RU2301256C1 - Liquid nutrient medium for culturing cholera vibrio - Google Patents

Abstract

FIELD: biotechnology, microbiology.

SUBSTANCE: invention proposes a nutrient medium containing soybean enzymatic hydrolyzate with the content of amine nitrogen 0.08%, sodium chloride, sodium hydrogen phosphate, sodium sulfite and distilled water. Invention provides preparing qualitative and inexpensive nutrient medium for culturing cholera vibrio. Invention can be used in preparing nutrient media used for isolation and culturing cholera vibrio.

EFFECT: improved and valuable properties of nutrient medium.

3 ex

Description

The invention relates to microbiology, namely to obtain nutrient media that create optimal conditions for the isolation and cultivation of cholera vibrio.

In bacteriological research on cholera, various nutrient media are used: liquid enrichment media, elective, differential diagnostic media and a set of media for identification (Labinskaya A.S., 1978; Methodological guidelines, MU 44.22.11097-02). The basis of known nutrient media are products of animal origin - peptone, meat water, extract of young meat, etc.

The disadvantage of this environment is its high cost.

Closest to the proposed nutrient medium is a medium for the cultivation of cholera vibrio, containing, g / l: pancreatic hydrolyzate of casein 4.0; pancreatic hydrolyzate of feed yeast 4.0; as a nutrient base - sodium chloride 5.0; disubstituted sodium phosphate 0.4; sodium pyrosulphate (meta-bisulfite) 0.5; and distilled water to a liter. (Handbook of microbiological culture media. Edited by M. Medzhidov, M. Makhachkala, 1989. p.66.).

The disadvantage of this environment is its high cost, the complexity of the preparation.

The aim of the invention is to obtain high-quality, cheap nutrient medium for the cultivation of cholera vibrio.

The essence of the invention lies in the fact that the nutrient medium contains a nutrient base - an enzymatic hydrolyzate of soybeans and a stimulating additive - sodium sulfite.

Soy is used as a raw material, the fruits of which - beans contain an average of 40% protein, in addition, soy is rich in trace elements and vitamins. As is known (Y.P. Yupta, 1987), soy proteins are characterized by an increased content of glutamic and aspartic acids, which supply macroergic bonds. Soy proteins also contain a large number of essential amino acids such as lysine, leucine, arginine. There is also information about the ability of leucine as a branched chain amino acid to initiate protein synthesis (E.I. Chazov, H.S. Morgan, / USA / 1989).

The preparation of a nutrient base for growing microorganisms is as follows. Fruits of soybeans in an amount of 0.5 kg are soaked five times in 5 l of hot water for 1 day, and the last infusion with beans is boiled for 40 minutes. Then the infusion is poured into a 10 liter cylinder, cooled, the beans are minced with a meat grinder and placed in the infusion. The cattle pancreas is added at the rate of 20.0 per 1 liter, the pH is adjusted to 8.2 with a 20% sodium hydroxide solution in an amount of 3 ml, and 1% chlorophoma is added. Hydrolysis is carried out in a heat chamber at a temperature of 37 ° C for 3 days. For the first 2 hours, the mixture is stirred every 15 minutes, for 5 minutes; thereafter, the mixture is stirred every 6 hours. The level of amine nitrogen is measured daily, which was 0.6 ± 0.05% on day 3.

A nutrient medium based on soy enzymatic hydrolyzate for growing microorganisms is prepared in the following way. An enzymatic hydrolyzate from soybeans, diluted with distilled water to an amine nitrogen reading of 0.08% 110 ml, sodium chloride 5.0; disubstituted sodium phosphate 4.0; distilled water - up to 1 liter.

The medium is boiled until the ingredients are completely dissolved, filtered through a cloth and filter paper, then the pH is adjusted to 7.8 ± 0.1 using a 20% sodium hydroxide solution, and a stimulant is added: sodium sulfate at a concentration of 0-4 g / l. The finished medium is poured into graduated 100 ml vials and sterilized in an autoclave at 0.5 atm for 30 minutes. According to the guidelines for determining the quality of nutrient media for growing cholera vibrio (Instructions for bacteriological control of diagnostic nutrient media for cholera vibrio), a culture of avirulent strain NAG - vibrio R-9741 is prepared. Why culture stored on semi-liquid agar, seeded in 1% peptone water or Marten broth (pH 7.6-7.8). After 18-20 hours of growth, smooth colonies of the NAG vibrio R-9741 were selected from the agar, and they were transferred to agar plates (2-passage). The culture is grown for 3-6 hours at 37 ° C, after which it is used for control. A 4 bw suspension equal to 5 units was prepared from the daily culture. according to the optical turbidity standard according to the GISK named after L.A. Tarasevich. Then, serial ten-fold dilutions in physiological saline in a volume of 4.5 ml were adjusted to a content of 1 ml of 1000 and 100 MK From the dilution data, suspension of cultures was sown in 0-1 ml sterile bacteriological pipette in 3 bottles of experimental and control medium. As the latter, a pre-tested high-quality 1% peptone water prepared using distilled water is used. Crops are incubated at 37 ° C for 6 hours, after which from each bottle the Chaplevsky loop No. 5 is sown from the surface onto a Petri dish with a pre-calibrated high-quality solid medium. Cultivation is carried out at 37 ° C. A nutrient medium liquid is considered suitable if, when sowing 100 m.k. 100 ml of the test strain after 6 hours of cultivation and subsequent plating on agar plates grow at least 10 and 1 colonies, respectively. Assessment of the growth properties of the nutrient medium is carried out by counting the number of grown colonies of cholera vibrio when sowing the contents of the vials on plates with a dense nutrient medium.

Example 1. The test strain was grown on a nutrient medium containing, g / l: soy enzymatic hydrolyzate (beans) 60.0; sodium chloride 4.0; disubstituted acid phosphate sodium 3.0; sodium sulfite 0.3; distilled water up to 1 liter. With this ratio of ingredients, the number of colonies grown on dense agar plates for cholera vibrio seeded from vials at a sowing dose of 100 and 10 mk was 10 and 1 colonies, respectively.

Example 2. The test strain was grown on a nutrient medium containing, g / l: enzymatic soy hydrolyzate (beans) - 110.0; sodium chloride 5.0; disubstituted acid phosphate sodium 4.0; sodium sulfide 0.4; distilled water - up to 1 liter. With this ratio of ingredients, the number of colonies grown on dense agar plates for cholera vibrio seeded from vials at a sowing dose of 100 and 10 m.k., amounted to 39 and 8 colonies, respectively.

Example 3. The test strain was grown on a nutrient medium containing, g / l; soybean enzymatic hydrolyzate (beans) 160.0; sodium chloride 6.0; sodium phosphate disubstituted 5-0; sodium sulfite 0.5; distilled water - up to 1 liter. With this ratio of ingredients, the number of colonies grown on dense agar plates for cholera vibrio seeded from vials at a sowing dose of 100 and 10 m.k. was 13 and 1 colonies, respectively.

Thus, the claimed nutrient medium liquid for the cultivation of cholera vibrio, example 2, prepared on the basis of an enzymatic hydrolyzate of soybeans (beans), can be used for the cultivation of cholera vibrio as cost-effective.

Claims (1)

Liquid nutrient medium for the cultivation of cholera vibrio, containing a nutrient base, sodium chloride, sodium phosphate disubstituted and distilled water, characterized in that it additionally contains sodium sulfite as a stimulating additive, and an enzymatic hydrolyzate of soybeans with an amine nitrogen content as a nutrient base 0.08% in the following ratio of components, g / l: enzymatic hydrolyzate soybeans with content amine nitrogen 0.08% 60.0-160.0 sodium chloride 4.0-6.0 sodium phosphate disubstituted 3.0-5.0 sodium sulfite 0.3-0.5 distilled water rest