Claims
- 1. A process for the manufacture of coffee flavouring substances, which process comprises enzymatically proteolyzing soya meal using proteases of microbial origin, in a temperature range of about 30-60.degree. C., heating the proteolyzate to about 140.degree. to about 200.degree. C. and isolating the resulting water-soluble material from the reaction mixture with the aid of pressure filters, suction filters, decanters, microfilters or ultrafilters or by means of centrifuges.
- 2. A process according to claim 1, wherein
- a) the proteolysis is carried out in a temperature range of about 50-60.degree. C., and,
- b) the proteolyzate is heated to about 140.degree. C. to about 180.degree. C.
- 3. A process according to claim 2, wherein the isolated material is concentrated to a concentration of 50-75.degree. Brix or is pulverized.
- 4. A coffee flavouring substance, manufactured according to a process which comprises enzymatically proteolyzing soya meal using proteases of microbial origin, in a temperature range of about 30-60.degree. C., heating the proteolyzate to about 140.degree. to about 200.degree. and isolating the resulting water-soluble material from the reaction mixture with the aid of pressure filters, suction filters, decanters, microfilters or ultrafilters or by means of centrifuges.
- 5. A flavoring substance composition, which contains a flavouring effective amount of a coffee flavouring substance manufactured according to a process which comprises enzymatically proteolyzing soya meal using proteases of microbial origin, in temperature range of about 30-60.degree. C., heating the proteolyzate to about 140.degree. to about 200.degree. and isolating the resulting water-soluble material from the reaction mixture with the aid of pressure filters, suction filters, decanters, microfilters or ultrafilters by means of centrifuges.
- 6. A process for the flavouring of foodstuffs and semi-luxury consumables, which process comprises adding thereto a flavouring effective amount of a coffee flavouring substance manufactured according to a process which comprises enzymatically proteolyzing soya meal, using proteases of microbial origin, in a temperature range of about 30-60.degree. C., heating the proteolyzate to about 140.degree. to about 200.degree. and isolating the resulting water-soluble material from the reaction mixture with the aid of pressure filters, suction filters, decanters, microfilters or ultrafilters or by means of centrifuges.
- 7. Foodstuff or semi-luxury comsumables which contain a flavouring effective amount of coffee flavouring substances manufactured according to a process which comprises enzymatically proteolyzing soya meal using proteases of microbial origin, in temperature range of about 30-60.degree. C., heating the proteolyzate to about 140.degree. to about 200.degree. C. and isolating the resulting water-soluble material from the reaction mixture with the aid of pressure filters, suction filters, decanters, microfilters or ultrafilters or by means of centrifuges.
- 8. A coffee flavouring substance according to claim 4 wherein
- a) the proteolysis is carried out in a temperature range of about 50-60.degree. C., and,
- b) the proteolyzate is heated to about 140.degree. C. to about 180.degree. C.
- 9. A coffee flavouring substance according to claim 8 wherein the isolated material is concentrated to a concentration of 50-70.degree. Brix or is pulverized.
- 10. A flavouring substance composition according to claim 5 wherein
- a) the proteolysis is carried out in a temperature range of about 50-60.degree. , and,
- b) the proteolyzate is heated to about 140.degree. C. to about 180.degree. C.
- 11. A flavouring substance composition according to claim 10 wherein the isolated material is concentrated to a concentration of 50-75.degree. Brix or is pulverized.
- 12. A process according to claim 6 wherein
- a) the proteolysis is carried out in a temperature range of about 50-60.degree. C., and
- b) the proteolyzate is heated to about 140.degree. C. to about 180.degree. C.
- 13. A process according to claim 12 wherein the isolated material is concentrated to a concentration of 50-75.degree. Brix or is pulverized.
- 14. A foodstuff or semi-luxury consumable according to claim 7 wherein
- a) the proteolysis is carried out in a temperature range of about 50-60.degree. C., and,
- b) the proteolyzate is heated to about 140.degree. C. to about 180.degree. C.
- 15. A foodstuff or semi-luxury consumable according to claim 14 wherein the isolated material is concentrated to a concentration of 50-75.degree. Brix or is pulverized.
Priority Claims (2)
| Number |
Date |
Country |
Kind |
| 96/85 |
Jan 1985 |
CHX |
|
| 5331/85 |
Dec 1985 |
CHX |
|
Parent Case Info
This application is a continuation of application Ser. No. 06/908,698, filed as PCT/CH85/00181, Dec. 24, 1985, now abandoned.
It is known that coffee substitutes (coffee surrogates) and coffee additives (coffee spices) can be manufactured by roasting natural plant parts (e.g. up to temperatures of 180-240.degree. C.) (Ullmanns Encyklopadie der technischen Chemie, Verlag Chemie, Weinheim, 4th edition volume 13. (1977). pages 429-440). These surrogates yield coffee-like drinks with hot water. The coffee additives are likewise obtained by roasting plant parts as well as sugar-containing raw materials. Roots, fruits and seeds are suitable raw materials. Examples are barley rye, chicory sugar beet figs carob beans, groundnut kernels, soya beans, almonds and dehulled acorns. The coffee substitute mixtures are commercialized as powders. Not one of the mixtures which has hitherto become known in this respect has, however, been capable of wholely satisfying organoleptically. In particular, the genuine coffee character is lacking olfactorily and gustatorily in the mixtures, and the strength of flavour can likewise often leave much to be desired. In this respect, the more recent pertinent processes, described hereinafter in more detail, also bring about no improvement.
In this respect, there have now been found products which are not accompanied by these disadvantages. As the raw material source for these novel substances there is used soya meal, namely soya meal which is de-fatted (as much as possible), from which the novel coffee flavouring substances are obtainable according to a novel process.
The invention is accordingly concerned with a process for the manufacture of novel coffee flavouring substances, which process comprises enzymatically proteolyzing soya meal, heating the proteolyzate and isolating the resulting water-soluble material from the reaction mixture. Furthermore, the invention is concerned with flavouring substance compositions which contain these novel coffee flavouring substances, with foodstuffs and semi-luxury consumables ("Genussmittel"; ("Genussmittel") which contain such coffee flavouring substances or flavouring substance compositions, with the use of the novel flavouring substance compositions or coffee flavouring substances for the flavouring of foodstuffs and semi-luxury comsumables or as coffee substitutes.
The manufacture of soya meal and its de-fatting, for example with hexane, is described e.g. in J. Schorrmuller, Kohlenhydratreiche Lebensmittel, Springer-Verlag Berlin (1967). 395 seq. or in Food Technology, Oct. 1982, 122, 123.
As the soya meal there is preferably used the product of [largely]de-fatted soya beans ground as finely as possible [this allows the enzymes good access to the soya proteins], e.g. of the quality Soyafluff W 200 from the firm Central Soja, Indiana IL. This material is "not toasted". However, "toasted" material, e.g. material from ESO-Chemie (Hamburg) or from Stern-Chemie (Hamburg) can also be used.
The enzymatic proteolysis can be carried out with usual proteolytically-active enzymes (proteases). As proteases there are sutiable: proteases of vegetable origin (e.g. ficin, bromelain, papain), of animal origin (e.g. trypsin [for toasted meal: the trypsin inhibitor present in non-toasted meal is no longer active in this case], chymotrypsin) or of microbial origin (e.g. Rhozym, e.g. type P-53 or P-41, from Genencor Inc., Corning N.Y.) or Neutrase (from Novo Industri, Bagsvaerd, Denmark), which enzymes proteolyze aqueous suspensions of soya products in a relatively short time, i.e. are capable of breaking down the soya proteins to peptides and amino acids relatively rapidly. Proteases of microbial origin are especially suitable because with them a particularly good coffee flavour is achieved in the present case.
A compilation of the usual proteolytically active ferments (enzymes) is found, for example in Tony Godfrey and Jon Reichelt, Industrial Enzymology, The Application of Enzymes in Industry. The Nature press and McMillan Publ. Ltd. (1983) 466 seq. und in Gerald Reed Enzymes in Food Processing, Academic Press NY and London. (1966). 148 seq.
A suitable enzyme concentration can be determined readily by a sensoric experiment and conveniently amounts to about 0.1-1 wt.% of enzyme based on the amount of soya meal. On economic grounds the incubation time should not be too long. It should as a rule determined under the conditions given hereinafter, not exceed about 1-24 hours. The determination itself is carried out according to usual methods for the determination of soluble proteins, see e.g. Methods in Food Analysis, 2nd ed. Maynard A. Joslyn, Academic Press (1970), 630 seq., i.e. for example by measuring the optical density: for this purpose samples are removed from the reaction mixture at regular time intervals, these are treated with 15% trichloroacetic acid, insoluble material is centrifuged off and the optical density of the solution is measured at 280 nm. The reaction can be considered to have finished for the present purpose when a significant increase of the optical density can no longer be ascertained At this point in time the incubation is conveniently discontinued.
The substrate concentration [i.e. the concentration of the dry starting material]can be quite high: it lies e.g. at about 20 to about 50 wt.%. The PH value of the medium conveniently lies between 5-7, preferably around about 6.5 to about 7; but the incubation can also be carried out in a weakly acidic medium, e.g. at pH 5, or in a weakly alkaline medium. e.g. at pH 7.5.
The suitable incubation temperature lies in the range of about 30 to 60.degree. C. especially 50 to 60.degree. C. When commercial proteases are used the proteolysis is generally terminated after a few hours. e.g. 5 to 24 hours.
As stated above, the suitable substrate concentration generally lies at about 20 to about 50 wt.%. In the case of Soyafluff and soya meals having similar specifications, it conveniently amounts, for example, to about 20 to about 30% (w/v). The upper limit follows from practical considerations: the formation of lumps should not occur during the enzymolysis.
In accordance with the invention the pre-treated soya meal, namely the aqueous roteolyzate is now heated.
The pre-treated soya meal is a yellowish to brownish concentrate. It can be used for the (further) heating directly in the form of this concentrate, e.g. an about 20-30% concentrate, as the reaction product of the enzymatic proteolysis. Accordingly, it need not be separated after the proteolysis, which permits an extremely rational production.
The desired flavour forms in the present case when the enzymatically-pretreated soya meal is heated to temperatures which are usual in the case of the known non-enzymatic browning reaction, the classical Maillard reaction [i.e. reaction of amino acids with sugars or peptide or protein fragments with sugars see e.g. Food Res. 25, (1960), 491-594, and also Rompps Chemie-Lexikon, volume 4, pages 2464/2465, 8th edition Franckh'sche Verlagshandlung Stuttgart (1985)], thus, for example, to temperatures of 140.degree. to 200.degree. C. in particular to about 140.degree. C. to 180.degree. C., especially to about 170.degree. C. The pressure conveniently amounts to about 10-30 bar, especially about 15-20 bar.
The heating time is normally inversely proportional to the temperature; it conveniently amounts to about 1/2 to 5 hours.
After completion of the reaction the products obtainable in accordance with the invention are conveniently separated from the remaining particles, especially the (reaction) products (of the Maillard reaction) which are insoluble in water: it has been shown that the insoluble particles have a negative influence especially on the quality of the flavour. The separation of the insoluble particles is conveniently carried out by filtration or centrifugation.
Isolation, filtration or separation is carried out e.g. with the aid of pressure filters (batchwise or continuous operation), suction filters, decanters, microfilters or ultrafilters e.g. from the firm Westfalia or Alfa-Laval, or by means of centrifuges e.g. bucket centrifuges or drop-bottom bucket centrifuges. The filter cake is there upon conveniently again suspended in water in order to produce additional water-soluble material. The combined filtrates or centrifugates are then concentrated e.g. by means of plate evaporators or rotation evaporators, conveniently to a concentration of 50-75.degree. Brix, or pulverized. The pulverizate is conveniently produced by spray-drying, vacuum-drying, freeze-drying (lyophilization) or drum-drying.
The products obtainable in accordance with the invention, namely the products of a defined enzymatic hydrolysis (a proteolysis) and a browning reaction, are now surprisingly highly concentrated coffee flavouring substances which can be diluted or distributed in edible materials in a manner known per se. They can be converted according to methods known per se into the usual forms of use such as solutions, pastes or powders. As carrier materials there come into consideration e.g.: gum arabic or, preferably, maltodextrins. In other respects, the formulation of such flavours as well as the flavouring of foodstuffs can be carried out in a manner known per se (see J. Merory; Food flavourings, Composition, manufacture and use; Avi Publ. Co., Westport 1968).
The following Table contains details concerning suitable concentration ranges for various application forms of the flavours obtainable in accordance with the invention in flavouring substance compositions:
The flavouring substance compositions in accordance with the invention can be used, for example in the manufacture or flavouring of various products from the range of foodstuffs, convenience foods, instant products, semi-luxury consumables and of flavours.
Examples are: coffee, coffee essence, powdered coffee, coffee surrogate (coffee substitute), coffee liquor, baked goods such as cakes, biscuits, waffle fillings, dessert powders, ice cream, chocolate, fillings for filled chocolate, praline fillings, chocolate powder couverture coatings, butter icing marzipan, mixed milk products, milky foods, cocoa powder, cocoa powder-containing preparations, coffee flavours, nut flavours, nougat flavours, caramel flavours etc.
Examples of convenient concentration ranges (in weight percentages) of the flavours in accordance with the invention for various uses are:______________________________________ General Preferred______________________________________Instant coffee 0.1-1.5% 0.3-1%(e.g. an instant coffeemixture:flavour in accordance withthe invention/conventionalinstant coffee = 1:1)Chocolate 0.1-1.5% 0.3-1%Waffle filling 0.5-1.0% about 1%Finished dessert 0.5-1.0% about 1%Yoghurt 0.1-1.0% 0.6-0.8%Ice cream 0.5-1.0% about 1%______________________________________
From this it is evident that the convenient concentration of the products in accordance with invention corresponds approximately to the concentration of conventional soluble coffee powder.
The products obtainable in accordance with the invention can be used as complete coffee substitutes or, however, preferably for the improvement, modification or intensification of the flavour of coffee products and coffee flavours. In this way a variation in type can be produced in a simple manner by mixing products in normal commercial use with any amounts, in the case of instant coffee referably up to about 50% (g/g). of the products obtainable in accordance with the invention.
The amount of the flavouring substances in accordance with the invention in the flavoured product can generally amount to approximately 0 05 to approximately 10%, preferably approximately 0.1 to 4%.
As far as the flavour character is concerned, the following applies:
The higher the temperature and the longer the duration of the Maillard reaction, the typical strongly aromatic roast note of genuine coffee comes more to the forefront. Where, on the other hand, milder notes are desired, lower temperatures and shorter reaction times suggest themselves.
US Referenced Citations (5)
Foreign Referenced Citations (2)
| Number |
Date |
Country |
| 1206821 |
Feb 1960 |
FRX |
| 2046076 |
Nov 1980 |
GBX |
Non-Patent Literature Citations (1)
| Entry |
| "Ullmanns Encyklopaedie der technischen Chemie", Verlag Chemie, Weinheim, 1977, 4, Band 13; 429-440. |
Continuations (1)
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Number |
Date |
Country |
| Parent |
908698 |
Aug 1986 |
|
Patent Grant
5130149
