DE1442118B - Process for the production of milk-coagulating ferment by growing mold - Google Patents

Description

The invention relates to a process for the production of a new milk coagulating ferment by growing molds in nutrient media.

In the description below, the milk-coagulant obtained by growing molds is used Ferment called "microbiological rennet".

The previously known rennet for coagulating milk is made from the fourth stomach of the calf won. This ferment has a powerful activity of coagulating milk, and it is found in widely used in cheese making. The starting material for its manufacture is available however, it is not available in unlimited quantities and is expensive.

In general, proteases coagulate milk. Both proteases of animal origin, such as pepsin, Trypsin, chymotrypsin, cathepsin etc., as well as those of vegetable origin, namely papain, Ficin, bromelain, etc., have milk coagulating activity to some extent. Even the coagulating one Activity of the proteases produced by bacteria, ζ. B. Pseudomonas fluorescens, Bacillus subtilis and Serratia marcescens are already known. However, these proteases have a strong effect on proteins cleaving, they show a low activity of coagulating protein, and they come to practical use Use as milk-coagulating ferments not possible.

Furthermore, a ferment is known which causes the coagulation of milk and which one through Growing the mushroom Mucor rouxii on a suitable nutrient medium, preferably on rice.

However, the ferment obtainable by growing Mucor rouxii has low milk coagulant properties Activity so that it is for practical use in place of that derived from the calf's stomach Lab is out of the question.

It is the purpose of the invention to provide a milk-coagulating microbiological rennet of very low protease activity, however, considerably high milk-coagulating activity through cultivation of molds to manufacture.

It has been found according to the invention that one can use a technical scale and inexpensively new milk coagulating ferment, d. H. a microbiological rennet with very low protease activity, however, can produce high milk coagulating activity using Mucor pusillus Lindt.

The method according to the invention for the production of milk coagulating ferment by growing Molds in nutrient media containing carbohydrates, nitrogen substances and organic salts usual temperatures and pH values is characterized by the fact that the mold Mucor pusillus Lindt used.

As already indicated, it is known that Mucor rouxii on a suitable nutrient medium, preferably Rice, which forms a ferment that causes milk to coagulate. However, it was not to be expected that Mucor pusillus Lindt is a milk-coagulating ferment with very low protease activity and produces considerably high milk coagulating activity in high yield in the medium.

The following is the method according to the invention, wherein by cultivating Mucor pusillus Lindt, described in a medium that microbiological rennet is formed. This ferment is concentrated and isolated on this. Under the expression concentrating and isolating the microbiological Rennet is the conversion of this ferment into a purer state than its raw state or meant in a state in which it is in a higher concentration or higher purity is present. The medium used for growing Mucor pusillus Lindt according to the invention can be any suitable artificial or natural medium provided there is at least one source of carbon and Contains nitrogen and inorganic salts. The monosaccharides and disaccharides can be used as the carbon source and polysaccharides which can be assimilated by Mucor pusillus Lindt, e.g. B. Cane sugar, lactose, glucose or starch. In the same way, a large number of nitrogen sources can be used of nitrogen compounds are used, provided they can be assimilated, such as inorganic ammonium salts, Amino acids and a large number of other proteins. The inorganic salts include z. B. phosphates, magnesium salts, calcium salts and numerous other inorganic salts. Anyway, it can be the nitrogen or carbon source of the natural or artificial medium of any kind, provided it can be used by the Mucor pusillus Lindt mushroom used. As a preferred medium wheat bran can be used.

A cultivation temperature between 20 and 40 ^° C. is generally suitable. Cultivation is usually carried out for about 2 to 7 days with the aid of a liquid culture or a solid culture at pH 3 to 8, in particular pH 5 to 7, and preferably under aerobic conditions . In the case of a liquid culture, a surface culture can be used. Better results are obtained with shake cultures or submerged cultures. As a result of the cultivation, the milk-coagulating microbiological rennet is formed in the medium. To isolate the ferment from the culture medium, in the case of a solid culture, it is extracted with water or an aqueous solution. In the case of a liquid culture, the mycelium is separated; a solution containing fermentation is obtained. As the aqueous solutions, there can be used those containing salts such as sodium chloride, potassium chloride, etc., acids such as hydrochloric acid, citric acid, acetic acid, etc., and various other types of buffer solutions.

The solution containing the microbiological rennet can then be concentrated or subjected to a cleaning treatment by concentration under reduced pressure or a cleaning treatment such as precipitation with organic solvents, Salting out, cleaning with the help of ion exchangers, etc. As for precipitation Solvents used can be organic solvents which are miscible with water, such as methanol, ethanol, Isopropanol, acetone, etc. can be used. Any salt can be used for salting out easily dissolves in water, such as ammonium sulfate, sodium sulfate, magnesium sulfate, etc.

The microbiological rennet produced according to the invention has properties which are clearly evident of the previously known proteases of animal or vegetable origin or such proteases, that are produced by other microbes.

The microbiological rennet has a powerful

I 442 1

term milk coagulating activity, yet its protease activity very weak.

The milk-coagulating activity of the microbiological rennet is similar to that of the rennet from the fourth calf stomach strong activity in acidic pH. With increasing pH it increases its activity. The activity is destroyed in the alkaline pH range.

In the production of quark with the ferment produced in accordance with the registration, the nitrogen content is which passes into the whey, after 150 minutes about 20% (determined according to K j e 1 d a h 1). Thus behaves the ferment according to the present application is practically the same as rennet. In determining the protease activity of the microbiological rennet after Ans on using the appropriate The amount of ferments showing the same milk coagulating activity is the absorption at 660 ΐημ in the case of the acidic protease from Aspergillus saitoi 0.641 (optical density) and from Rennet 0.059, while that of microbiological rennet is less than 0.102. this shows that the rennet according to the invention is of a completely different type than the usual protease, since its milk coagulating activity is unusually strong compared to its protease activity.

The microbiological produced according to the invention by cultivating Mucor pusillus Lindt Ferment is not only used to coagulate milk, but also e.g. B. for making desserts, ice cream and Usable confectionery.

The invention is explained in more detail below with the aid of examples.

35

example 1

7 parts of water were added to 10 parts of wheat bran. After mixing, the mass was ^{boiled at 115 °} C. for 15 minutes. After cooling, the mass was inoculated with a strain of Mucor pusillus Lindt (IAM F-27) and incubated at 30.degree. On the third day the milk coagulating activity reached its maximum. The wheat bran was mixed with 50 ml of water per 10 g and allowed to stand for 1 hour at room temperature. The mycelium was then filtered off and 40 ml of the solution containing microbiological rennet were obtained. The milk-coagulating activity of this extract was 800 Soxhlet units / ml for a 10% solution of powdered skimmed milk containing 100% calcium chloride. Thus 32,000 units of microbiological milk-coagulating ferment were obtained from 10 gs ° wheat bran. This extract was then salted out with ammonium sulfate to a degree of saturation of 0.22 to 0.66. Virtually all of the activity went into precipitation. Furthermore, a precipitation with an activity of 78, 80, 60 or 75% can be obtained with the aid of organic solvents of the following concentrations: Ethanol. 70% »methanol 75%, acetone 66% and isopropanol 70% · The activity of the microbiological ferment obtained in this way was 100 Soxhlet units / mg, while the calf gastric rennet tablets from Chr. Hansens Laboratory, Inc. had an activity of 200 units / mg to have.

Example 2

A medium containing 10% powdered skim milk, 1% glucose (grape sugar), 0.1% yeast extract, V200 mol CaCl ₂ was inoculated with a strain of Mucor pusillus Lindt (IAM F-27). After shaking the culture at 30 ° C. for 4 days, the mycelium was filtered off and a fermentation solution was obtained. The activity of this ferment solution was 115 Soxhlet units / ml; thus 1 ml corresponded to 0.05 mg rennet tablets. A purified solid ferment preparation was produced from this solution in a manner similar to that in Example 1.

Comparative experiments

Comparison of the performance as a milk coagulation enzyme between Mucor pusillus Lindt and Mucoi rouxianus (former name: Mucor rouxii).

All strains were obtained from Centraalbureau voor Schimmelcultures, Baarn, The Netherlands.

The strains used in these experiments were:

Mucor pusillus Lindt
Mucor pusillus Lindt
Mucor pusillus Lindt
Mucor pusillus Lindt

CBS 219.31 CBS 231.29 CBS 245.58 CBS 253.53

Mucor rouxianus (Calmette) Wehmer CBS 120.08

In a 300 ml Erlenmeyer flask fitted with a Cotton stoppers were fitted with 10 g of wheat bran and 7 ml of tap water and 100 mg Ammonium sulfate is introduced, mixed and sterilized in an autoclave at 120 ° C for 20 minutes.

After cooling to room temperature, the media were inoculated by the above strains, and the inoculated media were grown at 35 ° C for up to 5 days.

The generated enzyme was treated with 100 ml of distilled water at room temperature for 2 hours extracted and then centrifuged to obtain a clear enzyme solution.

The test of the milk coagulation activity was carried out as follows: To 0.5 ml of enzyme solution of suitable dilution, 5 ml of 10% skim milk solution to which M / 100 CaCl _{2 was} added was added at 35 ° C., and the coagulation time was monitored with a stop watch measured.

The milk clotting activity of the enzyme solution was calculated using the following formula:

Rennet strength =

2400
t (see)

Dilution coefficient,

where t is the clotting time.

The results are summarized in the following table:

Trunk no. 219 .31 3 Days Breeding time SE / ml ⁵ Days 231 .29 350 SE / ml 4 days SE / ml 393 SE / ml CBS 245 .58 322 SE / ml 390 SE / ml 320 SE / ml CBS 253 .53 552 SE / ml 323 SE / ml 777 SE / ml CBS 120 .08 588 SE / ml 705 SE / ml 553 SE / ml CBS 35 SE / ml 725 42 SE / ml CBS 62

SE = Soxhlet units.

These values are mean values of two tests carried out in each case.

The technical progress of the present invention is clear from the experiments mentioned above evident.

Claims (1)

Claim: Process for the production of milk coagulating a ferment by growing mold in nutrient media containing carbohydrates, nitrogen substances and organic salts Usual temperatures and pH values, characterized in that as Used mold Mucor pusillus Lindt.