health.
Keywords: 16S rRNA sequencing; chicken; culturomics; gut microbes; lactic acid bacteria.
© 2024. Science China Press.