JP2020162581A - White mold ripened cheese - Google Patents

Abstract

To provide: a white mold ripened cheese provided with novel characteristics by smoke treatment while maintaining flavor and texture peculiar to the white mold ripened cheese; and a method for manufacturing the same.SOLUTION: Smoke treatment is carried out so that a phenol content of a surface part of a white mold ripened cheese is 100 μg/g or more.SELECTED DRAWING: None

Description

The present invention relates to smoke-treated mildew-based cheese.

Smoked cheese is a cheese flavored with smoke and is widely used in hors d'oeuvres and cooking. Therefore, inventions related to smoked cheese have been disclosed so far.
Reference 1 (Japanese Patent Laid-Open No. 2003-79313) describes not only processed cheese but also natural cheese, which has a characteristic flavor, so that it can be made into a smoked flavor while making the best use of its flavor, so that it can be easily and briefly at room temperature. The challenge is to propose a method for producing smoked cheese that can be smoked, and as a solution to this, the smoke from the smoke generator is drawn into a smoke chamber equipped with a humidifying spray device that generates negative ions. Disclosure of a method for producing smoked cheese at room temperature for a short time, which is characterized in that cheese in a chamber charged with positive ions is smoked at room temperature by using ion mist smoke to fill it with ion mist smoke. are doing.

Cited Document 2 (Patent No. 392184) maintains the texture peculiar to natural cheese without using molten salts and emulsifiers that are essential for processing into processed cheese, and yet is like pasta filata cheese. The challenge is to provide smoked natural cheese with a high fat content and no oil-off in order to maintain the richness and taste peculiar to natural cheese, rather than a special structure. The water content is 35% by weight or less, and the maturity index. We disclose smoked natural cheese with less oil-off, which is made by smoking natural cheese with STN / TN value of 20% or less.

Reference 3 (Republished 2015-5321) is a bite-sized piece of smoked cheese that has a strong smoked flavor but prevents the deterioration of texture due to the hard film generated on the surface of smoked cheese. Disclosure of bite-sized smoked cheese, characterized in that 40-75% of the total surface area of bite-sized cheese is smoked and the remaining surface is not smoked. are doing.

Japanese Unexamined Patent Publication No. 2003-79313 Japanese Patent No. 392184 Republished 2015-5321 Pamphlet

The inventions described in Patent Documents 1 to 3 are inventions relating to smoking treatment of natural cheese. For example, Camembert is described in the specification of Patent Document 3 as an example of a large number of natural cheeses to be smoked. White mold cheeses such as Camembert cheese and Camembert cheese are listed as examples, and examples of smoking Camembert cheese are described. However, these patent documents only suggest or describe the smoke treatment of mildew-based cheese as one aspect of the smoke treatment of natural cheese, and the smoke treatment particularly suitable for mildew-based cheese is described. It is not disclosed.
An object of the present invention is to impart new characteristics to the mildew-based cheese by smoke treatment while maintaining the flavor and texture peculiar to the mildew-based cheese. It is to provide a mildew-based cheese and a method for producing the same.

In order to solve the above problems, the present invention includes the following configurations.
(1) Mildew-based cheese characterized by containing 100 μg / g or more of phenols on the surface portion.
(2) White mold cheese of (1) characterized in that the upper limit of the amount of phenols on the surface portion is 200 μg / g (3) The amount of phenols on the surface portion is 105 to 190 μg / g. The white mold cheese according to (1) or (2) (4), which comprises a step of smoking treatment so that the amount of phenols on the surface portion is 100 μg / g or more. Production method.
(5) The method for producing mildew-based cheese according to (4), wherein the upper limit of the amount of phenols on the surface portion is 200 μg / g.
(6) The method for producing mildew-based cheese according to (4) or (5), wherein the amount of phenols on the surface portion is 105 to 190 μg / g.

The present invention provides an unprecedented smoke-treated mildew-based cheese and a method for producing the same. Specifically, the smoke-treated white mold cheese according to the present invention is a raw type white that is not sterilized by retort because the flavor of smoke is added and excessive aging is suppressed by the action of the white mold. Although it is a mold-based cheese, it can be stored for a long period of time, which is a special effect.

The smoke-treated white mold cheese of the present invention will be described in detail below.
1. 1. Smoked white mold cheese
(Mildew cheese)
The "mildew-based cheese" of the present invention is a natural cheese defined by "Ministry Ordinance on Ingredient Standards for Milk and Dairy Products (December 27, 1951, Ministry of Health and Welfare Ordinance No. 52)" It includes all types of cheese that grow mildew. Examples of the mildew-based cheese include Camembert, Brie, Coulommiers, Caledurest, Nuschatel, Chaource, Pate sorbilize and the like.

Mildew in white mold cheese is said to release proteolytic enzymes and promote the ripening of cheese. Mildew cheese is characterized by its flavor and taste changing as it is aged by the mildew, but if it is aged too much, the odor of ammonia becomes stronger.
For this reason, raw cheese is also subjected to retort sterilization or the like to improve its storage stability.

(Smoke treatment)
In the present invention, smoke treatment is applied to a type of cheese in which white mold grows on the surface.
Here, the smoke treatment is a treatment in which smoke generated when wood or the like is burned is applied to food, and the scent and components of smoke are added to the food. By this treatment, the taste, aroma, and color of the food are changed, and the food is given a smoke flavor and a smoke color. Smoked smoke contains many components, but there are reports that carbonyl compounds, phenols, acids, etc. are typical components, and that phenols affect the aroma of smoke-treated foods. It is also reported that in the smoke treatment, the amount of phenol in food increases as the smoking time increases, and the amount of phenol component in food increases as the smoke concentration increases.

(Smoked white mold cheese)
The present inventors paid attention to the amount of phenol contained in the surface portion of the mildew-based cheese, and by setting this in an appropriate range, it was not possible to obtain it by the conventional smoke treatment simply by applying it to smoke. , It was found that new characteristics can be imparted to mildew cheese. The present invention is based on this new finding.

That is, in the smoked mildew-based cheese of the present invention, the phenols on the surface of the smoke-based cheese are in the range of 100 to 200 μg / g by the smoke treatment. The amount of phenols on the surface of the mildew-based cheese is preferably 105 to 190 μg / g, more preferably 110 to 180 μg / g.
By adjusting the amount of phenol to such a value, a smoked mildew-based cheese having a good flavor can be obtained, and excessive aging of the mildew-based cheese due to the action of mold can be suppressed. Therefore, the mildew-based cheese can be stored for a long period of time without any treatment such as retort sterilization.
When the content of phenols is less than 100 μg / g, the degree of smoke treatment is too weak and mildew regenerates, and ripening cannot be suppressed. On the other hand, when the content of phenols exceeds 200 μg / g, the storage stability of the mildew-based cheese is improved, which is preferable, but the degree of smoke treatment is strong and the smoke flavor is strong. Therefore, the content of phenols is preferably less than 200 μg / g.
Such characteristics are the effects achieved in the present invention by setting the content of phenols on the surface of the mildew-based cheese to a specific numerical range by smoke treatment. This is a feature of the present invention.

2. How to make smoked mildew cheese
(Manufacturing of mildew cheese)
The smoked mildew-based cheese of the present invention conforms to a general manufacturing method such as a traditional manufacturing method that lowers the minimum pH of cheese curd to about 4.6, and a stabilizing manufacturing method that keeps the minimum pH of curd higher than 5.0. It is obtained by producing mildew-based cheese and smoking it.

Mildew cheese produced by this traditional method develops white mold on the surface of the cheese from about the 3rd day of aging, and after the 10th day, aging progresses from the surface, and the aged part is a hard card. It changes from a shape to a paste-like structure.
Mildew cheese includes a raw type that has not been sterilized by retort after fermentation and molding, and a retort type that has been sterilized by retort. In the present invention, a retort sterilization treatment can be performed after the raw type smoke treatment.

(2) Smoke Treatment As the smoke treatment method, any method can be adopted as long as it is a method used for normal food smoke treatment. In addition to the generator method, which usually introduces the smoke generated by the smoke generator into the smoke chamber to perform smoke treatment, a direct flame type, an electronic smoke method, or a method of applying liquid smoke can also be adopted. In the direct fire type, the inside of the refrigerator becomes hot and the cheese may not be melted by heat, so good smoke treatment may not be possible. Therefore, smoke such as generator method, electronic smoke method, and liquid smoke application, which are less affected by heat The processing method is preferable.

The smoke treatment is usually performed under vague conditions such that the surface of the cheese is lightly colored, but in the present invention, the degree of the smoke treatment is important. That is, as described above, the phenols are set in the range of 100 to 200 μg / g, preferably in the range of 105 to 190 μg / g, and more preferably in the range of 110 to 180 μg / g.

(3) Other manufacturing processes and conditions As smoke chips used for smoking, cherry blossoms, walnuts, apples, hickory, beech, whiskey oak, etc. are used, but cherry blossoms are preferable.

3. 3. Phenol content measurement method Sample the cheese surface so that the length x width x thickness is 20 x 20 x 2.5 mm and use it as a sample. Phenols can be measured according to Gibbs' method (Reference [Tucker, IW; Evaluation of Phenols in Meat and Fat JAOAC, XXV 779 (1942)).
That is, 60% ethanol is added to the sample, pulverized, and the supernatant separated by centrifugation at 3000 rpm for 10 min is used as the sample solution. pH 8.3 Add 0.5 ml of an appropriately diluted sample solution to 0.5 ml of boric acid-potassium chloride buffer. Add 0.1 ml of 0.6% NaOH and adjust to pH 9.8. The coloring reagent is prepared by dissolving 0.25 g of 2,6-dichloro-N-chloro-p-benzoquinone monoimine in 30 ml of anhydrous alcohol. Add 0.1 ml of a coloring reagent diluted 15-fold with distilled water, develop color at room temperature for 25 minutes, and measure the absorbance at a wavelength of 580 nm. Create a calibration curve with 2,6-dimethoxyphenol and calculate the concentration.

Examples of the present invention will be described in detail below, but the present invention is not limited thereto.
1. 1. Prototype examples of example products and comparative example products,

Camembert, which is a typical white mold cheese, was prepared by a usual production method. That is, the prepared milk adjusted to a fat content of 3.8% is sterilized and cooled at 75 ° C. for 15 seconds, and then a lactic acid bacterium starter and rennet are added to coagulate the milk. After cutting this coagulated curd and holding it for a certain period of time, it is placed in a hoop to completely separate and mold the curd and whey, soaked in a saline solution and salted, and contains P. camemberti or P. candidum spores. Spray the suspension onto the surface.
Next, the surface was dried in a drying chamber having a temperature of 14 ° C. and a relative humidity of 75% for 1 to 2 days, and then aged in a aging chamber having a temperature of 14 ° C. and a relative humidity of 95%.
After aging this cheese for 4 weeks from the production, it was smoked by a smoke generator method. The smoke temperature was 30 ° C., the smoke time was 120 minutes, and the smoke treatment was performed using cherry chips.
Then, pH measurement and sensory evaluation were performed 6 weeks and 8 weeks after production. The sensory evaluation was performed by five skilled panelists regarding flavor, appearance, and texture.

[Comparative Example 1]
The Camembert cheese of Example 1 was aged for 4 weeks from the production, and then smoke-treated by a smoke generator method. The smoke temperature was 30 ° C, the smoke time was 30 minutes, and the smoke treatment was performed using cherry chips. This cheese was subjected to pH measurement and sensory evaluation immediately after smoking (4 weeks after production), 6 weeks and 8 weeks after production.

[Comparative Example 2]
The Camembert cheese of Example 1 was aged without smoking, and pH measurement and sensory evaluation were performed 4 weeks, 6 weeks, and 8 weeks after production.

2. Measurement Results of Phenols Example 1 was 150 μg / g of phenols.
Comparative Example 1 was 70 μg / g of phenols.
Comparative Example 2 was 5 μg / g of phenols.

実施例1は、製造6週間後、8週間後共に、製造4週間後から大きなpHの変化がなかった。一方、比較例１は、製造8週間後には再び白カビが周りを覆い、pHは高くなっていた。さらに、比較例２では、燻煙を行っていない通常の熟成であるため、製造8週間後にはpHは高くなっていた。

In Example 1, there was no significant change in pH from 4 weeks after production in both 6 weeks and 8 weeks after production. On the other hand, in Comparative Example 1, the white mold covered the surroundings again 8 weeks after the production, and the pH was high. Further, in Comparative Example 2, the pH was high 8 weeks after the production because it was a normal aging without smoking.

4. Sensory Evaluation Results Example 1 had a good appearance and a good flavor both after 6 weeks and 8 weeks after production. The white mold cheese without retort treatment had a strong bitterness and ammonia odor when it was overripe, but these tastes and aromas were not felt. The structure also maintained an appropriate hardness without becoming too paste-like.

In Comparative Example 1, white mold grew 6 weeks after production, further aging progressed, and 8 weeks later, white mold began to cover the surroundings, and aging progressed again, and bitterness and ammonia odor began to become stronger. The tissue was pasty and quickly melted. It was not possible to maintain the state immediately after the smoke treatment in terms of flavor, appearance, and texture.

In Comparative Example 2, it was just about to be eaten 4 to 6 weeks after production, but it became overripe after 8 weeks, and the inside was melted by a toro, and the bitterness and ammonia odor were strong.
From these facts, even in Camembert without retort treatment, it is possible to produce "raw type smoked Camembert" having high storage stability and good flavor by performing sufficient smoke treatment as in Example 1. It was.

Claims (6)

Mildew cheese characterized by containing 100 μg / g or more of phenols on the surface. The mildew-based cheese according to claim 1, wherein the upper limit of the amount of phenols on the surface portion is 200 μg / g. The mildew-based cheese according to claim 1 or 2, wherein the amount of phenols on the surface portion is 105 to 190 μg / g. A method for producing mildew-based cheese, which comprises a step of smoking treatment so that the amount of phenols on the surface portion is 100 μg / g or more. The method for producing mildew-based cheese according to claim 4, wherein the upper limit of the amount of phenols on the surface portion is 200 μg / g. The method for producing a mildew-based cheese according to claim 4 or 5, wherein the amount of phenols on the surface portion is 105 to 190 μg / g.