Title of Invention	A PROCESS FOR PRODUCING A FOOD SEASONING
Abstract	This invention relates to a process for preparing (57) Abstract food seasonings from fermented protein koji which is obtained from a protein containing material and a carbohydrate The koji obtained is hydrolysed with yeast at a temperature of 2° to 25°C and at a H of from 4.S to 10 for a period of 6 hours to 28 honrs. The liquid sauce is separated from the solid natter which may be solidified. PRICE : THIRTY RUPEES

Title of Invention

A PROCESS FOR PRODUCING A FOOD SEASONING

Abstract

This invention relates to a process for preparing (57) Abstract food seasonings from fermented protein koji which is obtained from a protein containing material and a carbohydrate The koji obtained is hydrolysed with yeast at a temperature of 2° to 25°C and at a H of from 4.S to 10 for a period of 6 hours to 28 honrs. The liquid sauce is separated from the solid natter which may be solidified. PRICE : THIRTY RUPEES

Full Text	SEASONING PRODUCTION The present invention relates to a process for the production of a seasoning, more particularly to the production of seasoning by the biological hydrolysis of protein containing material. Hydrolysed proteins have been known for use as seasonings in food systems for centuries in the Far East in the form of soya sauce which traditionally has been prepared by enzymatic hydrolysis requiring a long period of time, usually several months, for preparation. In producing soya sauce, plant protein containing materials such as cooked soya beans or defatted soya flour together with carbohydrates are inoculated with Aspergilli and the solid culture is fermented for 2 days to make fermented koji during which time enzymes are produced which are able to hydrolyse protein and carbohydrates in the moromi stage. The fermented koji is mixed with a solution of common salt to give moromi which is fermented for 4 to 8 months by the activity of micro-organisms such as soya lactic acid bacteria and soya yeasts from which the soya sauce is obtained by removing the solids portion from the fermented moromi. About 100 years ago, a more rapid method of hydrolysing proteins for producing seasonings was developed using hydrochloric acid in which the time required is only a few hours. However, in recent years, the use of acid hydrolysed plant protein (HPP) in culinary applications has been under criticism due to the presence of some chloro-compounds which arises from the acid process. Therefore, attempts have been made to develop HPP replacements which can be used as body-givers in culinary applications. Soya sauce is one such suitable replacement. However, owing to the differences in the raw materials and the processing methods involved, the two products, HPP and soya sauce, havfe some differences in terms of chemical composition and flavour profile. Dosage of soya sauce which can be used as an HPP replacement is limited due to its "fermented" note. The different processing procedures also result in a significant variation in the degree of hydrolysis of the protein containing material to the amino acids. Soya sauce has a lower amino acid content than HPP and this leads to a significantly weaker body in soya sauce than in HPP. m Indian Patent No.178779 we describe a process for the production of a seasoning based on modified standard soya sauce technology in which the fermented koji is treated, before forming the moromi, by a low temperature hydrolysis whereby the resultant seasoning has a stronger body than a standard soya sauce. In this process, a fermented protein koji, prepared from a protein containing material and a carbohydrate, is treated by hydrolysing the fermented protein koji at a temperature of from 2° to 25°C and a pH of from 4.5 to 10 for a period of from 6 hours to 28 days. In order to improve the organoleptic and colour stability of the seasoning product, salt and yeast are conveniently added to the hydrolysed fermented koji to form a moromi and the moromi is preferably fermented under aerobic or anaerobic conditions for a period of from 1 to 6 weeks, more preferably from 2 to 4 weeks. We have now.found, surprisingly, that if yeast is incorporated during the hydrolysis of the fermented protein koji, cohydrolysis occurs causing a decrease in the reducing sugar level so that the subsequent moromi stage is unnecessary. This has the advantage of shortening the whole production time by at least one week. In addition, the amount of salt in the seasoning product may be varied as desired, e.g. from 0 to 100% by weight based on the weight of the fermented protein koji. Accordingly, the present invention provides a process of treating a fermented protein koji prepared from a protein containing material and a carbohydrate, for the production of a seasoning, which comprises hydrolysing a mixture of the fermented protein koji together with yeast at a temperature of from 2° to 25°C and a pH of from 4.5 to 10 for a period of from 6 hours to 28 days. The fermented koji is prepared by the conventional soya sauce process which comprises, for example, inoculating a protein containing material and a carbohydrate with a culture of Aspergillus oryzae and/or Aspergillus sojae on a culture bed to form the fermented koji. The protein containing material is advantageously a plant protein material, for instance, soya beans, corn gluten or rice gluten but is preferably wheat gluten. The plant protein containing material is advantageously cooked and is preferably used in solid particulate form for enabling the mould of Aspergillus oryzae and/or Aspergillus sojae to grow on the surface of the particles and eventually penetrate into the particles. The koji is conveniently fermented in the solid state. The hydrolysis of the mixture of fermented koji and yeast is carried out in the absence of salt and advantageously with constant agitation, conveniently using from 1 to 5 parts by weight of water per part by weight of fermented koji and preferably at a pH of from 6.0 to 7.5 which may be obtained by adding a base such as sodium hydroxide. The hydrolysis is carried out preferably at a temperature from 2° to 20°C, for a period of from 12 hours to 25 days, more preferably from 3° to 15°C for a period of from 18 hours to 22 days and especially from 4° to 10°C for a period of from 24 hours to 20 days. The amount of yeast present during hydrolysis may be from 0.05 to 1.0%, preferably from 0.1 to 0.7% and especially from 0.2 to 0.5% by-weight bas^d a(n/'the weight of the hydrolysate. The yeast may be, for instance, instant dry yeast, e.g. Saccharomyces cerevisiae or Debaromyces hansenii. Advantageously, the hydrolysis at 2°to 25°C may be preceded by a preliminary hydrolysis step at a temperature above 25°C, e.g.up to 50°C, preferably from 27° to 45°C and more preferably from 30° to 35°C. The duration of the preliminary hydrolysis step is preferably from 3-36 hours, more preferably from 5-30 hours and especially from 8-24 hours. The pH of the preliminary hydrolysis step is preferably from 4.5 to 5,5, any pH adjustment advantageously being carried out by adding an acid such as acetic acid. The pH range may also be achieved by adding an inoculum of lactic acid bacteria. Yeast may be present in the preliminary hydrolysis step, the presence of which more effectively utilises and decreases the reducing sugar level. Salt is absent in the preliminary hydrolysis step. The amount of yeast present during the preliminary hydrolysis may be from 0.05 to 1.0%, preferably from 0.1 to 0.7% and especially from 0.2 to 0.5% by weight based on the weight of the hydrolysate. The yeast may be, for instance, instant dry yeast, e.g. Saccharomyces cerevisiae or Debaromyces hansenii. The amount of reducing sugar may be decreased to below 1.0%, preferably to below 0.75% and especially below 0.3%. This decrease in the reducing sugar content enables the production of a more stable finished product having a longer shelf life and an. improved retention of colour and taste. Advantageously, a glucose oxidase may be added to the mixture of the fermented protein Jcoji and yeast for helping r I. ATC^ Example 1 Wheat gluten was extruded through a Clextral extruder into pieces having an average diameter of 5mm and had a porous structure. 65 kg of the extrudates were soaked in 65 kg water at 75°c for 5 minutes. The soaked extrudates were then heated to 100°C and held at the same temperature for 10 minutes and afterwards cooled to below 40°C by applying vacuum. The pasteurisation step was carried out to eliminate secondary contamination after the extrusion step. Finally the cooked extrudates were mixed with a mixture of 28 kg of roasted wheat and 20 g of TKJ (Aspergillus oryzae seed inoculum) to give a wheat gluten koji which was fermented for 42 hours by a procedure similar to that used in a conventional soya sauce process. The wheat gluten koji contained no added salt. During the 42 hours of koji fermentation, the following temperature profiles were maintained for the culture bed: 0-25 hours 30°C 25 - 42 hours 27°C Similar to a. conventional soya sauce process, the koji was mixed at 18th and 25th hours to ensure sufficient airflow through the culture bed for good ventilation. 55 kg of the fermented wheat gluten koji was mixed with 150 kg of water which had previously been sterilised by boiling and then cooled to 4°C. The pH was maintained at 6.0-7.0 by the addition of sodium hydroxide. 0.25 kg of yeast inoculum (freeze dried Debaryomyces hansenii) was added to the fermented wheat gluten koji and the mixture was hydrolysed at 4°C with continuous agitation for 10 days in a jacketed enclosed vessel to maintain the desired temperature. Finally, the hydrolysed mixture was pressed to separate a wheat gluten sauce from a solid residue. The wheat gluten sauce was treated at 90°C for 20 minutes. The liquid sauce was concentrated by evaporation. The concentrate obtained was dried in a vacuum oven and then milled into a powder. For organoleptic evaluation, lOg of liquid sauce or 3.5 g powder were diluted with 250 ml of boiling water. In both cases the seasoning was found to have more body and a more rounded flavour than a conventional soya sauce. The powder was found to be shelf stable at 30°C for more than 12 months in moisture tight packaging (alu-laminated sachets) and had excellent colour" stability. The seasoning was found to be microbiologically stable. Example 2 A similar procedure to that described in Example 1 was followed except that the pH of the mixture of the fermented wheat gluten koji, water and yeast was adjusted to 4.5 using acetic acid and then pre-hydrolysed at 30°C for 24 hours. Following this the pH was adjusted to 6.5 and the mixture was further hydrolysed for 2 weeks at 4°C. The seasoning was found to have more body and a more rounded flavour profile than a conventional soya sauce. The seasoning was microbiologically stable as in Example 1 and had excellent colour stability in powder form. Example 3 A similar procedure to that described in Example 2 was followed except that the yeast was absent in the pre-hydrolysis step and was Inoculated during the hydrolysis at The seasoning was found to have more body and a more rounded flavour profile than a conventional soya sauce. The seasoning was microbiologically stable as in Example 1 and had excellent colour stability in powder form. Example 4 A similar procedure to that described in Examples 1, 2 or 3 was followed except that salt was" added after the pressing stage. The final product contained 50% by weight of salt based on the weight of dry matter. The seasoning was microbiologically stable and had excellent colour stability in powder form. We claim! 1. A process lor producing a food seasoning comprising treating fermented protein koji prepared by Innoculating mixture of a protein containing material and a carbohydrate with a culture of Aspergillus oryzae and/or Aspergillus _ sojae, with yeast at a temperature of from 2° to 25°C at a pH of from 4,5 to 10 for a period of from 6 hours to 28 days to hydrolyse the same and separating the liquid seasoning obtained thereby from the solid residue, 2* The process according to claim 1, wherein the hydrolysis of the mixture of fermented koji and yeast is carried out in the absence of salt. 3. The process according to claim 1, wherein the hydrolysis of the mixture of fermented koji and yeast is carried out using from 1 to 5 parts by weight of water -per part by weight of fermented koji, 4. The process according to claim 1, wherein the hydrolysis of the mixture of fermented koji and yeast Is carried out at a pH of from 6.0 to 7.5. 5# The process according to claim 1, wherein the amount of yeast present is from 0,05 to 1,0?6 by weight based on the weight of the hydrolysate. 6, The process according to claim 1, wherein the hydrolysis at 2° to 25° C is preceded by a preliminary hydrolyais step at a temperature between 25°C and 50 C. DUPLICATE

Full Text

SEASONING PRODUCTION
The present invention relates to a process for the production of a seasoning, more particularly to the production of seasoning by the biological hydrolysis of protein containing material.
Hydrolysed proteins have been known for use as seasonings in food systems for centuries in the Far East in the form of soya sauce which traditionally has been prepared by enzymatic hydrolysis requiring a long period of time, usually several months, for preparation. In producing soya sauce, plant protein containing materials such as cooked soya beans or defatted soya flour together with carbohydrates are inoculated with Aspergilli and the solid culture is fermented for 2 days to make fermented koji during which time enzymes are produced which are able to hydrolyse protein and carbohydrates in the moromi stage. The fermented koji is mixed with a solution of common salt to give moromi which is fermented for 4 to 8 months by the activity of micro-organisms such as soya lactic acid bacteria and soya yeasts from which the soya sauce is obtained by removing the solids portion from the fermented moromi.
About 100 years ago, a more rapid method of hydrolysing proteins for producing seasonings was developed using hydrochloric acid in which the time required is only a few hours. However, in recent years, the use of acid hydrolysed plant protein (HPP) in culinary applications has been under criticism due to the presence of some chloro-compounds which arises from the acid process. Therefore, attempts have been made to develop HPP replacements which can be used as body-givers in culinary applications. Soya sauce is one such suitable replacement. However, owing to the differences in the raw materials and the processing methods

involved, the two products, HPP and soya sauce, havfe some differences in terms of chemical composition and flavour profile. Dosage of soya sauce which can be used as an HPP replacement is limited due to its "fermented" note. The different processing procedures also result in a significant variation in the degree of hydrolysis of the protein containing material to the amino acids. Soya sauce has a lower amino acid content than HPP and this leads to a significantly weaker body in soya sauce than in HPP.
m Indian Patent No.178779 we describe a process for the production of a seasoning based on modified standard soya sauce technology in which the fermented koji is treated, before forming the moromi, by a low temperature hydrolysis whereby the resultant seasoning has a stronger body than a standard soya sauce. In this process, a fermented protein koji, prepared from a protein containing material and a carbohydrate, is treated by hydrolysing the fermented protein koji at a temperature of from 2° to 25°C and a pH of from 4.5 to 10 for a period of from 6 hours to 28 days. In order to improve the organoleptic and colour stability of the seasoning product, salt and yeast are conveniently added to the hydrolysed fermented koji to form a moromi and the moromi is preferably fermented under aerobic or anaerobic conditions for a period of from 1 to 6 weeks, more preferably from 2 to 4 weeks.
We have now.found, surprisingly, that if yeast is incorporated during the hydrolysis of the fermented protein koji, cohydrolysis occurs causing a decrease in the reducing sugar level so that the subsequent moromi stage is unnecessary. This has the advantage of shortening the whole production time by at least one week. In addition, the amount of salt in the seasoning product may be varied as desired, e.g. from 0 to 100% by weight based on the weight of the fermented protein koji.

Accordingly, the present invention provides a process of treating a fermented protein koji prepared from a protein containing material and a carbohydrate, for the production of a seasoning, which comprises hydrolysing a mixture of the fermented protein koji together with yeast at a temperature of from 2° to 25°C and a pH of from 4.5 to 10 for a period of from 6 hours to 28 days.
The fermented koji is prepared by the conventional soya sauce process which comprises, for example, inoculating a protein containing material and a carbohydrate with a culture of Aspergillus oryzae and/or Aspergillus sojae on a culture bed to form the fermented koji. The protein containing material is advantageously a plant protein material, for instance, soya beans, corn gluten or rice gluten but is preferably wheat gluten. The plant protein containing material is advantageously cooked and is preferably used in solid particulate form for enabling the mould of Aspergillus oryzae and/or Aspergillus sojae to grow on the surface of the particles and eventually penetrate into the particles. The koji is conveniently fermented in the solid state.
The hydrolysis of the mixture of fermented koji and yeast is carried out in the absence of salt and advantageously with constant agitation, conveniently using from 1 to 5 parts by weight of water per part by weight of fermented koji and preferably at a pH of from 6.0 to 7.5 which may be obtained by adding a base such as sodium hydroxide. The hydrolysis is carried out preferably at a temperature from 2° to 20°C, for a period of from 12 hours to 25 days, more preferably from 3° to 15°C for a period of from 18 hours to 22 days and especially from 4° to 10°C for a period of from 24 hours to 20 days. The amount of yeast present during hydrolysis may be from 0.05 to 1.0%, preferably from 0.1 to

0.7% and especially from 0.2 to 0.5% by-weight bas^d a(n/'the weight of the hydrolysate. The yeast may be, for instance, instant dry yeast, e.g. Saccharomyces cerevisiae or Debaromyces hansenii.
Advantageously, the hydrolysis at 2°to 25°C may be preceded by a preliminary hydrolysis step at a temperature above 25°C, e.g.up to 50°C, preferably from 27° to 45°C and more preferably from 30° to 35°C. The duration of the preliminary hydrolysis step is preferably from 3-36 hours, more preferably from 5-30 hours and especially from 8-24 hours. The pH of the preliminary hydrolysis step is preferably from 4.5 to 5,5, any pH adjustment advantageously being carried out by adding an acid such as acetic acid. The pH range may also be achieved by adding an inoculum of lactic acid bacteria.
Yeast may be present in the preliminary hydrolysis step, the presence of which more effectively utilises and decreases the reducing sugar level. Salt is absent in the preliminary hydrolysis step. The amount of yeast present during the preliminary hydrolysis may be from 0.05 to 1.0%, preferably from 0.1 to 0.7% and especially from 0.2 to 0.5% by weight based on the weight of the hydrolysate. The yeast may be, for instance, instant dry yeast, e.g. Saccharomyces cerevisiae or Debaromyces hansenii.
The amount of reducing sugar may be decreased to below 1.0%, preferably to below 0.75% and especially below 0.3%. This decrease in the reducing sugar content enables the production of a more stable finished product having a longer shelf life and an. improved retention of colour and taste.
Advantageously, a glucose oxidase may be added to the mixture of the fermented protein Jcoji and yeast for helping

r I.

ATC^

Example 1
Wheat gluten was extruded through a Clextral extruder into pieces having an average diameter of 5mm and had a porous structure.
65 kg of the extrudates were soaked in 65 kg water at 75°c for 5 minutes. The soaked extrudates were then heated to 100°C and held at the same temperature for 10 minutes and afterwards cooled to below 40°C by applying vacuum. The pasteurisation step was carried out to eliminate secondary contamination after the extrusion step. Finally the cooked extrudates were mixed with a mixture of 28 kg of roasted wheat and 20 g of TKJ (Aspergillus oryzae seed inoculum) to give a wheat gluten koji which was fermented for 42 hours by a procedure similar to that used in a conventional soya sauce process. The wheat gluten koji contained no added salt.
During the 42 hours of koji fermentation, the following temperature profiles were maintained for the culture bed:
0-25 hours 30°C 25 - 42 hours 27°C
Similar to a. conventional soya sauce process, the koji was mixed at 18th and 25th hours to ensure sufficient airflow through the culture bed for good ventilation.
55 kg of the fermented wheat gluten koji was mixed with 150 kg of water which had previously been sterilised by boiling and then cooled to 4°C. The pH was maintained at 6.0-7.0 by the addition of sodium hydroxide. 0.25 kg of yeast inoculum (freeze dried Debaryomyces hansenii) was added to the fermented wheat gluten koji and the mixture was hydrolysed

at 4°C with continuous agitation for 10 days in a jacketed enclosed vessel to maintain the desired temperature.
Finally, the hydrolysed mixture was pressed to separate a wheat gluten sauce from a solid residue. The wheat gluten sauce was treated at 90°C for 20 minutes. The liquid sauce was concentrated by evaporation. The concentrate obtained was dried in a vacuum oven and then milled into a powder.
For organoleptic evaluation, lOg of liquid sauce or 3.5 g powder were diluted with 250 ml of boiling water. In both cases the seasoning was found to have more body and a more rounded flavour than a conventional soya sauce.
The powder was found to be shelf stable at 30°C for more than 12 months in moisture tight packaging (alu-laminated sachets) and had excellent colour" stability. The seasoning was found to be microbiologically stable.
Example 2
A similar procedure to that described in Example 1 was followed except that the pH of the mixture of the fermented wheat gluten koji, water and yeast was adjusted to 4.5 using acetic acid and then pre-hydrolysed at 30°C for 24 hours. Following this the pH was adjusted to 6.5 and the mixture was further hydrolysed for 2 weeks at 4°C.
The seasoning was found to have more body and a more rounded flavour profile than a conventional soya sauce. The seasoning was microbiologically stable as in Example 1 and had excellent colour stability in powder form.

Example 3
A similar procedure to that described in Example 2 was followed except that the yeast was absent in the pre-hydrolysis step and was Inoculated during the hydrolysis at
The seasoning was found to have more body and a more rounded flavour profile than a conventional soya sauce. The seasoning was microbiologically stable as in Example 1 and had excellent colour stability in powder form.
Example 4
A similar procedure to that described in Examples 1, 2 or 3 was followed except that salt was" added after the pressing stage. The final product contained 50% by weight of salt based on the weight of dry matter. The seasoning was microbiologically stable and had excellent colour stability in powder form.

We claim!
1. A process lor producing a food seasoning comprising
treating fermented protein koji prepared by Innoculating
mixture of a protein containing material and a carbohydrate
with a culture of Aspergillus oryzae and/or Aspergillus
_ sojae, with yeast at a temperature of from 2° to 25°C at
a pH of from 4,5 to 10 for a period of from 6 hours to 28
days to hydrolyse the same and separating the liquid
seasoning obtained thereby from the solid residue,
2* The process according to claim 1, wherein the hydrolysis of the mixture of fermented koji and yeast is carried out in the absence of salt.
3. The process according to claim 1, wherein the hydrolysis of the mixture of fermented koji and yeast is carried out using from 1 to 5 parts by weight of water -per part by weight of fermented koji,
4. The process according to claim 1, wherein the
hydrolysis of the mixture of fermented koji and yeast Is carried out at a pH of from 6.0 to 7.5.
5# The process according to claim 1, wherein the amount of yeast present is from 0,05 to 1,0?6 by weight based on the weight of the hydrolysate.
6, The process according to claim 1, wherein the hydrolysis at 2° to 25° C is preceded by a preliminary
hydrolyais step at a temperature between 25°C and 50 C.
DUPLICATE

Documents:

1920-mas-1997 abstract.pdf

1920-mas-1997 claims.pdf

1920-mas-1997 correspondnece-others.pdf

1920-mas-1997 correspondnece-po.pdf

1920-mas-1997 description(complete).pdf

1920-mas-1997 form-1.pdf

1920-mas-1997 form-26.pdf

1920-mas-1997 form-4.pdf

1920-mas-1997 petition.pdf

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Patent Number

183389

Indian Patent Application Number

1920/MAS/1997

PG Journal Number

37/2010

Publication Date

10-Sep-2010

Grant Date

09-Jun-2000

Date of Filing

01-Sep-1997

Name of Patentee

SOCIETE DES PRODUITS NESTLE S.A.,

Applicant Address

CH-1800 VEVEY,

Inventors:

#	Inventor's Name	Inventor's Address
1	PETER NIEDERBERGER,	16, CH,BOIS DE MENTON, 1066 EPALINGES,
2	JOHANNES BAENSCH,	LE PRE-AUX MIEUX, 14130 LE BREUIL-EN-AUGE,
3	HOWE LING LAI,	BLK 29, HAVELOCK ROAD, #08-659, 160029 SINGAPORE,
4	HAZEL GEOK NEO KHOO,	CHEMIN DES GLYCINES 1, CH-1004 LAUSANNE,
5	BEE GIM LIM,	BLK 426-JURONG WEST, AVENUE,1, #12-336, 640426

PCT International Classification Number

A23L 1/22

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA