JP5926600B2 - Production method of versatile soy sauce - Google Patents
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本発明は醤油特有の香気が少なくかつ濃厚感がある新規醤油の製造方法とその使用方法等に関する。 The present invention relates to a method for producing a novel soy sauce that has a little aroma unique to soy sauce and has a rich feeling, and a method for using the soy sauce.
醤油は日本古来より伝わる代表的な調味料であり、大豆、小麦等の穀類を原料とし、製麹工程を経て醤油麹とし、これに食塩水を混合し、4ヶ月〜1年間程の長期熟成期間を経て作られる。製麹時には麹菌、熟成期間には乳酸菌、酵母などの微生物活動が行われ、醤油独特の色、味、香りを醸しだしている。特に香りについては、バター、ヨーグルト、サツマイモ、ライラック、バラ、ナッツ、パイナップル様など300種類以上の香気成分を有しているとされている。 Soy sauce is a typical seasoning that has been passed down since ancient times in Japan. It uses cereals such as soybeans and wheat as raw materials, goes through a koji making process to make soy sauce koji, and then mixes it with salt water, aging for 4 months to 1 year. Made over time. Microbial activities such as koji molds are produced during koji making, lactic acid bacteria, and yeasts during the ripening period, creating a unique color, taste and aroma. In particular, the fragrance is said to have over 300 kinds of fragrance components such as butter, yogurt, sweet potato, lilac, rose, nut, pineapple-like.
また上記のように製造された醤油は醤油特有の複雑で豊かな香りを持ち、調味料としては優れているが、近年では食の多様化に伴い、素材そのものの風味やだし、香味野菜、香辛料等の風味を引き出すような醤油特有の香気の少ない醤油が求められるようになってきた。また海外においては元々食習慣のない醤油の風味、特に香りが好まれない傾向にあるため、醤油特有の香気が少ない醤油が好まれている。 In addition, the soy sauce produced as described above has a complex and rich fragrance unique to soy sauce and is excellent as a seasoning. However, in recent years, with the diversification of food, the flavor and soup of the material itself, flavored vegetables, spices Soy sauce with a low fragrance unique to soy sauce that brings out a flavor such as the soy sauce has been demanded. In addition, the taste of soy sauce, which has no eating habits, and especially the aroma tend to be unfavorable overseas, so that soy sauce with a low aroma unique to soy sauce is preferred.
このようなニーズに対応すべく、醤油特有の香気を低減するための方法が種々検討されてきた。例えば、従来法に比べて著しく汲み水歩合を高く仕込み、好気的に酵母の発酵をさせることにより醤油の特徴香である4−Hydroxy−2(or5)−ethyl−5(or2)−methyl−3(2H)−furanone(以下HEMFと言う)の生成を顕著に抑制しつつ、原料臭や醤油麹臭の低減作用を有するメチオノールに代表されるアルコール系の香気成分は著量生成蓄積させる方法がある。この手法では第1段発酵熟成工程の終了時点では全窒素が低く、味に厚みなく、芳醇な香りに欠けるために追加麹もくは追加諸味を実施し、2段階で仕込みが行われている。また乳酸発酵により風味付けもなされている。(特許文献1) In order to meet such needs, various methods for reducing the flavor unique to soy sauce have been studied. For example, 4-Hydroxy-2 (or5) -ethyl-5 (or2) -methyl-, which is a characteristic scent of soy sauce, is obtained by charging the water ratio significantly higher than in the conventional method and fermenting yeast aerobically. A method of generating and accumulating a significant amount of alcohol-based aroma components represented by methionol, which has the effect of reducing raw material odor and soy sauce odor, while significantly suppressing the generation of 3 (2H) -furanone (hereinafter referred to as HEMF). is there. In this method, at the end of the first stage fermentation ripening process, the total nitrogen is low, the taste is not thick, and since it lacks a rich fragrance, additional mochi or additional moromi is carried out, and charging is performed in two stages. . It is also flavored by lactic acid fermentation. (Patent Document 1)
しかしながらこのような手法でできた醤油は乳酸発酵やアルコール発酵によるHEMF以外の味や香気による調味素材のマスキング効果があり、諸味品温も終始20〜25℃であるためにメイラード反応生成物による濃厚感に乏しいという特徴がある。またその製造方法も煩雑であるという問題がある。 However, the soy sauce made by such a method has a masking effect on the seasoning material other than HEMF by lactic acid fermentation or alcohol fermentation, and the moromi product temperature is 20 to 25 ° C. from beginning to end, so it is concentrated by the Maillard reaction product. It is characterized by a lack of feeling. There is also a problem that the manufacturing method is complicated.
またタンパク質原料70〜90重量部に対して澱粉質原料10〜30重量部の比率で製麹を行い、得られたタンパク性麹を食塩非存在下又は5重量%以下の食塩存在下、52〜60℃の温度範囲で18〜30時間加水分解をすることにより得られ、醤油香等の醸造香が無く、加熱や酸化による色調の変化が少なく、広く使用できる汎用性調味料を得る方法がある。(特許文献2) Moreover, it kneads in the ratio of 10-30 weight part of starchy raw materials with respect to 70-90 weight part of protein raw materials, and the obtained proteinaceous koji is 52-52% or less of sodium chloride in the presence of 5% by weight or less. There is a method for obtaining a versatile seasoning that is obtained by hydrolysis in a temperature range of 60 ° C. for 18 to 30 hours, has no brewing incense such as soy sauce incense, has little change in color tone due to heating or oxidation, and can be used widely. . (Patent Document 2)
しかしながらこのような手法によりできた醤油は製麹中のタンパク質原料が多い事から麹菌の代謝によりアンモニアが多く生成され醤油成分中へと移行する上、乳酸菌や酵母などの微生物活動が抑制されているためにアンモニアの他に麹菌由来の香り、原料臭を強く感じる。また食塩非存在下又は5重量%以下の食塩存在下で実施しているために微生物汚染が懸念され、30時間以上の分解期間を持つ事が不可能であるのでメイラード反応生成物による濃厚感の付与が極端に少ないという特徴がある。 However, because soy sauce made by this method has many protein raw materials during koji making, a large amount of ammonia is produced due to the metabolism of koji mold and transferred into the soy sauce component, and microbial activities such as lactic acid bacteria and yeast are suppressed Therefore, in addition to ammonia, I strongly feel the aroma derived from Neisseria gonorrhoeae and the raw material odor. Moreover, since it is carried out in the absence of salt or in the presence of 5% by weight or less of salt, there is a concern about microbial contamination, and it is impossible to have a decomposition period of 30 hours or more. It is characterized by extremely few grants.
諸味中のアルコール濃度が3.5〜6.0%v/v及び塩濃度が8〜12%w/vとし、醤油酵母、酒精酵母及び醤油乳酸菌が生育しない条件で醤油香気を持たず、低塩濃度で良好な風味を有するコク味調味料を得る方法がある。(特許文献3) The alcohol concentration in moromi is 3.5 to 6.0% v / v and the salt concentration is 8 to 12% w / v, and the soy sauce aroma, soy sauce lactic acid bacteria and soy sauce lactic acid bacteria do not grow and have no soy sauce flavor. There is a method of obtaining a rich flavor seasoning having a good flavor at a salt concentration. (Patent Document 3)
しかしながらこのような手法は諸味品温を20〜40℃としているために微生物の活動を抑制するにはかなり高濃度のアルコールを添加する必要があり、得られた調味料もアルコールの香りを強く感じる事を避けられない。また諸味中のアルコールは圧搾時に圧搾粕へも多く残存する上、高温下で諸味温度を管理する場合にはアルコールの蒸発がみられるために経済的ではない。 However, such a method has a moromi product temperature of 20 to 40 ° C., so it is necessary to add a fairly high concentration of alcohol to suppress the activity of microorganisms, and the resulting seasoning also strongly feels the scent of alcohol I can't avoid it. In addition, a lot of alcohol in moromi remains in the squeezed rice cake at the time of squeezing, and when the moromi temperature is controlled at a high temperature, the alcohol is evaporated, which is not economical.
また醤油等の微生物活動を伴う発酵食品にはヒスタミンが含まれており食中毒への関与の可能性が示唆されているため、ヒスタミン含有量が低い事が好ましい。食中毒を引き起こすと考えられる食品中のヒスタミン濃度については、5mg/100g以下は安全域、5〜10mg/100gは感受性の高いグループでは食中毒を生じる可能性があるとしている。(非特許文献1) Moreover, since fermented foods with microbial activity such as soy sauce contain histamine and have been suggested to be involved in food poisoning, it is preferable that the histamine content is low. Regarding histamine concentration in foods that are considered to cause food poisoning, 5 mg / 100 g or less is considered to be a safe range, and 5 to 10 mg / 100 g may cause food poisoning in sensitive groups. (Non-Patent Document 1)
本発明の課題は上記のように煩雑または不経済な製造工程を必要とせず、さらに麹菌、醤油乳酸菌、醤油酵母を由来とする醤油特有の香気が大幅に低減されつつ良好な風味を有し、かつ濃厚感がある新規醤油を製造することであり、素材そのものの風味やだし、香味野菜、香辛料等の風味を引き出したい場合や海外への需要などに幅広く使用できる醤油を開発することである。 The subject of the present invention does not require a complicated or uneconomic manufacturing process as described above, and has a good flavor while further reducing the flavor unique to soy sauce derived from koji mold, soy sauce lactic acid bacteria, and soy sauce yeast, It is to produce a new soy sauce with a rich feeling, and to develop a soy sauce that can be used widely when demanding the flavor and soup of the material itself, flavored vegetables, spices, etc. or for overseas demand.
上記課題に鑑みて本発明者は鋭意検討を重ねた。本発明者は醤油特有の香気は麹菌、醤油乳酸菌、醤油酵母の活動に由来している事に着目し、まずは微生物に由来する香気を低減させる方法を検討した。その結果、醤油麹と加熱変性処理した大豆及び/又は脱脂加工大豆に諸味塩分が7〜13w/w%となるように食塩水を混合し、諸味品温を43〜60℃に保持する事により、醤油麹による分解能を低下させることなく、さらに雑菌による腐敗及び醤油乳酸菌、醤油酵母の活動が抑制され、醤油特有の香気が著しく低減する事を見出した。またヒスチジン脱炭酸酵素を有する微生物の活動も抑制されるため、ヒスチジンを原料として生成されるヒスタミン食中毒の原因物質であるヒスタミン含有量が著しく低くなる事が分かった。 In view of the above problems, the present inventor has intensively studied. The inventor paid attention to the fact that the aroma peculiar to soy sauce is derived from the activities of koji mold, soy sauce lactic acid bacteria, and soy sauce yeast, and firstly examined a method for reducing the aroma derived from microorganisms. As a result, by mixing soy sauce koji and heat-denatured soybean and / or defatted soybean with salt solution so that the moromi salt content is 7 to 13 w / w%, and maintaining the moromi product temperature at 43 to 60 ° C. Further, it was found that, without reducing the resolution due to soy sauce lees, the spoilage caused by miscellaneous bacteria and the activities of soy sauce lactic acid bacteria and soy sauce yeast were suppressed, and the aroma unique to soy sauce was significantly reduced. In addition, since the activity of microorganisms having histidine decarboxylase was also suppressed, it was found that the histamine content, which is a causative substance of histamine food poisoning produced using histidine as a raw material, was remarkably reduced.
しかし通常であれば、醤油乳酸菌、醤油酵母の微生物活動を抑制することにより醤油特有の香気は低減する反面、麹菌由来の香りや原料臭を強く感じるようになるが、仕込み原料を醤油麹と変性処理した大豆及び/又は脱脂加工大豆(生原料重量換算)が重量比で8:2〜3:7とすることにより、麹酵素による原料の分解能を低下させることなく麹菌由来の香りを低減させることが可能となり、さらに諸味品温を43〜60℃で3〜10週間保持することによりさらなる麹菌由来の香りの低減だけでなく原料臭も低減させる事が可能となった。またさらには従来の醤油と比較して濃厚感が付与される効果がある事を見出した。 However, under normal circumstances, by suppressing the microbial activity of soy sauce lactic acid bacteria and soy sauce yeast, the flavor unique to soy sauce is reduced, but on the other hand, the aroma and raw material odor derived from koji molds will be felt strongly, but the raw materials used are modified with soy sauce cake. By reducing the weight of the processed soybean and / or defatted soybean (raw material weight conversion) to 8: 2 to 3: 7 by weight ratio, the aroma derived from koji mold is reduced without reducing the resolution of the raw material by koji enzyme. Furthermore, by maintaining the moromi product temperature at 43-60 ° C. for 3-10 weeks, it became possible not only to further reduce the aroma derived from Aspergillus but also to reduce the raw material odor. Furthermore, it has been found that there is an effect of imparting a rich feeling as compared with conventional soy sauce.
本発明によれば、煩雑または不経済な製造工程を必要とせず、さらに麹菌、醤油乳酸菌、醤油酵母を由来とする醤油特有の香気が大幅に低減され、かつ良好な風味を有し、さらには濃厚感がある新規醤油を製造することが可能となる。また得られた醤油を使用することにより、素材そのものの風味やだし、香味野菜、香辛料等の風味を引き出す効果があり、食の多様化や海外への需要に幅広く対応が可能となる。 According to the present invention, no complicated or uneconomic manufacturing process is required, and the flavor unique to soy sauce derived from koji mold, soy sauce lactic acid bacteria, and soy sauce yeast is greatly reduced, and has a good flavor, It becomes possible to produce a new soy sauce with a rich feeling. Also, by using the soy sauce obtained, there is an effect of drawing out the flavor of the raw material itself, the flavor of vegetables, spices, etc., and it becomes possible to respond widely to diversification of foods and overseas demand.
以下に本発明を詳細に説明する。本発明における醤油麹とは大豆、脱脂加工大豆等のタンパク質原料を加熱変性処理したものと小麦などの麦類、米類等の澱粉質原料を加熱変性処理したものとさらには必要に応じてその他の原料を混合したものに種麹菌を接種し、例えば20〜40℃で30〜80時間製麹したものが挙げられる。 The present invention is described in detail below. The soy sauce cake in the present invention is a product obtained by heat-denaturing protein raw materials such as soybeans and defatted soybeans, a material obtained by heat-denaturing starchy materials such as wheat, rice, and the like, and other if necessary. Inoculated with a koji mold into a mixture of these raw materials, for example, koji made at 20 to 40 ° C. for 30 to 80 hours.
本発明における大豆、脱脂加工大豆等の加熱変性処理方法としては、常圧下での蒸煮処理、密閉容器内での加圧蒸煮処理、あるいはエクストルーダーによる高温高圧下での膨化処理等が挙げられる。 Examples of the heat denaturation treatment method for soybeans, defatted soybeans, etc. in the present invention include steaming treatment under normal pressure, pressure steaming treatment in a sealed container, or expansion treatment under high temperature and high pressure using an extruder.
仕込みの際に用いられる食塩水の量は醤油麹と加熱変性処理した大豆及び/又は脱脂加工大豆(生原料重量換算)の合計重量の0.8〜3.5倍、さらに好ましくは1.0〜2.5倍程度使用する事ができる。食塩水の食塩濃度については諸味塩分が7〜13w/w%となる濃度が好ましく、さらには9〜11w/w%が最も好ましい。諸味塩分が7w/w%未満では諸味が腐敗する危険性が高く、13w/w%を超えると旨味が弱くなり、さらには得られる醤油の塩分が高くなり望ましい品質が得られない。 The amount of the salt solution used in the preparation is 0.8 to 3.5 times the total weight of the soy sauce cake and the heat-denatured soybean and / or defatted soybean (raw material weight conversion), more preferably 1.0. Can be used up to 2.5 times. The salt concentration of the saline is preferably such that the moromi salt content is 7 to 13 w / w%, more preferably 9 to 11 w / w%. If the moromi salt content is less than 7 w / w%, there is a high risk of the moromi rot, and if it exceeds 13 w / w%, the umami becomes weak, and the salt content of the resulting soy sauce increases, and the desired quality cannot be obtained.
上記条件で仕込んだ諸味は麹酵素により分解がなされるが、その時の諸味品温範囲は43〜60℃であり、好ましくは45〜58℃である。諸味品温が43℃未満の温度では微生物の活動が活発になるため醤油特有の香気が多く生成されてしまい、逆に60℃を超えると焦げ臭が強くなり望ましい品質が得られない。 While the moromi prepared under the above conditions is decomposed by the koji enzyme, the moromi product temperature range at that time is 43-60 ° C, preferably 45-58 ° C. If the temperature of the moromi product is less than 43 ° C, the activity of microorganisms becomes active, so that a lot of aroma unique to soy sauce is produced. Conversely, if the temperature exceeds 60 ° C, the burning odor becomes strong and the desired quality cannot be obtained.
醤油麹と加熱変性処理した大豆及び/又は脱脂加工大豆に混合する食塩水の温度は、50〜70℃程度が好ましく、50℃以下であると混合した際に諸味品温が低くなりすぎ、70℃以上であると醤油麹酵素が熱による失活を受けるために好ましくない。 The temperature of the salt solution mixed with the soy sauce cake and the heat-denatured soybean and / or the defatted soybean is preferably about 50 to 70 ° C., and when mixed with the temperature of 50 ° C. or less, the moromi product temperature becomes too low. It is not preferable that the temperature is higher than ℃ because the soy sauce koji enzyme is inactivated by heat.
上記条件で醸造を行う場合、その保持期間は3〜10週間、好ましくは4〜8週間である。3週間未満では濃厚感が不足し、麹菌由来の香りや原料臭を感じ、10週間を超えると焦げ臭が強くなり望ましい品質が得られない。 When brewing under the above conditions, the holding period is 3 to 10 weeks, preferably 4 to 8 weeks. If it is less than 3 weeks, the feeling of richness is insufficient, and a scent or raw material odor derived from Neisseria gonorrhoeae is felt, and if it exceeds 10 weeks, the burning odor becomes strong and the desired quality cannot be obtained.
仕込み原料としての醤油麹と加熱変性処理した大豆及び/又は脱脂加工大豆(生原料重量換算)の配合比率については、重量比で8:2〜3:7、好ましくは6:4〜4:6である。醤油麹の配合比率が8:2を超えると麹菌由来の香りが強くかつ濃厚感に欠け、醤油麹の配合比率が3:7未満では麹酵素による原料の消化率が低下するため望ましい品質が得られない。 The mixing ratio of soy sauce cake as a raw material and heat-denatured soybean and / or defatted soybean (raw material weight conversion) is 8: 2 to 3: 7, preferably 6: 4 to 4: 6 by weight. It is. If the ratio of soy sauce koji exceeds 8: 2, the aroma derived from koji mold is strong and lacks richness, and if the ratio of soy sauce koji is less than 3: 7, the digestibility of the raw material by koji enzyme decreases, so desirable quality is obtained. I can't.
諸味塩分濃度7〜13w/w%、諸味品温43〜60℃の温度範囲で保持する事により、雑菌、醤油乳酸菌、醤油酵母の活動が著しく抑えられる。この諸味より得られる醤油の乳酸含有量は0.3w/v%以下、アルコール含有量は0.5w/v%以下、さらに好ましくは乳酸含有量が0.1w/v%以下、アルコール含有量は0.2w/v%以下である。乳酸含有量が0.3w/v%、アルコール含有量が0.5w/v%を超えると醤油特有の味や香気が付与されてしまい目的とする品質が得られない。またヒスチジンを原料としてヒスタミンを生成するヒスチジン脱炭酸酵素を有する微生物の活動も抑制されるため、ヒスタミン含有量は10mg/100g以下さらに好ましくは5mg/100g以下ある。 The activity of miscellaneous bacteria, soy sauce lactic acid bacteria, and soy sauce yeast can be remarkably suppressed by maintaining the moromi salt concentration in the temperature range of 7 to 13 w / w% and the moromi product temperature of 43 to 60 ° C. The soy sauce obtained from this moromi has a lactic acid content of 0.3 w / v% or less, an alcohol content of 0.5 w / v% or less, more preferably a lactic acid content of 0.1 w / v% or less, and an alcohol content of It is 0.2 w / v% or less. If the lactic acid content exceeds 0.3 w / v% and the alcohol content exceeds 0.5 w / v%, a taste and aroma peculiar to soy sauce will be imparted and the intended quality will not be obtained. Moreover, since the activity of microorganisms having histidine decarboxylase that produces histamine using histidine as a raw material is also suppressed, the histamine content is 10 mg / 100 g or less, more preferably 5 mg / 100 g or less.
醸造が終了した諸味は常法により圧搾、必要に応じて生揚げろ過し、得られた生揚げに火入れを行う。火入れ処理については、例えば80〜120℃の温度で1分〜2時間にて行い、不溶性のオリが発生する場合はこれを除去して醤油を得る事ができる。 After the brewing, the moromi is squeezed by a conventional method, and if necessary, it is deep-fried and filtered. About the inking process, for example, it is performed at a temperature of 80 to 120 ° C. for 1 minute to 2 hours. When insoluble sediment is generated, soy sauce can be obtained by removing it.
本発明で得られる醤油は醤油特有の香気が少ないために素材そのものの風味やだし、香味野菜、香辛料等の風味を引き出し、さらには濃厚感を付与する効果がある。特に醤油特有の香気を必要としない料理、例えば麻婆豆腐やあんかけ焼きそば、豚角煮等の中華料理やサラダ、カルパッチョ、パスタ等の洋食でこの傾向は顕著であり、先味と後味に素材そのものの風味やだし、香味野菜、香辛料等の香りを感じさせ、中味は醤油のしっかりとした旨味や濃厚感が付与される。 The soy sauce obtained in the present invention has an effect of drawing out the flavor and soup of the material itself, flavored vegetables, spices and the like, and imparting a rich feeling because the soy sauce has little aroma unique to soy sauce. This tendency is particularly noticeable in dishes that do not require the flavor unique to soy sauce, for example, Chinese food such as mapo tofu, ankake yakisoba, pork simmered, and Western foods such as salad, carpaccio, and pasta. The flavor of the soy sauce, flavored vegetables, spices and the like is felt, and the contents are given the firm taste and richness of soy sauce.
以下に実施例を示して本発明を説明するが、本発明は実施例に限定されるものではない。 EXAMPLES The present invention will be described below with reference to examples, but the present invention is not limited to the examples.
以下の実施例で使用する醤油麹はそれぞれ加熱変性処理した脱脂加工大豆と加熱変性処理した小麦もしくはふすまを使用し、市販の種麹(ビオック社、一紫一号菌)を接種して常法により製麹を行ったものを使用する。加熱変性処理した大豆及び/又は脱脂加工大豆に関しては密閉容器内での加圧蒸煮処理、あるいはエクストルーダーによる高温高圧下での膨化処理により加熱変性処理した脱脂加工大豆を使用する。 The soy sauce koji used in the following examples uses heat-denatured defatted soybeans and heat-denatured wheat or bran, inoculated with commercially available seed koji (Bioc, Ichipura No. 1) Use the one that has been ironed by As for the heat-denatured soybean and / or defatted soybean, defatted soybean that has been heat-denatured by pressure steaming in an airtight container or by expansion at a high temperature and high pressure using an extruder is used.
試験例(1)
醤油麹と加熱変性処理した大豆及び/又は脱脂加工大豆を原料とした諸味の塩分濃度について検討を行った。Test example (1)
The salt concentration of moromi was studied using soy sauce cake and heat-denatured soybean and / or defatted soybean as raw materials.
醤油麹5KGと蒸煮し加熱変性処理した脱脂加工大豆9KGに諸味塩分濃度が5〜15w/w%の各塩分濃度となるように加温した食塩水を11.5LR加え、混合し、45℃の恒温室に入れ、該品温を保ちつつ4週間保持した後、圧搾、火入れ、ろ過して清澄な醤油を得た。各諸味について微生物の動向、官能評価の結果を表1に示す。 11.5 LR of salted water heated to a salt concentration of 5 to 15 w / w% was added to and mixed with defatted soybean 9KG steamed and heat-denatured with soy sauce lees 5KG, mixed, and mixed at 45 ° C. After putting it in a thermostatic chamber and keeping it for 4 weeks while keeping the product temperature, it was squeezed, fired and filtered to obtain a clear soy sauce. Table 1 shows the trend of microorganisms and the results of sensory evaluation for each moromi.
表1の官能評価では醤油特有の香気が少ない醤油として、◎は満足できる、○はやや満足できる、△は可能性はあるがやや不十分である、×は不適当である事を示している。表1から分かるように諸味塩分が高いほど窒素利用率が低くなり旨味の減少がみられた。また塩分が低いと腐敗がみられた。よって諸味塩分が7〜13w/w%となる濃度が好ましく、さらには9〜11w/w%が最も好ましい。 In the sensory evaluation of Table 1, as a soy sauce having a small flavor unique to soy sauce, ◎ is satisfactory, ○ is slightly satisfactory, △ is possible but somewhat insufficient, and x is inappropriate. . As can be seen from Table 1, the higher the moromi salinity, the lower the nitrogen utilization rate and the lower the taste. In addition, when the salinity was low, spoilage was observed. Therefore, a concentration at which the moromi salt content is 7 to 13 w / w% is preferable, and 9 to 11 w / w% is most preferable.
試験例(2)
醤油麹と加熱処理した大豆及び/又は脱脂加工大豆を原料とした諸味の品温条件について検討を行った。Test example (2)
The temperature conditions of the moromi were studied using soy sauce cake and heat-treated soybean and / or defatted soybean as raw materials.
醤油麹6KGと蒸煮し加熱変性処理した脱脂加工大豆9KGに諸味塩分濃度が10w/w%となるように加温した食塩水を14LR加え、混合し、各温度帯の恒温室に入れ、該品温を保ちつつ4週間保持した後、圧搾、火入れ、ろ過して清澄な醤油を得た。各諸味について微生物の動向、官能評価の結果を表2に示す。 Add 14LR of salted water heated to soy sauce lees 6KG, cooked and heat-denatured defatted soybean 9KG, so that the moromi salt concentration is 10w / w%, mix, put in the temperature-controlled room of each temperature zone, After keeping it warm for 4 weeks, it was pressed, fired and filtered to obtain a clear soy sauce. Table 2 shows the trend of microorganisms and sensory evaluation results for each moromi.
表2の官能評価では醤油特有の香気が少ない醤油として、◎は満足できる、○はやや満足できる、△は可能性はあるがやや不十分である、×は不適当である事を示している。表2から分かるように温度が高くなると濃厚感は付与されるが、65℃以上だと焦げ臭を感じるようになった。また温度が低いと旨味は強いが濃厚感に欠ける傾向にあり、40℃以下だと醤油特有の香気を強く感じた。よって諸味温度が43〜60℃となる温度が好ましく、さらには45〜58℃が最も好ましい。 In the sensory evaluation of Table 2, as a soy sauce with a little aroma unique to soy sauce, ◎ is satisfactory, ○ is slightly satisfactory, △ is possible but somewhat insufficient, and x is inappropriate. . As can be seen from Table 2, when the temperature is high, a rich feeling is imparted, but when the temperature is 65 ° C. or higher, a burning odor is felt. When the temperature is low, the umami is strong but tends to lack richness. When the temperature is 40 ° C. or lower, the flavor unique to soy sauce is strongly felt. Therefore, the temperature at which the moromi temperature is 43 to 60 ° C is preferable, and 45 to 58 ° C is most preferable.
試験例(3)
醤油麹と加熱処理した大豆及び/又は脱脂加工大豆を原料とした諸味の保持期間の条件について検討を行った。Test example (3)
The conditions of the retention period of the moromi which used soy sauce cake and the heat-processed soybean and / or defatted soybean as a raw material were examined.
醤油麹5KGとエクストルーダーによる高温高圧下での膨化処理により加熱変性した脱脂加工大豆4KGに諸味塩分濃度が11w/w%の各塩分濃度ととなるように加温した食塩水を19LR加え、混合し、50℃の恒温室に入れ、該品温を保ちつつ2〜12週間保持した後、圧搾、火入れ、ろ過して清澄な醤油を得た。各諸味について分析、官能評価の結果を表3に示す。 Add 19 LR of salt solution heated to each salt concentration of 11 w / w% to defatted soybean 4 KG heat-denatured by soaking sauce 5 KG and high-temperature and high-pressure expansion using extruder. Then, after putting it in a thermostatic chamber at 50 ° C. and keeping the product temperature for 2 to 12 weeks, it was squeezed, fired and filtered to obtain a clear soy sauce. Table 3 shows the results of analysis and sensory evaluation for each moromi.
表3の官能評価では醤油特有の香気が少ない醤油として、◎は満足できる、○はやや満足できる、△は可能性はあるがやや不十分である、×は不適当である事を示している。表3から分かるように保持期間が短くなると麹菌由来の香りや原料臭を感じるとともに濃厚感に欠け、期間が長くなると焦げ臭を感じるようになる。よって保持期間は3〜10週間が好ましく、さらには4〜8週間が最も好ましい。 In the sensory evaluation of Table 3, as soy sauce with a little aroma unique to soy sauce, ◎ is satisfactory, ○ is slightly satisfactory, △ is possible but somewhat insufficient, and x is inappropriate. . As can be seen from Table 3, when the retention period is shortened, the scent and raw material odor derived from Aspergillus are felt and lack of richness, and when the period is long, a burning odor is felt. Therefore, the retention period is preferably 3 to 10 weeks, and more preferably 4 to 8 weeks.
試験例(4)
醤油麹と加熱処理した大豆及び/又は脱脂加工大豆を原料とした諸味について醤油麹と加熱処理した大豆及び/又は脱脂加工大豆の比率について検討を行った。Test example (4)
The ratio of soy sauce cake and heat-treated soybean and / or defatted soybean was examined with respect to soy sauce cake and heat-treated soybean and / or defatted soybean.
醤油麹と蒸煮し加熱変性処理した脱脂加工大豆について各比率で混合し、諸味塩分濃度が11w/w%の塩分濃度ととなるように加温した食塩水を加え、混合し、50℃の恒温室に入れ、該品温を保ちつつ6週間保持した後、圧搾、火入れ、ろ過して清澄な醤油を得た。各諸味について官能評価の結果を表4に示す。 Degreased soybeans cooked with soy sauce cake and heat-denatured, mixed at various ratios, added with salt solution heated to a salt concentration of 11 w / w%, mixed, and mixed at a constant temperature of 50 ° C. After putting it in a room and keeping the product temperature for 6 weeks, it was squeezed, fired and filtered to obtain a clear soy sauce. Table 4 shows the results of sensory evaluation for each moromi.
表4の官能評価では醤油特有の香気が少ない醤油として、◎は満足できる、○はやや満足できる、△は可能性はあるがやや不十分である、×は不適当である事を示している。表4から分かるように醤油麹の配合率が高くなると麹菌由来の香り・原料臭を感じ、濃厚感に欠け、加熱変性処理した脱脂加工大豆の配合率が高くなると濃厚感は付与されるが、麹酵素による原料の消化率が低下するために旨味が弱くなる。よって醤油麹と加熱処理した大豆及び/又は脱脂加工大豆(生原料重量換算)の配合率は8:2〜3:7が好ましく、さらには6:4〜4:6が最も好ましい。 In the sensory evaluation of Table 4, as soy sauce with a low aroma peculiar to soy sauce, ◎ indicates that it is satisfactory, ○ indicates that it is somewhat satisfactory, △ indicates that it is possible but somewhat insufficient, and × indicates that it is inappropriate. . As can be seen from Table 4, when the blending ratio of soy sauce koji is high, the aroma and raw material odor derived from koji mold are felt, lacking a rich feeling, and when the blending ratio of heat-denatured defatted soybean is high, a rich feeling is imparted,旨 Taste is weakened because the digestibility of the raw material by the enzyme decreases. Therefore, the blending ratio of soy sauce cake and heat-treated soybean and / or defatted soybean (raw material weight conversion) is preferably 8: 2 to 3: 7, and most preferably 6: 4 to 4: 6.
試験例(5)
試験例(1)〜(4)では醤油特有の香気が少ない醤油を製造するために諸味塩分濃度、諸味品温、諸味保持期間、醤油麹と加熱変性処理した大豆及び/または脱脂加工大豆(生原料重量換算)の比率について検討を行った。この試験例で得られた醤油特有の香気が少ない醤油、実施例A−3、実施例B−6、実施例C−5、実施例D−6について一般的な濃口醤油と成分の比較を実施した結果を表5に示す。Test example (5)
In Test Examples (1) to (4), soy sauce with low aroma unique to soy sauce, moromi salt concentration, moromi product temperature, moromi retention period, soy sauce cake and heat-denatured soybean and / or defatted soybean (raw The ratio of raw material weight) was examined. Comparison of components with general concentrated soy sauce was conducted for soy sauce obtained in this test example, which has a small aroma unique to soy sauce, Example A-3, Example B-6, Example C-5, and Example D-6. The results are shown in Table 5.
表5から分かるように実施例各種の醤油特有の香気の少ない醤油は微生物活動が抑制されているために乳酸、アルコール含有量が一般的な濃口醤油と比較して低くなっており、微生物活動の抑制により醤油特有の香気も著しく抑えられている事が分かった。また、本発明の条件下で得られた醤油の乳酸含有量は0.3%w/v以下、アルコール含有量は0.5%w/v以下が好ましく、さらに乳酸含有量は0.1%w/v以下、アルコール含有量は0.2%w/v以下が最も好ましい。ヒスタミン含有量は10mg/100g以下が好ましく、さらには5mg/100g以下が最も好ましい。 As can be seen from Table 5, the soy sauces with low aromas unique to various soy sauce examples have a low lactic acid and alcohol content compared to general concentrated soy sauce because microbial activity is suppressed. It was found that the fragrance peculiar to soy sauce was remarkably suppressed by the suppression. The soy sauce obtained under the conditions of the present invention preferably has a lactic acid content of 0.3% w / v or less, an alcohol content of 0.5% w / v or less, and a lactic acid content of 0.1%. Most preferably, the alcohol content is not more than 0.2% w / v. The histamine content is preferably 10 mg / 100 g or less, more preferably 5 mg / 100 g or less.
試験例(6)
試験例(1)〜(4)で得られた醤油特有の香気が少ない醤油、実施例A−3、実施例B−6、実施例C−5、実施例D−6と一般的な濃口醤油を使い、各種料理について官能評価を実施した。なお、官能評価者は識別能力を有し、訓練された15名にて行った。各種料理に対して10〜8は満足できる、7〜6はやや満足できる、5〜3は可能性はあるがやや不十分である、2〜1は不適当であるとして評点し、平均値を結果として中華料理、洋食は表6、和食は表7に示した。Test example (6)
Soy sauce with a little aroma unique to soy sauce obtained in Test Examples (1) to (4), Example A-3, Example B-6, Example C-5, Example D-6 and general thick soy sauce The sensory evaluation was carried out on various dishes. The sensory evaluators had discriminating ability and were trained by 15 trainees. 10-8 are satisfactory for various dishes, 7-6 are somewhat satisfactory, 5-3 are possible but slightly insufficient, 2-1 are inappropriate and scored as average As a result, Table 6 shows Chinese food and Western food, and Table 7 shows Japanese food.
表6から分かるように中華料理、洋食各種では実施例は醤油特有の香気が少ないために素材そのものの風味やだし、香味野菜、香辛料等の風味を引き出し、さらには濃厚感を付与する効果が高かった。また表7から実施例はかえし感や濃厚感の付与には効果があるが、和食では相性が好ましくないものもあった。 As can be seen from Table 6, in the various Chinese and Western dishes, the examples have little soy sauce-specific aroma, so the flavor of the material itself, soup, flavored vegetables, spices, etc. are drawn, and the effect of imparting a rich feeling is high. It was. Moreover, although the Example is effective in providing a feeling of fold back and richness from Table 7, there were some things in which compatibility with Japanese foods was not preferable.
本発明により煩雑または不経済な製造工程を必要とせず、さらに麹菌、醤油乳酸菌、醤油酵母を由来とする醤油特有の香気が少なく、良好な風味を有し、かつ濃厚感がある新規醤油を製造することが可能となる。また本発明により得られた醤油は素材そのものの風味やだし、香味野菜、香辛料等の風味を引き出すような場合や海外への需要などに幅広く使用できるため、様々な分野での利用が期待される。 According to the present invention, no complicated or uneconomic manufacturing process is required, and a new soy sauce having a good flavor and a rich taste is produced with less aroma unique to soy sauce derived from koji mold, soy sauce lactic acid bacteria, and soy sauce yeast. It becomes possible to do. In addition, the soy sauce obtained by the present invention can be widely used in the case of extracting the flavor of the raw material itself, the flavor of vegetables, spices, etc., or for overseas demand, and is expected to be used in various fields. .
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