RU2736223C1 - PSYCHROTOLERANT MYCELIAL FUNGUS STRAIN GEOMYCES PANNORUM VKM F-4777D-PRODUCER OF α-AMYLASE - Google Patents

Abstract

FIELD: biotechnology.SUBSTANCE: strain of mycelial fungus Geomyces pannorum KO-8 is deposited in the All-Russian Collection of Microorganisms at the G.K. Scriabin Institute of Biochemistry and Physiology of Microorganisms is registered with registration number VKM F-4777D. Mycelial fungus strain Geomyces pannorum VKM F-4777D is a producer α-amylase and can be used in various industries and agriculture for saccharification of starch-containing raw materials.EFFECT: invention increases yield α-amylases and obtain α-amylase at 20–22 °C.1 cl, 1 dwg

Description

The invention relates to the field of biotechnology and can be used in the microbiological industry in the production of α-amylase used for the enzymatic hydrolysis of starch-containing raw materials, namely in bakery, alcohol, brewing, confectionery and starch industry (production of molasses, syrups, glucose), in the production of cereals products, vegetable products, fruit products (juices, syrups, extracts, jams, pectin), baby food, in the textile, paper industry in the production of detergents, as well as in medicine.

Microbial α-amylases are used in the food industry, in medicine, in the textile and paper industries, as well as as bioadditives in detergents [1, 2]. The positive effect of using microbial amylases to increase the digestibility of starch-containing feed in animal husbandry has been shown [3, 4]. Bacillus bacteria (mainly B. subtilis, B. stearothermophilus, B. licheniformis, B. amyloliquefaciens) and filamentous fungi are used as industrial producers of α-amylase. Among mushrooms, the main producers are representatives of the r. Aspergillus (mainly A. niger, A. oryzae, A. awamori) [5, 6].

The production cost of microbial α-amylases is primarily determined by the biological characteristics of the strains used. All currently used fungal strains are mesophilic and require high temperatures for their cultivation. Known [7] strain Aspergillus K27 - producer of amylase with a temperature optimum of growth 35-45 ° C.

Known [8] strain Aspergillus awamori - producer of glucoamylase with a temperature optimum of growth of 34-35 ° C.

Known [9] strain Aspergillus oryzae - producer of α-amylase with a temperature optimum of growth of 35 ° C. This strain is the closest to the claimed object in terms of the combination of essential features and the achieved result, but its temperature optimum is 14 ° C higher than that of the claimed object.

A number of other producers of α-amylase are known with temperature optima of growth from 35 ° C and above.

The disadvantages of all of the above producers is the need to carry out the cultivation process at temperatures above 30-35 ° C, which leads to additional energy consumption for heating the nutrient medium and increases the risk of contamination of the fermenter with extraneous mesophilic microflora.

The technical problem to be solved by the present invention consists in obtaining a new strain of filamentous fungi - a producer of α-amylase, which makes it possible to effectively carry out the process of obtaining seed and enzyme at a temperature of 20-22 ° C.

The technical result that can be obtained with the implementation of the invention consists in the possibility of producing fungal amylase at a temperature of 10-15 ° C below the temperature that is now used for producers such as Aspergillus awamori and other species of p. Aspergillus. This allows you to reduce energy costs for the production of amylase and slow down the growth of extraneous mesophilic microflora in the case of microbial contamination of the fermenter.

To achieve the specified technical result, it is proposed to use a new psychrotolerant strain of the filamentous fungus Geomyces pannorum (Link) Sigler & J.W. Carmich. (1976) (synonyms: Sporotrichum pannorum Link (1824), Chrysosporium pannorum (Link) Hughes (1958), Geomyces pannorus (Link) Sigler & J.W. Carmich. (1976)) KO-8 is an α-amylase producer.

The G. pannorum KO-8 strain was deposited in the All-Russian collection of microorganisms at the Institute of Biochemistry and Physiology of Microorganisms named after G.K. Scriabin of the Russian Academy of Sciences under the number VKM F-4777D.

Strain G. pannorum KO-8 was isolated in a low-temperature (air and ground temperature about + 4 ° C) karst carbonate cave Karaulnaya-2 (Krasnoyarsk Territory, Emelyanovskiy district, Karaulensky speleo area of the Yenisei fold-block zone) by seeding on a mineral medium with starch in as the only source of carbon at + 4 ° C.

Cultural, morphological and microscopic characteristics of the strain. On a mineral medium with starch, or glucose, or sucrose as the only carbon source, the colonies are white, flat, with a “powdery” surface. The mycelium is septate. The thickness of hyphae in a young culture is from 2.4 to 3.0 microns, in an old one - from 1.1 to 2.3 microns. The formation of arthrospores and chlamydospores was not found. Spore-bearing hyphae are whorly branched, conidia are single, located at the apex of conidiophores. Conidia are oval and pear-shaped, 3.5-5.0 × 4.1-7.5 μm. On a medium with peptone and casein hydrolyzate, visually noticeable conical bundles of spore-bearing hyphae are formed on the surface of the colony. Able to grow in the temperature range from + 4 ° C to + 29 ° C. Growth is absent at + 30 ° С and above. According to the results of measuring the growth rate of seedling hyphae, the temperature optimum is in the region of + 21 ° C (Fig. 1).

Able to grow on media with mineral forms of nitrogen, phosphorus, sulfur and starch, or glucose, or sucrose as the only carbon source. An example of a medium (g / l): sucrose - 20.0, NH ₄ NO ₃ - 2.0, KH ₂ PO ₄ - 1.0, MgSO ₄ * 7H ₂ O - 0.5, KCl - 0.5, FeSO ₄ - trace amounts, microbiological agar - 20.0, pH = 6.5 ... 7.0.

Able to grow on media with peptone and casein hydrolyzate as a carbon and nitrogen source. An example of a medium (g / l): peptone enzymatic - 9.0, casein hydrolyzate enzymatic - 8.0, yeast extract - 5.0, NaCl - 5.0, Na ₂ HPO ₄ - 2.0, microbiological agar - 20.0, pH = 7.0… 7.2.

Cultivation is recommended in the temperature range + 19 ... + 23 ° C (see figure 1).

Storage conditions.

It is recommended to store it in the form of a culture grown in a medium with mineral forms of nitrogen, phosphorus, sulfur and starch, or glucose, or sucrose as the only carbon source at temperatures from +4 to + 12 ° C. The maximum shelf life has not been established, however, after the medium has dried, conidia at a temperature of + 9 ... + 12 ° C retain their viability for at least 1.5 years.

This type of filamentous fungus is not listed as pathogenic in accordance with the sanitary and epidemiological rules "Safety of work with microorganisms of III - IV groups of pathogenicity (danger) and pathogens of parasitic diseases" (SP 1.3.2322-08), approved by the Resolution of the Chief State Sanitary Doctor of the Russian Federation No. 4 dated January 28, 2008

When cultivated in a liquid medium at a temperature of 20-21 ° C, the maximum amylase activity of the culture liquid is achieved after 6-7 days. For enzymatic treatment of starch-containing raw materials in production, the enzyme preparation can be used in the form of a culture liquid, or in the form of an ultraconcentrate, or in the form of concentrated preparations obtained by known biochemical methods, for example, by ethanol precipitation from an ultrafiltrate of the culture liquid.

USED SOURCES

1. Abbas, K.A., Khalil, S.K., Hussin A.S.M. Modified Starches and Their Usages in Selected Food Products: A Review Study // Journal of Agricultural Science, Vol. 2, No. 2, June 2010, P. 90-100

. Application of microbial α-amylase in industry - A review // Brazilian Journal of Microbiology. - 2010. - №4. - P. 850-8612. De Souza PM, Oliveira

... Application of microbial α-amylase in industry - A review // Brazilian Journal of Microbiology. - 2010. - No. 4. - P. 850-861

3. Tricarico J.M., Johnston J.D., Dawson K.A. Dietary supplementation of ruminant diets with an Aspergillus oryzae α-amylase // Animal Feed Science and Technology. - 2008. - Vol. 145 (1-4) .- P. 136-150

Steinberg W., Silberberg M., Morgavi D.P. Amylase addition increases starch ruminal digestion in first-lactation cows fed high and low starch diets // Journal of Dairy Science. - 2014. - Vol. 97(4). - P. 2319-23284.

Steinberg W., Silberberg M., Morgavi DP Amylase addition increases starch ruminal digestion in first-lactation cows fed high and low starch diets // Journal of Dairy Science. - 2014. - Vol. 97 (4). - P. 2319-2328

5. Tiwari S. P., Srivastava R., Singh C. S., Shukla K., Singh. R.K., Singh P., Singh R., Singh N.L. and Sharma R. Amylases: An overview with special reference to alpha amylase // Journal of Global Biosciences. - 2015. - Vol. 4 (1). - P. 1886-1901

6. Karam E.A., Abdel Wahab W.A., Saleh S.A.A., Hassan M.E., Kansoh A.L., Esawy M.A. Production, immobilization and thermodynamic studies of free and immobilized Aspergillus awamori amylase // International Journal of Biological Macromolecules. - 2017. - Vol. 102. - P. 694-703

7.US, patent US 4593005 A. https://patents.google.com/patent/US4593005

8. RU, patent RU 2245364 C2. https://patents.google.com/patent/RU2245364C2/ru

9. RU, patent RU 2354697C2. https://patents.google.com/patent/RU2354697C2/ru

Claims (1)

Psychrotolerant strain of the filamentous fungus Geomyces pannorum VKM F-4777D is an α-amylase producer.

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