Y.-Y. Fan scite author profile

Y.-Y. Fan

3Publications

11Citation Statements Received

109Citation Statements Given

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Affiliations

Yangzhou University, Texas A&M University

Publications

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Use of Differential Rumen Fluid-Based Carbohydrate Agar Media for Culturing Lactose-Selected Cecal Bacteria from Chickens

Fan

Ricke

Scanlan

et al. 1995

Journal of Food Protection

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A rumen fluid-based differential carbohydrate agar medium for enumerating chicken cecal carbohydrate-utilizing bacteria was tested. Eleven bacteria isolated from a continuous-flow culture that had been seeded with chicken cecal contents were inoculated on fifteen different media in an anaerobic environment. These media included various levels of rumen fluid (0%, 5%, 10%, 16%) and carbohydrate (glucose [GLU], galactose [GAL], lactose[LAC]). Viable cell recovery (colony-forming units [CFU]/direct cell counts × 100%) was higher for 16% rumen fluid-supplemented carbohydrate media than the lower concentrations of rumen fluid-supplemented carbohydrate media. In addition, average viable cell recovery of all 11 bacteria on differential carbohydrate media were significantly (P < 0.05) higher in galactose and lactose media than on the glucose media. Data indicated that 16% rumen-fluid based media can be used to enumerate anaerobic, lactose-fermenting subgroups of chicken cecal bacteria.

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Ambient pH regulates lactate catabolism pathway of the ruminal Megasphaera elsdenii BE2-2083 and Selenomonas ruminantium HD4

Fan

Xia

Jin

et al. 2022

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Aims:To explore the impact of ambient pH on lactate catabolism by Megasphaera elsdenii BE2-2083 and Selenomonas ruminantium HD4 in both pure culture and in binary mixed culture. Methods and results:The growth rate, substrate consumption, product formation, enzymatic activity and gene expression of M. elsdenii and S. ruminantium at various pHs were examined. Furthermore, the metabolism of lactate catabolism pathways for M. elsdenii and S. ruminantium in the co-culture system was investigated by chasing the conversion of sodium L-[3-13 C]-lactate in nuclear magnetic resonance. In the pure culture systems, ambient pH had significant effects on the growth of M. elsdenii, whereas S. ruminantium was less sensitive to pH changes. In addition, lactate metabolic genes and activities of key enzymes were affected by ambient pH in M. elsdenii and S. ruminantium. In the co-culture system, low ambient pH reduced the contribution lactate catabolism by M. elsdenii. Conclusion: M. elsdenii BE2-2083 and S. ruminantium HD4 lactate degradation affected by ambient pH. Significance and impact of the study: This study demonstrates the regulatory mechanisms of lactate decomposing bacteria in lactate catabolism under the condition of subacute ruminal acidosis.

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Lactate transport and metabolism in rumen epithelial cells in SARA condition

Fan

Zhao

et al. 2023

Italian Journal of Animal Science

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Y.-Y. Fan

Use of Differential Rumen Fluid-Based Carbohydrate Agar Media for Culturing Lactose-Selected Cecal Bacteria from Chickens

Ambient pH regulates lactate catabolism pathway of the ruminal Megasphaera elsdenii BE2-2083 and Selenomonas ruminantium HD4

Lactate transport and metabolism in rumen epithelial cells in SARA condition

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