D Ouwerkerk1, A V Klieve, R J Forster. 1. Queensland Beef Industry Institute, Agency for Food and Fibre Sciences, Department of Primary Industries, Moorooka, Queensland, Australia. diane.ouwerkerk@dpi.qld.gov.au
Abstract
AIMS: To develop a real-time Taq nuclease assay (TNA) to enable the in vivo enumeration of Megasphaera elsdenii. METHODS AND RESULTS: Megasphaera elsdenii YE34 was phenotypically characteristic of the species and had 16S rDNA sequence similarity of 98% to previously described isolates. Calibration of the number of cells of M. elsdenii against the cycle threshold of fluorescent dye release gave a straight-line relationship with a correlation coefficient approximating unity. The specificity of the assay for M. elsdenii was confirmed by performing it against a panel of 24 heterogeneous, mainly ruminal bacteria. Megasphaera elsdenii was not detected in ruminal contents from a pasture-fed steer but was readily detected 2 and 50 h after the probiotic introduction of the bacterium into the rumen. CONCLUSIONS: Real-time TNA has provided a sensitive and specific means of enumerating the M. elsdenii population in rumen contents. SIGNIFICANCE AND IMPACT OF THE STUDY: Megasphaera elsdenii is an important lactate-degrading ruminal bacterium that has been selected for probiotic use to prevent acidosis and enhance starch utilization in grain-fed cattle. The assay developed in this study provides a tool for determining the ability of probiotically-introduced M. elsdenii to establish useful populations in the rumen.
AIMS: To develop a real-time Taq nuclease assay (TNA) to enable the in vivo enumeration of Megasphaera elsdenii. METHODS AND RESULTS:Megasphaera elsdenii YE34 was phenotypically characteristic of the species and had 16S rDNA sequence similarity of 98% to previously described isolates. Calibration of the number of cells of M. elsdenii against the cycle threshold of fluorescent dye release gave a straight-line relationship with a correlation coefficient approximating unity. The specificity of the assay for M. elsdenii was confirmed by performing it against a panel of 24 heterogeneous, mainly ruminal bacteria. Megasphaera elsdenii was not detected in ruminal contents from a pasture-fed steer but was readily detected 2 and 50 h after the probiotic introduction of the bacterium into the rumen. CONCLUSIONS: Real-time TNA has provided a sensitive and specific means of enumerating the M. elsdenii population in rumen contents. SIGNIFICANCE AND IMPACT OF THE STUDY: Megasphaera elsdenii is an important lactate-degrading ruminal bacterium that has been selected for probiotic use to prevent acidosis and enhance starch utilization in grain-fed cattle. The assay developed in this study provides a tool for determining the ability of probiotically-introduced M. elsdenii to establish useful populations in the rumen.
Authors: S C Fernando; H T Purvis; F Z Najar; L O Sukharnikov; C R Krehbiel; T G Nagaraja; B A Roe; U Desilva Journal: Appl Environ Microbiol Date: 2010-09-17 Impact factor: 4.792
Authors: Julio E Vargas; Sonia Andrés; Timothy J Snelling; Lorena López-Ferreras; David R Yáñez-Ruíz; Carlos García-Estrada; Secundino López Journal: Front Microbiol Date: 2017-06-20 Impact factor: 5.640