Isolation of cellulolytic bacterial strains from Rangifer tarandus rumen microflora
2019
Dubrovin, A., BIOTROF+, OOO, St. Petersburg (Russian Federation) | Dunyashev, T., BIOTROF+, OOO, St. Petersburg (Russian Federation) | Ilina, L., BIOTROF+, OOO, St. Petersburg (Russian Federation) | Filippova, V., BIOTROF+, OOO, St. Petersburg (Russian Federation) | Laishev, K., North-West Centre for Interdisciplinary Research on Food Security Problems, Saint Petersburg (Russian Federation)
The feature of the microorganisms of rumen microbiocenosis is the ability to form a number of digestive enzymes, including cellulases, which allows ruminants use the energy of feeds rich in fiber. Microorganisms that are promising as a source of cellulases, biodestructors of toxins having antagonistic properties against pathogens for creating probiotic feed additives, both for reindeer and for other livestock, were isolated from the reindeer rumen. The aim of the study was to create a collection of microorganisms that are promising for creating a biopreparation. As a result, collections of 63 associations of microorganisms decomposing cellulose and carboxymethylcellulose were created; their morphology and cultural properties were described. It was found that the amount of cellulose degradation was 44 – 62% in the 4 most active isolates (No 14, 15, 21 and 26). The obtained data allowed to make a conclusion about the ability of bacterial strains isolated from the rumen to synthesize cellulolytic enzymes carrying out cellulose biodegradation, which allows them to gain a competitive advantage in the rumen of the reindeer diets with an abundance of cellulose. Isolates No 14 and 15 showed high antagonistic activity to Fusarium sporotrichioides, and isolate No 15 and 16 showed high antagonistic activity to Fusarium oxysporum. Isolate No 15 showed a wider antifungal activity compared to other isolates. Among all isolated strains, this bacterial isolate is represented as having a large spectrum of activities, including both high cellulolytic and high antifingal activity.
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