JP6250085B2 - Lycopene flavor inhibiting method, lycopene flavor inhibiting agent, processed tomato, tomato-containing beverage and method for producing the same - Google Patents

Description

  The present invention relates to a method for inhibiting lycopene flavor, a lycopene flavor inhibitor, a processed tomato, a tomato-containing beverage, and a method for producing the same.

  Conventionally, people have been drinking tomato-containing beverages to maintain their health, and examples include straight tomato juice, concentrated reduced tomato juice, and concentrated tomato beverage.

  In recent years, lycopene is a tomato ingredient that people are paying attention to. Lycopene is a typical functional component of tomato and has a high level of recognition. A method for easily taking lycopene is to drink a tomato-containing beverage. Therefore, the degree of attention of tomato-containing beverages is high.

  What is required of tomato-containing beverages for easy drinking is not only functional value but also improvement in ease of drinking. Patent Document 1 discloses a tomato-containing beverage, and its purpose is to suppress the sourness of tomato without adding anything other than tomato. The tomato-containing beverage has a sugar content of 7.0 to 13.0 and a sugar acid ratio of 19.0 to 30.0.

JP 2012-223141 A

  The problem to be solved by the present invention is to suppress lycopene flavor in tomato-containing beverages. As described above, the tomato-containing beverage contains lycopene. It is an unpleasant taste that lycopene presents when taken. In other words, the flavor of lycopene is one of the factors that make it difficult to drink.

  The inventor of the present application has focused on the time (feeling duration) from the start of feeling the flavor in the tomato-containing beverage to the end of feeling. In two fragrances, if each sensory duration is similar, the other is suppressed by one, provided that it has a certain odor intensity. From such a point of view, the inventors of the present application have found through trial and error that the sensory duration of methyl salicylate aroma substantially matches the sensory duration of lycopene flavor. That is, methyl salicylate suppressed the unpleasant taste of lycopene when drinking tomato-containing beverages. The invention completed by the present inventor under this knowledge is as follows.

  It is at least adjustment that constitutes the lycopene flavor suppressing method according to the present invention. That is, in a tomato-containing beverage, the methyl salicylate content is adjusted to 200 ppb or more. More preferably, it is as follows. The methyl salicylate content is 200 ppb to 800 ppb. In the tomato-containing beverage, the lycopene content is 20 mg% to 30 mg%. In the tomato-containing beverage, the sugar content is 9.0 degrees to 13.5 degrees.

  The active ingredient of the lycopene flavor inhibitor according to the present invention is methyl salicylate. In the flavor inhibitor, the lycopene is contained in a tomato-containing beverage. Here, what the “agent” does not exclude is the active ingredient itself.

  The active ingredient of the processed tomato according to the present invention is methyl salicylate. The use of the processed tomato is to suppress lycopene flavor in tomato-containing beverages. Here, what is included in “processing” includes, but is not limited to, concentration, squeezing, crushing, and culling.

  The tomato-containing beverage according to the present invention contains at least lycopene and methyl salicylate. The content of lycopene is 20 mg% to 30 mg%. The methyl salicylate content is 200 ppb or more. More preferably, it is as follows. In the tomato-containing beverage, the methyl salicylate content is 200 ppb to 800 ppb. In the tomato-containing beverage, the sugar content is 9.0 degrees to 13.5 degrees.

  What constitutes the method for producing a tomato-containing beverage according to the present invention is at least preparation. That is, it is a tomato-containing beverage obtained by preparing methyl salicylate or a food containing the same. In the tomato-containing beverage, the lycopene content is 20 mg% to 30 mg%. In the tomato-containing beverage, the methyl salicylate content is 200 ppb or more. More preferably, it is as follows. In the production method, the methyl salicylate content is 200 ppb to 800 ppb. The sugar content of the tomato-containing beverage is 9.0 degrees to 13.5 degrees.

  The present invention makes it possible to suppress lycopene flavor in tomato-containing beverages.

<Outline of tomato-containing beverage according to the present embodiment>
The components contained in the tomato-containing beverage according to the present embodiment (hereinafter referred to as “the present beverage”) are at least lycopene and methyl salicylate. Here, the tomato-containing beverage is a beverage whose main raw material is a tomato (hereinafter also referred to as “tomato processed raw material”), for example, straight tomato juice, concentrated reduced tomato juice, concentrated Tomato beverages. The distribution form of the beverage is preferably a container. Examples of containers are PET containers, paper containers, cans and the like.

<Tomato processing raw material>
Tomato processing raw materials are enumerated: tomato juice (straight fruit juice), concentrated tomato (tomato puree and tomato paste), reduced tomato juice of concentrated tomato, and processed juice thereof. In order to explain the definition of tomato juice (straight fruit juice) and concentrated tomato, this specification incorporates the Japanese agricultural and forestry standards for processed tomato products (final revision May 19, 2009, Ministry of Agriculture, Forestry and Fisheries Notification No. 669). No.). Also, for the detailed explanation of squeezing and concentration, the contents of the latest fruit juice / fruit beverage dictionary (supervised by the Japan Fruit Juice Association) are incorporated herein. An example of the processed juice is depulped juice. The pulp removal juice is a squeezed juice of tomato or a reduced juice of concentrated tomato and is obtained by removing a part or all of the insoluble solid content.

<Lycopene content of this beverage>
The lycopene content of this beverage is 20 mg% to 30 mg%. When the lycopene content is 20 mg% or more, the unpleasant taste of lycopene is felt. Moreover, when lycopene content exceeds 30 mg, there is no drink appropriateness of a tomato containing drink. This is because the viscosity of the beverage increases as the amount of tomato used increases. The measurement means of lycopene is a high performance liquid chromatography analysis method (HPLC method).

<Lycopene flavor in tomato-containing beverages>
As described above, the unpleasant taste is felt when the lycopene content of the tomato-containing beverage is 20 mg% or more. Lycopene presents a fat-like flavor. Such lycopene flavor is one of the causes of difficulty in drinking. The lycopene flavor is felt when drinking. That is, such an unpleasant taste is felt when a tomato-containing beverage is included in the mouth (so-called scent). The unpleasant taste is continuously felt from the middle to the end. On the other hand, even if the tomato-containing beverage is sniffed (so-called standing incense), the unpleasant taste is not felt.

<Methyl salicylate content of this beverage>
The methyl salicylate content of this beverage is 200 ppb or more, preferably 200 ppb to 800 ppb. In a tomato-containing beverage, if the methyl salicylate content is 200 ppb or more, the lycopene flavor is suppressed. In addition, if the methyl salicylate content is 300 ppb to 800 ppb, the palatability of the tomato-containing beverage increases. When the content is from 300 ppb to 800 ppb, methyl salicylate exhibits because of its grape-like sweet aroma. On the other hand, if the methyl salicylate content exceeds 800 ppb, the palatability of the tomato-containing beverage decreases. This is because when the content exceeds 800 ppb, the ship-like aroma becomes strong. The means for measuring methyl salicylate is gas chromatography mass spectrometry (GC-MS method).

<Aroma of methyl salicylate in this beverage>
As mentioned earlier, methyl salicylate presents a ship-like aroma. When this drink is included in the mouth, the scent of ship is felt. The aroma is felt from the middle to the end. As described above, the present inventors have intensively studied and found out that in the tomato-containing beverage, the feeling of each fragrance is similar between lycopene and methyl salicylate. In other words, it is methyl salicylate that appropriately suppresses the lycopene flavor in tomato-containing beverages.

<Methyl salicylate and food containing it>
Methyl salicylate is a widely known food flavor. Methyl salicylate is also a natural component. That is, methyl salicylate is contained in various plants (vegetables, fruits, etc.), for example, tomato. The tomato straw is preferably removed. Tomatoes may be heated or unheated. This is because the heated tomato has a methyl salicylate content that is not zero. The food containing methyl salicylate refers to food that has the same effect as when the component is added. This specification captures the contents of Japanese Patent Application Laid-Open No. 2014-113096.

<Lycopene flavor suppression application>
As apparent from the above, the use of methyl salicylate found by the present inventor is lycopene flavor suppression of tomato-containing beverages. That is, the active ingredient of such a lycopene flavor inhibitor is methyl salicylate. The blending destination of the lycopene flavor inhibitor is a tomato-containing beverage. In the tomato-containing beverage, the lycopene content is 20 mg% to 30 mg%. The compounding quantity of the said lycopene flavor inhibitor is 200 ppb or more in a tomato containing drink, Preferably, it is 200 ppb thru | or 800 ppb. The explanation of the active ingredient and the use is the same for the processed tomato.

<Method for producing this beverage>
The juice production process, the blending process, the sterilization process, the filling process, the sealing process, and the cooling process mainly constitute the production method of the present beverage (hereinafter referred to as “the present production method”). The present specification incorporates the contents of the latest fruit juice and fruit beverage dictionary (supervised by the Japan Juice Association) for a general description of these processes. Each step can be omitted as appropriate.

<Formulation and adjustment>
It is the blending process that mainly constitutes this manufacturing method. In this blending step, the methyl salicylate content of the beverage is adjusted to 200 ppb or more, more preferably 200 ppb to 800 ppb. The raw material to be formulated is methyl salicylate or a food containing methyl salicylate in addition to the raw material for processing tomatoes. These details are as described above. This method is realized simultaneously with a method for suppressing lycopene flavor in tomato-containing beverages.

<Preparation method of sample 1>
Water was added to tomato paste (sugar content 28.2 degrees, lycopene content 62 mg%), and the mixture was stirred and mixed. Then, hot pack filling and cooling were performed to obtain a tomato-containing beverage having a sugar content of 13.5 degrees, a lycopene content of 30 mg%, and a methyl salicylate content of 1.8 ppb.

<Method for Preparing Sample 2>
By adding water to the tomato-containing beverage of Sample 1, a tomato-containing beverage having a sugar content of 10.5 degrees, a lycopene content of 23 mg%, and a methyl salicylate content of 1.4 ppb was obtained.

<Preparation method of sample 3>
By adding water to the tomato-containing beverage of Sample 1, a tomato-containing beverage having a sugar content of 9.0 degrees, a lycopene content of 20 mg%, and a methyl salicylate content of 1.2 ppb was obtained.

<Preparation method of sample 4>
By adding water to the tomato-containing beverage of Sample 1, a tomato-containing beverage having a sugar content of 8.0 degrees, a lycopene content of 18 mg%, and a methyl salicylate content of 1.1 ppb was obtained.

<Method for Preparing Sample 5>
By adding water to the tomato-containing beverage of Sample 1, a tomato-containing beverage having a sugar content of 7.0 degrees, a lycopene content of 15 mg%, and a methyl salicylate content of less than 1.0 ppb was obtained.

<Method for Preparing Sample 6>
Water was added to tomato paste (sugar content 28.2, lycopene content 50 mg%), and the mixture was stirred and mixed. Then, hot pack filling and cooling were performed to obtain a tomato-containing beverage having a sugar content of 10.5 degrees, a lycopene content of 19 mg%, and a methyl salicylate content of 1.3 ppb.

<Preparation methods of Examples 1 to 3>
Methyl salicylate was added to the tomato-containing beverage of Sample 1, and the tomato-containing beverages of Examples 1 to 3 in which the contents of methyl salicylate in the beverage were 200 ppb, 400 ppb, and 1000 ppb, respectively, were obtained.

<Preparation Method of Comparative Example 1>
Methyl salicylate was added to the tomato-containing beverage of Sample 1, and the tomato-containing beverage of Comparative Example 1 in which the content of methyl salicylate in the beverage was 100 ppb was obtained.

<Preparation methods of Examples 4 to 7>
Methyl salicylate was added to the tomato-containing beverage of sample 2, and the tomato-containing beverages of Examples 4 to 7 having the methyl salicylate content in the beverage of 200 ppb, 300 ppb, 400 ppb, and 1000 ppb, respectively, were obtained.

<Preparation Methods of Comparative Examples 2 to 4>
Methyl salicylate was added to the tomato-containing beverage of Sample 2, and the tomato-containing beverages of Comparative Examples 2 to 4 were obtained, in which the methyl salicylate content in the beverage was 20 ppb, 40 ppb, and 100 ppb, respectively.

<Preparation Methods of Examples 8 to 10>
Methyl salicylate was added to the tomato-containing beverage of Sample 3, and the tomato-containing beverages of Examples 8 to 10 in which the contents of methyl salicylate in the beverage were 200 ppb, 400 ppb, and 1000 ppb, respectively, were obtained.

<Preparation Method of Comparative Example 5>
Methyl salicylate was added to the tomato-containing beverage of Sample 3, and the tomato-containing beverage of Comparative Example 5 in which the content of methyl salicylate in the beverage was 100 ppb was obtained.

<Preparation Method of Example Samples 11 to 13>
Methyl salicylate was added to the tomato-containing beverage of Sample 1, and the tomato-containing beverages of Example Samples 11 to 13 in which the contents of methyl salicylate in the beverage were 700 ppb, 800 ppb, and 900 ppb, respectively.

<Preparation Method of Example Samples 14 and 16>
Methyl salicylate was added to the tomato-containing beverage of Sample 2, and the tomato-containing beverages of Example Samples 14 to 16 in which the contents of methyl salicylate in the beverage were 700 ppb, 800 ppb, and 900 ppb, respectively.

<Preparation Method of Example Samples 17 and 19>
Methyl salicylate was added to the tomato-containing beverage of Sample 3, and the tomato-containing beverages of Example Samples 17 and 19 in which the contents of methyl salicylate in the beverage were 700 ppb, 800 ppb, and 900 ppb, respectively.

<Measurement of sugar content>
The sugar content (Brix) measuring instrument employed in this measurement is a digital refractometer RX5000i (manufactured by ATAGO). The product temperature at the time of measurement was 20 degrees.

<Measurement of lycopene>
The lycopene measurement method employed in this measurement is the HPLC method. The sample was subjected to solvent extraction and filtered through a known method, and used as a specimen. Detailed measurement conditions are as follows.

<HPLC apparatus configuration>
Autosampler: SIL-10ADvp (SHIMADZU)
Pump: LC-10ADvp (SHIMADZU)
Column oven: CTO-10Avp (SHIMADZU)
Detector: SPD-10AVvp (SHIMADZU)
<Measurement conditions>
Column: ODS (REVERSE-PHASE C18)
(Chemical Substance Evaluation Research Organization L-Column
4.6mm x 150mm)
Mobile phase: acetonitrile: methanol: tetrahydrofuran mixed solution
(55: 40: 5 (v / v)
(Containing α-tocopherol 50 ppm)
Flow rate: 1.5 mL / min
Detection wavelength: 453 nm
Column temperature: 40 ° C
Sample injection volume: 10 μL
Analysis time: 20 min

<Measurement of methyl salicylate>
In the measurement of methyl salicylate employed in this measurement, the sample was pretreated by a star bar extraction method (SBSE method), and then the component was detected by a gas chromatography mass spectrometer (GC-MS). Detailed pretreatment conditions and measurement conditions are as follows.

<Pretreatment conditions>
Pretreatment method: Star bar extraction method (SBSE method)
Sampling amount: 5g
Internal standard substance: 10 μL of 10 ppm 1,2-dichlorobenzene solution added Stir bar: PDMS Twister manufactured by Gerstel
Temperature: Room temperature Number of revolutions: 750 rpm
Stirring time: 60 min
<TDU (thermal desorption unit) conditions>
TDU: 30 ° C. → 720 ° C./min→260° C. (3 min)
CIS: −50 ° C. → 12 ° C./sec→250° C. (10 min)
<GC-MS conditions>
GC: Agilent Technologies 7890B
MS: Agilent Technologies 5977A
Inlet: Solvent vent mode
Liner: Tenax TA packed Column: J & W DB-WAXetr
(30m × 250μm × 0.25μm)
Oven temperature: 40 ° C. (5 min) → 10 ° C./min→
240 ° C (17 min)
Control mode: Pressure program Pressure: 431.52 kPa
Carrier gas: Helium Measurement mode: Scan mode (mass range 29-450)
Quantitative ion mass: m / z 120
Lower limit of quantification: 1.0 ppb

<Sensory evaluation>
First, as a preliminary evaluation, using the tomato-containing beverages of Samples 1 to 5, whether or not lycopene flavor was felt was evaluated by a binary selection method, and a threshold value for feeling lycopene flavor was determined. Subsequently, when sample 2 and sample 6 were compared, a panel that had a strong lycopene flavor, that is, a person who could select sample 2 having a high lycopene content, was selected as a panel having a lycopene flavor discrimination capability. This evaluation was performed by a three-point identification method using five selected panels, and the suppression effect of lycopene flavor was verified for each of Examples 1 to 10 and Comparative Examples 1 to 5. The evaluation of whether or not there is a lycopene flavor suppressing effect was performed by the binary selection method. In addition, in the evaluation of the selected five panelists, if the panel was able to answer correctly from the low-concentration methyl salicylate group to the high-concentration section, the panel was considered to have the discriminating ability. Based on the evaluation results of the panel, a significant difference test (risk rate 5%) was performed.

<Measurement results and sensory evaluation results>
Table 1 shows the lycopene content of the tomato-containing beverages of Samples 1 to 5 and the presence or absence of lycopene flavor. From the results in Table 1, it was found that the lycopene flavor was felt when the lycopene content in the tomato-containing beverage was 20 mg% or more. Tables 2 to 4 show Evaluation Category 1 (Examples 1 to 3, Comparative Example 1, Control: Sample 1), Evaluation Category 2 (Examples 4 to 7, Comparative Examples 2 to 4, Control: Sample 2), In this example, the inhibitory effect of lycopene flavor by methyl salicylate in tomato-containing beverages in Evaluation Category 3 (Examples 8 to 10, Comparative Example 5, Control: Sample 3) was verified. From the results of Table 2 to Table 4, in tomato-containing beverages having a lycopene content of 20 mg% to 30 mg%, it was confirmed that when the methyl salicylate content was 200 ppb to 1000 ppb, the lycopene flavor could be significantly suppressed at a risk rate of 5%. did it. Table 5 shows the sensory characteristics felt when drinking the tomato-containing beverages in Examples 11 to 19. From the results of Table 5, it was confirmed that a ship odor was exhibited when the content of methyl salicylate exceeded 800 ppb.

<Discussion>
From the results of Examples 1 to 10 and Comparative Examples 1 to 5, it was confirmed that methyl salicylate was effective in suppressing lycopene flavor. Separately from this test, the addition test was also conducted for hexanal, which is a main fragrance component contained in tomato and exhibits a fragrance from the top to the middle. The lycopene flavor suppressing effect could not be confirmed. Furthermore, an addition test was also conducted on 2,5-dimethyl-4-hydroxy-3 (2H) -furanone, which is an aroma component contained in tomato and exhibits an aroma from middle to end, but has a lycopene flavor similar to hexanal. The sensory duration was not substantially the same, and the unpleasant taste suppression effect could not be confirmed. Based on the above, what is important for suppressing lycopene flavor is not simply an ingredient that roughly matches the classification of the aroma response time by top, middle, and end, but the sensation duration that feels as lycopene flavor when drinking It is that it is a component which corresponds.

<Physical properties of tomato-containing beverage>
Based on the results of Tables 2 to 5, when the tomato-containing beverage obtained by this production method is defined, (1) the lycopene content in the tomato-containing beverage is 20 mg% to 30 mg%, and the content of methyl salicylate Is 200 ppb or more, and (2) its sugar content is from 9.0 degrees to 13.5 degrees.

<Container>
The tomato-containing beverage according to the present invention is filled with various containers, and examples thereof include paper containers, PET containers and cans (160 ml cans, 190 ml cans, 350 ml cans, Ito cans, drum cans, etc.). The labeling of the container complies with laws and regulations, but if it is a tomato-containing beverage, it is a tomato beverage, a high lycopene content, or the like. These are mainly displayed on paper containers, PET containers and cans (160 ml cans, 190 ml cans, 350 ml cans).

  The field in which the present invention is industrially applicable is the production and sale of tomato-containing beverages.

Claims (9)

A method for suppressing lycopene flavor, which comprises at least:
Adjustment,
What is adjusted here is the methyl salicylate content of a tomato-containing beverage with a lycopene content of 20 mg% to 30 mg%, thereby reducing the methyl salicylate content to 20
0 ppb or more. The method of claim 1, comprising:
The methyl salicylate content is 200 ppb to 800 ppb. The method of claim 1 or 2, comprising
The sugar content of the tomato-containing beverage is 9.0 degrees to 13.5 degrees. A tomato-containing beverage,
The lycopene content is 20 mg% to 30 mg%, and
Its methyl salicylate content is 200 ppb or more. A tomato-containing beverage according to claim 4 ,
The methyl salicylate content is 200 ppb to 800 ppb. A tomato-containing beverage according to claim 4 or 5 ,
Its sugar content is 9.0 degrees to 13.5 degrees. A method for producing a tomato-containing beverage comprising at least
Compounding,
What is formulated here is methyl salicylate or a food containing it, the tomato-containing beverage obtained thereby has a lycopene content of 20 mg% to 30 mg%, and
The methyl salicylate content is 200 ppb or more. The manufacturing method according to claim 7 ,
The methyl salicylate content is 200 ppb to 800 ppb. The manufacturing method according to claim 7 or 8 ,
The sugar content of the tomato-containing beverage is 9.0 degrees to 13.5 degrees.