Abstract
Health benefits of dietary fibers are currently being widely recognized. However, the assessment of dietary fiber as a prebiotic is essential and also important for the development of an improved synbiotic commercial preparation. Thus, the aim of this study was to evaluate the potential of galactomannan extracted from fenugreek seeds as a prebiotic fiber and also its fermentation by the probiotic strain Bacillus coagulansMTCC 5856. Nondigestibility by the gastric acid and pancreatic enzyme hydrolysis of galactomannan were determined using an in vitro model mimicking the in vivo conditions. Further, anaerobic fermentation and utilization of galactomannan by the B. coagulansMTCC 5856 was investigated followed by selective inhibition of Escherichia coliATCC 25922. The galactomannan from fenugreek seeds was found to be nondigestible to gastric acid and also to pancreatic enzymatic hydrolysis. The galactomannan was fermented and utilized (71.4%) by the B. coagulansMTCC 5856, and also significant amount of short-chain fatty acids production was also observed. Furthermore, B. coagulansMTCC 5856 inhibited the E. coliATCC 25922 growth when cocultured with galactomannan suggesting competitive fermentation of probiotic bacteria. Galactomannan exhibited prebiotic activity and also showed suitability with probiotic B. coagulansMTCC 5856 in a synbiotic combination. This study provides the first scientific evidence of galactomannan from fenugreek seeds as a prebiotic that may play an important role in modulating gut flora by acting as substrate to beneficial microbes.
Galactomannan from fenugreek seeds showed resistance to gastric acid and pancreatic enzyme hydrolysis and also supported the growth of probiotic Bacillus coagulans MTCC 5856. Galactomannan exhibited prebiotic activity and also showed suitability with probiotic B. coagulans MTCC 5856 in a synbiotic combination.
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