Evaluation of the Safety of Immobilized Microorganisms Lysobacter sp. on Inorganic Media †

: It is known that the immobilization of microorganisms on carriers of various natures increases their safety. The inorganic matrices used were sodium carboxymethyl cellulose, technical brand “KMC 85/500;” colloidal silicon dioxide in the form of a commercial preparation, “Polysorb;” and the sodium form of montmorillonite from the Podgorenskoye deposit in the Voronezh region. Bacterial cells were immobilized by adding Lysobacter sp. solid sterile carrier with constant mechanical stirring in a “carrier/biomass” ratio equal to 1: (2–4). During the experiment, it was found that the mineral montmorillonite is a promising material for the immobilization of bacterial cells in order to obtain biocompositions based on them, since a positive trend in the preservation of bacterial cells was revealed.


Introduction
Currently, a promising direction in biomedicine is the creation of biofilms and compositions based on microorganisms as antagonists of pathogenic microflora on carriers of various natures [1][2][3].
The aim of the study was to identify a rational inorganic carrier for the immobilization of Lysobacter sp.

Materials and Methods
As a model bacterial culture for immobilization, a Lysobacter culture isolated from the soil of the city of Belgorod using classical biotechnology methods with confirmation of generic affiliation by 16S rRNA sequencing (1484 nucleotides) was used, as a result of which a unique nucleotide sequence of the strain among those presented in GenBank was revealed: the maximum percentage of similarity observed with strain L-43 (MT229166.1) and Lysobacter enzymogenes M497-1 (AP014940.1) was 99.7% each.
As a growth substrate, a liquid nutrient medium containing 0.2 wt% casein and 0.1 wt% yeast extract was used; T = 30 • C; log phase-24 h. The metabolic products were chitosan, beta-1,4-glucanase, and protease.
To study the effect of immobilization of microorganisms and their enzymes, the following solid carriers were used:

2.
Colloidal silicon dioxide in the form of a commercial preparation called "Polysorb," produced by JSC "Polysorb." Polysorb MP (medical oral) is an inorganic, non-selective, multifunctional enterosorbent based on highly dispersed silica with particle sizes up to 0.09 mm and the chemical formula SiO 2 . The sorption capacity of the drug for internal use is 300 m 2 /g.
The immobilization of bacterial cells was carried out by adding Lysobacter sp. in the logarithmic phase of growth to a solid sterile carrier with constant mechanical stirring in the ratio "carrier/biomass," equal to 1:(2-4), at a temperature of 30 • C; the mixture was thoroughly mixed for at least 40 min, frozen at minus 40 • C, and then freeze-dried at minus 40-45 • C for 24 h to a level of 3-7% moisture content of the composition. The dry compositions obtained were then stored in sterile flacons at room temperature.
Survival after immobilization of microorganisms Lysobacter sp. on solid carriers was determined by the Pour Plate method, in which the samples were suspended in a Petri dish using molten agar cooled to about 40-45 • C (just above the solidification point to minimize heat-induced cell death). After the nutrient agar solidified, the plates were incubated for 24 h, and the number of colony-forming units (CFU) was determined by the serial dilution method.
The degree of preservation (α, %) was determined by the following formula: where CFU ref is the number of colony-forming units in the biocomposition immediately after immobilization and CFU n is the number of colony-forming units in the biocomposition after storage on the n-th day.

Conclusions
In summary, a positive trend in the preservation of bacterial cells during immobilization on solid carriers was revealed. It has been established that the most effective matrix for immobilizing Lysobacter sp. is the sodium form of montmorillonite. The obtained research results can be used to create biocompositions based on bacterial cultures for various purposes.