RU2171585C2 - Method of preparing liquid or dry bacterial ferment for fermented-milk foodstuffs production - Google Patents

Abstract

FIELD: microbiological and dairy industry. SUBSTANCE: strain Lactobacillus acidophilus n. v. 317/402 "Narinae" AAA is used for preparing liquid or dry bacterial ferment. Strain is cultured in growth nutrient medium containing 20% suspension of corn extract, sodium selenite and defatted milk with 9-13% of dry matter content. Then the prepared mother ferment is cultured in growth nutrient medium containing milk with 14-18% of dry matters content and sodium citrate at its concentration in milk (0.3-0.6) x 10^-2 wt. -%. Culturing is carried out to final titer of living bacterial cells (4.0- 8.0) x 10⁹/1 ml of liquid ferment. For preparing dry ferment the liquid ferment is mixed with protective medium, frozen and dried. Method involves the additional use of ascorbic acid and/or amino acid α-cystine as a component of the growth nutrient medium for preparing mother ferment. EFFECT: increased activity of ferment, prolonged time of storage of liquid and dry form of ferment. 4 cl, 8 ex

Description

 The invention relates to the microbiological and food industries and can be used for the production of dairy products in dairy plants and farms.

A known method of producing a liquid bacterial starter culture for the production of dairy products, which involves sterilizing and cooling to a temperature of 36 - 39 ^o C a mixture of cultures of Lactobacillus acidophilus in an amount of 1.2 - 2.0 wt.%, Fermentation to obtain a clot with an acidity of 65 - 100 ^o T and cooling to 6 ^o C followed by exposure for 3-12 hours. The acidity of the finished liquid starter culture is 100 - 170 ^o T (RU 2035872, A 23 C 9/12, publ. 27.05.95).

There is a method of preparing dry bacterial starter culture for the production of fermented milk products, which includes heat treatment of milk with a solids content of 14-16% and cooling it to a fermentation temperature, introducing acidophilic cultures into milk, culturing the strain in milk to (3.7-4, 0) • 10 ⁹ billion living cells in 1 ml of liquid starter culture, followed by freezing for 10-12 hours and freeze drying (RU 2002425, A 23 C 9/12, publ. 15.11.93).

 The disadvantage of this method is that when using this yeast in liquid form, the shelf life does not exceed 2 weeks.

 There is also known a method for producing liquid or dry bacterial starter culture for the production of fermented milk products, which includes obtaining the mother liquor of Lactobacillus acidophilus on a growth medium, heat treating skim milk, cooling to the fermentation temperature and introducing the mother liquor of Lactobacillus acidophilus into it, culturing and holding it with subsequent packaging liquid starter culture or freezing and drying for 24-30 hours. Before exposure to the product, amino acids are added in an amount of not more than 10 mg per 100 kg of product (RU 2005384, A 23 C 9/12, publ. 15.01.94).

 The disadvantage of this method is that the leaven obtained by this method, both liquid and dry, has low shelf life.

The closest technical solution is a method for producing liquid or dry bacterial starter culture for the production of fermented milk products, which involves sterilization of skim milk with a solids content of 10-12%, cooling to a temperature of 39 ^o C, adding a 20% sterile aqueous solution of corn extract and with stirring 1.5 wt. % fresh laboratory culture of pure culture of Lactobacillus acidophilus. The mixture is maintained at a temperature of 38 ± 1 ^o C for 6 to 8 hours to obtain a uterine yeast. Then prepare the growth medium of the following composition, wt. %: sodium citrate 0.3 • 10 ^-2 and milk with a solids content of 14-17%. The growth medium is sterilized, cooled to a temperature of 39 ^o C and uterine yeast is added to it. The mixture is maintained at a temperature of 38 ± 1 ^o C for 4 to 6 hours. The resulting production sourdough is kept at a temperature of 5-8 ^o C for at least 2 hours and in the case of using the sourdough in liquid form, packaged in containers.

To obtain a dry starter culture, the liquid industrial starter culture is mixed with a standard protective medium, poured into glass bottles, closed with rubber stoppers and frozen at -51 - -55 ^o C for 18-20 hours, freeze-dried for 20 - 22 hours. The bacterium titer after drying of the product is 1.0 • 10 ⁹ cells / ml (RU 2120762, A 23 C 9/12, publ. 10.27.98).

 The disadvantage of this method is that the leaven has insufficient antimicrobial activity.

 The technical result consists in increasing the activity of the starter culture and increasing the shelf life of it in liquid and dry form.

The essence of the invention lies in the fact that to obtain a liquid or dry bacterial starter culture, uterine starter culture is prepared by cultivating the strain Lactobacillus acidophilus nv 317/402 "Narine" AAA in a growth medium containing skim milk with a solids content of 9 to 13%, an aqueous suspension of 20 % corn extract and sodium selenite in a concentration of (1.25 - 1.6) • 10 ^-6 wt.% in the following ratio of components, wt.%:
Aqueous suspension of 20% corn extract - 1.5-5.0
Sodium Selenite - (1.25-1.6) • 10 ^-6
Skim milk with a solids content of 9-13% - Else
Then the obtained uterine ferment is introduced into a sterilized growth medium cooled to the fermentation temperature, including milk with a solids content of 14-18 wt.% And sodium citrate, the concentration of which in milk is (0.3 - 0.6) • 10 ^-2 wt. %, and cultured for 12-18 hours to obtain the final titer of bacteria (2 - 5) • 10 ⁹ live bacterial cells in 1 ml of liquid starter culture.

Ascorbic acid is additionally introduced into the growth medium in a final concentration (4.0 - 5.5) • 10 ^-2 wt.% And / or α-cystine in a final concentration (1.0-2.5) • 10 ^-2 wt. .%.

 A high percentage of 14 - 18% of the dry milk residue compared to the normalized 8 - 10% provides an increase in the antibiotic (antagonistic) properties of lactobacilli, and also allows to obtain a denser and more stable homogeneous clot of biomass with a higher concentration of lactobacilli.

 Corn extract contains amino acids, growth factors and amine nitrogen, which are well absorbed by the cells and stimulate their growth and development, which increases the number of cells in the uterine yeast.

 Ascorbic acid in a nutrient medium provides faster creation of anaerobic conditions for cell cultivation and higher resistance of lactobacilli to damaging factors.

 The decrease in the quantitative content of the components of the growth medium below the average limit reduces the biotiter of the starter culture, its antagonistic properties and shelf life.

 An increase in the quantitative content of components of the growth medium above the upper limit leads to a rise in the cost of sourdough without a significant improvement in quality.

 Strain Lactobacillus acidophilus n.v. 317/402 Narine AAA has high acid-forming activity and antagonistic properties against opportunistic and pathogenic microorganisms. It has high vitamin-forming ability, increased productivity of interferon in human unicellular cells as factors that play a decisive role in antiviral and anticancer protection, which affects physiological processes in the body. The strain also has a high growth rate, which is a positive point for production. The strain has a high content of aromatic substances up to 6.9 mg /%, amino acids up to 23 mg%, ascorbic acid up to 1.20 mg%, riboflavin up to 1680 mg% and exhibits cellulotic activity.

 Strain Lactobacillus acidophilus n.v. 317/402 "Narine" AAA was deposited in the All-Russian collection of industrial microorganisms VKPM В 7747 and the collection of cultures of microorganisms of the SSC "Vector" under the number V-741 as intended for the preparation of dry and tabletted preparation "Narine".

 To better ensure the vitamin-synthesizing ability of the strain Lactobacillus acidophilus n.v. 317/402 "Narine" AAA in a dairy environment, it is enriched with the amino acid α-cystine, which is necessary to accelerate the synthesis of B vitamins. In addition, α-cystine is used as a means of enhancing anaerobiosis, as well as enzyme activity.

 Sodium Selenite enhances energy supply and energy protection of cells.

 Sodium citrate is used as a means to stabilize the milk mixture during its sterilization, it prevents the coagulation of casein with a high content of milk solids.

 Examples of the preparation of liquid or dry bacterial starter culture "Narine" for the production of dairy products.

 Example 1

Skim milk with a solids content of 9% is sterilized, cooled to a temperature of 39 ^o C, add to it 1.5 wt.% 20% aqueous solution of corn extract, sodium selenite in a concentration of 1.25 • 10 ^-6 wt.%. With stirring, 1.5 wt.% Laboratory ferment of pure culture is introduced strain Lactobacillus acidophilus nv 317/402 "Narine" AAA. The mixture is kept at a temperature of 37 ^o C for 8 hours to obtain a uterine yeast. Then prepare the growth medium of the following composition, wt.%:
Sodium citrate - 0.3 • 10 ^-2
Milk with a solids content of 14% - The rest
The growth medium is sterilized, cooled to a temperature of 39 ^o C, add uterine yeast in it in an amount of 2%, kept in a thermostat at a temperature of 37 ^o C for 6 hours. The resulting production yeast is kept at a temperature of 5-8 ^o C for at least 2 hours and Packed in liquid form in a container. The titer of live bacterial cells in 1 ml of liquid starter culture is 4.0 • 10 ⁹ cells / ml.

To obtain a dry starter culture, the liquid industrial starter culture is mixed with a standard protective medium (a mixture of sucrose with gelatin), poured into glass bottles, closed with rubber stoppers and frozen at a temperature of minus 51 ^o C for 22 hours and subjected to freeze drying for 20 hours. The titer of bacteria after drying is 3.0 • 10 ⁹ cells / ml.

 Example 2

Skim milk with a solids content of 13% is sterilized, cooled to a temperature of 39 ^o C, add to it 5 wt.% 20% aqueous solution of corn extract, sodium selenite in a concentration of 1.6 • 10 ^-6 wt.% And with stirring 1.5 wt.% laboratory ferment of pure culture of Lactobacillus acidophilus strain nv 317/402 Narine AAA is introduced. The mixture is maintained at a temperature of 39 ^o C for 6 hours to obtain a uterine yeast. Then prepare the growth medium of the following composition, wt.%:
Sodium citrate - 0.6 • 10 ^-2
18% solids milk - Other
The growth medium is sterilized, cooled to a temperature of 39 ^o C, add uterine yeast in it in an amount of 2%, kept in a thermostat at a temperature of 37 ^o C for 4 hours. The resulting production yeast is kept at a temperature of 5-8 ^o C for at least 2 hours and Packed in liquid form in a container. The titer of live bacterial cells in 1 ml of liquid starter culture is 8.0 • 10 ⁹ cells / ml.

To obtain a dry starter culture, the liquid industrial starter culture is mixed with a standard protective medium, poured into glass bottles, closed with rubber stoppers and frozen at a temperature of minus 55 ^o C for 20 hours and subjected to freeze drying for 20 hours. The titer of bacteria after drying is 7.0 • 10 ⁹ cells / ml.

 Example 3

Bacterial starter culture in liquid or dry form is obtained analogously to example 1, with the only difference being that ascorbic acid is additionally introduced into the growth medium upon receipt of the mother yeast in the following ratio, wt.%:
Aqueous suspension of 20% corn extract - 1.5
Ascorbic acid - 4.0-10 ^-2
Sodium Selenite - 1.25 • 10 ^-6
Skim milk with a solids content of 9% - Else
The titer of industrial bacterial starter culture in liquid form is 5.0 • 10 ⁹ cells / ml. The bacterium titer after freeze drying of the starter culture is 4.0 • 10 ⁹ cells / ml.

 Example 4

Bacterial starter culture in liquid or dry form is obtained analogously to example No. 2, with the only difference being that ascorbic acid is additionally added to the growth medium upon receipt of the mother liquor in the following ratio, wt.%:
Aqueous suspension of 20% corn extract - 5.0
Ascorbic acid - 5.5-10 ^-2
Sodium Selenite - 1.6 • 10 ^-6
Skim milk with a solids content of 13% - Else
The titer of industrial bacterial starter culture in liquid form is 6.5 • 10 ⁹ cells / ml. The bacterium titer after freeze drying the starter culture is 5.5 • 10 ⁹ cells / ml.

 Example 5

The bacterial starter culture in liquid or dry form is obtained analogously to example 1 with the only difference that the amino acid α-cystine is additionally introduced into the growth medium upon receipt of the mother yeast in the following ratio, wt.%:
Aqueous suspension of 20% corn extract - 1.5
Sodium Selenite - 1.25 • 10 ^-6
α-cystine - 1.0 • 10 ^-2
Skim milk with a solids content of 9% - Else
The titer of industrial bacterial starter culture in liquid form is 6.0 • 10 ⁹ cells / ml. The bacterium titer after freeze drying the starter culture is 5.0 • 10 ⁹ cells / ml.

 Example 6

The bacterial starter culture in liquid or dry form is obtained analogously to example 2 with the only difference that the amino acid α-cystine is additionally introduced into the growth medium upon receipt of the mother yeast in the following ratio, wt.%:
Aqueous suspension of 20% corn extract - 5.0
Sodium Selenite - 1.6 • 10 ^-6
α-cystine - 2.5 • 10 ^-2
Skim milk with a solids content of 13% - Else
The titer of industrial bacterial starter culture in liquid form is 8.0 • 10 ⁹ cells / ml. The bacterium titer after freeze drying of the starter culture is 7.0 • 10 ⁹ cells / ml.

 Example 7

Bacterial starter culture in liquid or dry form is obtained analogously to example 1 with the only difference that ascorbic acid and the amino acid α-cystine are additionally introduced into the growth medium upon receipt of the uterine starter culture in the following ratio, wt.%:
Aqueous suspension of 20% corn extract - 1.5
Sodium Selenite - 1.25 • 10 ^-6
Ascorbic acid - 4.0 • 10 ^-2
α-cystine - 1.0 • 10 ^-2
Skim milk with a solids content of 9% - Else
The titer of industrial bacterial starter culture in liquid form is 8.0 • 10 ⁹ cells / ml. The bacterium titer after freeze drying the starter culture is 6.0 • 10 ⁹ cells / ml.

 Example 8

Bacterial starter culture in liquid or dry form is obtained analogously to example 2, with the only difference being that ascorbic acid and α-cystine are additionally added to the growth medium upon receipt of the mother yeast in the following ratio, wt.%:
Aqueous suspension of 20% corn extract - 5.0
Sodium Selenite - 1.6 • 10 ^-6
Ascorbic acid - 2.5 • 10 ^-2
α-cystine - 5.5 • 10 ^-2
Skim milk with a solids content of 13% - Else
The titer of industrial bacterial starter culture in liquid form is 9.0 • 10 ⁹ cells / ml. The bacterium titer after freeze drying the starter culture is 8.0 • 10 ⁹ cells / ml.

Bacterial starter culture in liquid form is stored at a temperature of 8-10 ^o C for 2.5 months while maintaining its activity, and in dry form for 1.5 years.

Claims (4)

1. A method of obtaining a liquid or dry bacterial starter culture for the production of dairy products, comprising cultivating Lactobacillus acidophilus on a growth medium containing skim milk and an aqueous suspension of 20% corn extract to obtain a mother yeast, adding it to a sterilized growth medium cooled to a fermentation temperature , containing milk and sodium citrate, cultivation, cooling and aging, followed by packing liquid yeast or mixing the latter with a protective medium, freezing and drying, characterized in that to obtain the uterine yeast from Lactobacillus acidophilus use a strain of Lactobacillus acidophilus nv 317/402 "Narine" AAA, in the composition of the growth medium additionally use sodium selenite in a concentration of (1.25 - 1.6) • 10 ^-6 wt.%, And skim milk is used with a solids content of 9 to 13% in the following ratio of components, wt.%:
Aqueous suspension of 20% corn extract - 1.5 - 5,
Sodium Selenite - (1.25 - 1.6) • 10 ^-6
Skim milk with a solids content of 9 - 13% - Else
for the cultivation of uterine yeast in the composition of the growth medium, milk is used with a solids content of 14-18%, the concentration of sodium citrate in milk is (0.3 - 0.6) • 10 ^-2 wt.%, cultivation is carried out to the final titer of living bacteria cells (4.0-8.0) • 10 ^-9 in 1 ml of liquid starter culture. 2. The method according to claim 1, characterized in that ascorbic acid in a concentration of (4.0 - 5.5) • 10 ^-2 wt.% Is additionally used in the composition of the growth medium for the production of uterine yeast. 3. The method according to claim 1, characterized in that the amino acid α-cystine in a concentration of (1.0 - 2.5) • 10 ^-2 wt.% Is additionally used in the composition of the growth medium for the production of uterine yeast.  4. The method according to claim 1, characterized in that in the composition of the growth nutrient medium to obtain a uterine yeast additionally use a mixture of the components specified in claims 2 and 3.