JP2014047431A - Pyrroloquinoline quinone-dyed fabric - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a fabric dyed with pyrroloquinoline quinone and an inexpensive and simple method of producing the fabric.SOLUTION: The method includes the steps of bringing a fabric into contact with a dyeing solution including pyrroloquinoline quinone represented by the following formula or its reduced form, or salt or ester thereof, and then bringing it into contact with a dyeing solution including metal ions or the like.

Description

The present invention relates to a dyed product using pyrroloquinoline quinone and a method for producing the same.

It has been attracting attention that fibers are coated with physiologically active substances such as vitamins to impart the properties of physiologically active substances to the fibers. For example, provision of a function of antioxidant activity by coating vitamin E on a fiber has been proposed (Patent Document 1). This dyeing is a method of applying to a fiber using a supercritical fluid of carbon dioxide, which requires a high-pressure vessel and has a disadvantage that necessary equipment is expensive. Furthermore, catechin (patent document 2), coenzyme Q10 (patent document 3) and the like have also been proposed. As a method of using catechin for dyeing, a mordanting process is performed, and there is an advantage that no special reagent or equipment is required. However, catechin is often a mixture of many substances, color reproduction, raw material Selection is difficult. Also, catechins are difficult to dye and difficult to color. Moreover, since it extracts from tea which is an expensive cultivation plant, it is expensive.
Coenzyme Q10 is used for dyeing as a method of adhering to fibers with an acrylic binder, and has the advantage that the equipment is not special. Coenzyme Q10 is a new oily substance and cannot be dissolved in water, so a special binder is required. is there.
Moreover, the conventional coating method using a physiologically active substance is a dyeing of cream or yellow, and cannot be achieved with respect to dyeing of red or green.

  Pyrroloquinoline quinone (hereinafter sometimes referred to as PQQ) has attracted attention as a useful substance for health supplements, cosmetics and the like. Furthermore, PQQ is present not only in bacteria but also in eukaryotic molds and yeasts, and plays an important role as a coenzyme. As for PQQ, anti-oxidation activity, cell proliferation promoting effect, anti-cataract effect, liver disease demand treatment effect, damage healing effect, anti-allergic effect, reverse transcriptase inhibitory effect and glyoxalase I inhibitory effect are controlled by recent years. Many physiological activities such as cancer action have been clarified.

The use of PQQ together with fibers has been described so far when enzymes and PQQ are used together (for example, Patent Documents 4 and 5), and examples of actual dyeing using pyrroloquinoline quinone on known fibers are known. Not.

JP 2008-038258 A JP 09-316786 A JP 2006-283246 A JP-A-1-218597 Japanese Patent No. 2072284

It is an object of the present invention to provide a fiber and fabric product having multiple functions such as an ultraviolet absorption function.
It is an object of the present invention to provide a staining method capable of staining red or green using a physiologically active substance that has not been found in the past.

式（１）

式（２）
［３］媒染液が金属イオン、酸化剤又は還元剤のいずれかを含む液である［１］又は［２］記載の染色方法。
［４］繊維が綿である［１］から［３］いずれか記載の染色方法。
［５］［２］から［４］いずれかの染色方法を用いて染色した布。 [1]
A dyeing method comprising a step of dyeing a fiber using a dyeing solution containing pyrroloquinoline quinones, and a mordanting step of contacting the fiber with a mordant containing a mordant before and / or after the step.
[2] The staining method according to [1], wherein the pyrroloquinoline quinones are pyrroloquinoline quinone represented by formula (1), reduced pyrroloquinoline quinone represented by formula (2), or a salt or ester thereof.

Formula (1)

Formula (2)
[3] The dyeing method according to [1] or [2], wherein the mordant liquid is a liquid containing any one of a metal ion, an oxidizing agent, and a reducing agent.
[4] The dyeing method according to any one of [1] to [3], wherein the fiber is cotton.
[5] A fabric dyed by using any one of the dyeing methods [2] to [4].

The present invention makes it possible to provide a fiber provided with multiple functions such as antibacterial properties and ultraviolet absorption properties, and a cheap and simple dyeing method thereof. Another object of the present invention is to provide a fiber having a texture of a color similar to that of plant dyeing.

The dyeing method of the present invention is a dyeing method comprising a step of dyeing fibers using a dyeing solution containing pyrroloquinoline quinones, and a mordanting step of contacting with a mordant containing a mordant before or after the step. .
By repeating these steps, the fabric can be dyed.

式（１）

式（２）
ＰＱＱ類の塩としては、ナトリウム塩、カリウム塩等のアルカリ金属塩、マグネシウム塩、カルシウム塩等のアルカリ土類金属塩、アンモニウム、トリエタノールアミン、トリメチルアミン等の有機アミン塩、リジン、アルギニン等の塩基性アミノ酸塩等が挙げられる。製造が容易であることからピロロキノリンキノンのフリー体、ナトリウム塩、カリウム塩が使用しやすく、より好ましくはジナトリウム塩である。 The PQQs used are pyrroloquinoline quinone represented by formula (1), reduced pyrroloquinoline quinone represented by formula (2), or salts and esters thereof.

Formula (1)

Formula (2)
PQQ salts include alkali metal salts such as sodium salts and potassium salts, alkaline earth metal salts such as magnesium salts and calcium salts, organic amine salts such as ammonium, triethanolamine and trimethylamine, and bases such as lysine and arginine. Amino acid salts and the like. Since it is easy to produce, free forms, sodium salts, and potassium salts of pyrroloquinoline quinone are easy to use, and disodium salts are more preferable.

The pyrroloquinoline quinone can be obtained by an organic chemical method or a fermentation method. For example, PQQ can be obtained by culturing a bacterium having an ability to assimilate methanol and producing PQQ using methanol as a carbon source. It is possible to obtain

The ester of PQQ can be synthesized from PQQ according to a conventional esterification reaction. For example, the triester form of PQQ can be prepared by reacting PQQ or a salt thereof with an alcohol under acidic conditions (JP-A-3-123781 and JP-A-3-145492), or using PQQ or a salt thereof as a base. It can be synthesized by a method of reacting with an alkyl halide, halogenated aralkyl, halogenated alkylaryl, halogenated alkenyl, halogenated alkynyl or the like in the presence.
A monoester form and a diester form can be obtained by partially hydrolyzing the triester form of PQQ obtained by the above method under acidic or basic conditions.

PQQs can be separated and purified from the reaction solution by a usual method such as column chromatography, recrystallization method, or solvent extraction method.
For identification, various means such as elemental analysis, NMR spectrum, IR spectrum, and mass spectrometry are used.

The dyeing solution containing pyrroloquinoline quinones can use water or an organic solvent as a solvent. As the organic solvent, methanol, ethanol, ethylene glycol, propylene glycol, hexane, acetone, methoxypropanol, dimethylacetamide, dimethylformamide and the like can be used. Preferably it is water. The solvent may be used alone or in combination.
The staining solution is preferably prepared and used so that the concentration of pyrroloquinoline quinones is 0.1 to 100 g / L.
The dyeing solution is preferably about 10 to 1000 times the weight of the fiber. The bath temperature at this time is preferably from room temperature to boiling temperature, and the dyeing time is preferably from 1 to 90 minutes, but is not necessarily limited to this range. The concentration can be selected from a wide range according to the purpose of the product.

The bath ratio in the mordanting step is preferably about 10 to 1000 times the weight of the fiber, and the room temperature to the boiling temperature, and the treatment time is preferably about 1 minute to 1 hour, but is not necessarily limited to this range. . The light fastness is improved by contacting with the mordant liquid.

As the mordant used, an organic acid, an inorganic acid, an organic base, an inorganic base or a salt thereof can be used. More specifically, a metal ion-containing liquid, a reducing agent-containing liquid, and an oxidizing agent-containing liquid can be used. A metal ion-containing liquid and a reducing agent-containing liquid are preferable. Specifically, in the case of a metal ion-containing liquid, Al, Fe, Cu, Sn, Ti, Ni, Cr, Ca, Ba, Mn, Mg, Co, Zn, or the like can be used as the metal ion. As the reducing agent, ascorbic acid, hydrazine, formic acid or the like can be used.
As mordants, in addition to aluminum acetate, aluminum sulfate, aluminum chloride, and alum, iron mordants (iron wood acetate, ferrous sulfate, iron nitrate), copper mordants (copper salts), and the like can also be used.

As the solvent for the mordant, water or an organic solvent can be used. Preferably it is water.
The concentration of the solute of the mordant can be changed as necessary, and can be used at 0.01 to 40% by weight. This concentration setting may be determined in consideration of the degree of dyeing and functionality. Similarly, the pH at this time may be determined in consideration of the degree of dyeing and functionality. If the pH is higher than 12, the fiber is likely to be deteriorated, so it is necessary not to use it or to perform it in a short time. The substance used for mordanting may be selected according to the function. In particular, when copper ions are used, antibacterial properties are imparted to the suction force.
After the mordanting process is completed, after-treatment such as soaping and washing is performed as appropriate, and then drying with sunlight or hot air is performed.
The dyeing step or / and the mordanting step can be repeated to increase the dyeing. The number of repetitions is not particularly limited as long as the target color is obtained. The mordanting process and the number of times of dyeing do not need to match, and can be freely selected as a recipe for dyeing conditions.

In the present invention, if necessary, the fiber can be desizing, scouring, bleaching, etc., and then contacted with a pretreatment liquid containing a cationizing agent as a mordanting pretreatment to perform cationization treatment. It can dye by making it contact.
As the cationizing agent, various commercially available cationizing agents can be used. For example, a cationizing agent (Danshade 185 manufactured by Nitto Boseki Co., Ltd.) can be used.
In many cases, the bath ratio during the cationization treatment is about 20 to 100 times the weight of the fiber, the bath temperature is about 60 ° C. to 90 ° C., and the treatment time is about 30 to 90 minutes. The concentration of the cationizing agent is appropriately set.

Examples of the material to be dyed include fibrils, yarns, piles, cotton-like materials, woven fabrics, knitted fabrics, non-woven fabrics, and flocked fabrics. Paper products and wood products are also included in the target materials.
The material of these fiber products can be selected from natural fibers such as cotton, hemp, silk, and wool, chemical fibers such as polyamide fibers, or blends, interwovens, and knitted products of these natural fibers and chemical fibers. is there. Of these, natural fibers such as cotton, hemp, silk, and wool are more preferable. The dyed fibers can be used as clothing, gauze, handkerchiefs, towels, furniture, curtains, yarns. The shape of the fiber may be any of yarn, woven fabric, knitted fabric, and non-woven fabric.

The fabric obtained by the dyeing method of the present invention contains 10 to 10000 μg of PQQs per 1 g of fiber. If it is smaller than this range, even if it is dyed, neither function nor color is sufficient.

Next, an example is given and explained in detail. This description is not limited to this.

In the examples, “%” indicates wt%.
The pyrroloquinoline quinone disodium used was manufactured by Mitsubishi Gas Chemical. Otherwise, Wako Pure Chemical Industries, Ltd. was used. Baked ammonium alum was used for food.

Dyeing test Preparation of dyeing solution 10 g of pyrroloquinoline quinone disodium was added to 1 L of ion-exchanged water, and NaOH was added to a pH of 7. This solution is 10 g / LPQQ.
Preparation of mordant solution Al solution: 20 g of calcined ammonium alum was dissolved by heating in 1 L of water.
Fe solution: 30 g of iron (II) sulfate heptahydrate was dissolved in 1 L of water.
Cu solution: 30 g of copper (II) sulfate pentahydrate was dissolved in 1 L of water.
VC solution: 30 g of ascorbic acid was dissolved in 1 L of water.

比較例１が示すように染色を行うには媒染処理が必要であった。鉄、銅は薄緑、アルミは赤色であった。金属イオンが配位結合により布に定着させていると予想される。金属イオンにより色を変えることができる。Al液で染色した布はサーモンの肉のような色で柔らかな風合いであった。また、鉄、銅の染色は植物の緑による染色を連想させる柔らかな風合いであった。
ＶＣ液はアスコルビン酸である。これによる処理は黄色がかっている。アスコルビン酸は還元作用によってＰＱＱを還元型に変えることで定着させていると考えられる。 Cotton fabric (15 cm square) 2.2 g (100% cotton purchased from Sanki Co., Ltd.) was charged into 1 L of 10 g / L PQQ heated to 70 degrees or more.
After 30 minutes, the plate was washed with water, then washed with 300 ml of each mordant at room temperature for 10 minutes, and this operation was repeated twice. As a comparative example, no mordant solution was used, and only water washing was performed.
For fixing amount of PQQ, 0.5 g of a dried cloth was cut out, added to 10 ml of 1% aqueous solution of disodium phosphate 12 hydrate, and heated at 70 ° C. for 3 hours. The dissolved solution was diluted 20 times with phosphate buffer (abbreviated as PBS, pH 7.4 Invitrogen), and the absorbance at 250 nm was measured. From this result, the fixing amount was calculated.
The results are shown in Table 1.

As shown in Comparative Example 1, a mordanting treatment was required for dyeing. Iron and copper were light green and aluminum was red. It is expected that metal ions are fixed to the cloth by coordination bonds. The color can be changed by metal ions. The fabric dyed with Al solution had a soft texture with a salmon meat-like color. The dyeing of iron and copper was a soft texture reminiscent of the green dyeing of plants.
The VC solution is ascorbic acid. The process by this is yellowish. Ascorbic acid is considered to be fixed by changing PQQ to a reduced form by a reducing action.

Functional evaluation test Antibacterial (bacterial reproduction) test E. coli JM109 was used. 50 μL of JM109 solution, which was cultured overnight in LB medium and thawed from a cryopreserved solution containing 20% glycerin, was used for the fabric prepared in Example 1-4. Before the evaluation, steam sterilization was performed at 121 ° C. for 30 minutes (referred to as cloths A to D).
Planted in 5 ml of LB medium and cultured overnight at 30 ° C. The supernatant was removed with a centrifuge and resuspended in phosphate buffer (may be abbreviated as PBS). Turbidity (660 nm) at this time was 4.5.
What diluted this bacterial solution 1000 times with PBS was put into a 10 ml petri dish. Each cloth of 5 cm square was put into this solution and left at 30 ° C. for 1 hour. The cloth was taken out and excess water was removed with a Kim towel. The cloth was placed in a 15 ml container, and the bacteria were extracted with 1 ml of PBS. 50 μL of this solution was spread on an LB agar medium and placed at 37 ° C. for 1 day. The number of colonies was counted. The results are shown in Table 2.

布を入れないものと比較して細胞濃度は高くなっており、皮膚刺激性について染色した影響はない。
抗菌性について非常に強い効果が銅の媒染で出ていた（一般的には通常の布の2倍で抗菌性ありと判断）。他の媒染処理では強力な抗菌作用は見られなかった。
本発明により抗菌性のある染色ができた。 Skin irritation test Proliferation in animal cells was tested as a model of skin irritation. If there is a decrease in proliferative potential, consider skin irritation.
Chinese hamster ovary cells CHO-DHFR- were used. 6 × 10 ⁴ pieces were placed in a 3.5 cm petri dish. After 1 day, each 1 cm square cloth was added and cultured for 1 day. The cloth was taken out, the medium was removed, and 200 μL of trypsin-EDTA was peeled off. After adding 800 μL of PBS, the number of cells was counted.
As a comparative example, a cotton fabric that was not dyed and an operation that did not contain cloth were performed.
These results are summarized in Table 2.

The cell concentration is higher than that without the cloth, and there is no staining effect on skin irritation.
A very strong effect on antibacterial properties was exhibited by copper mordanting (generally judged to be antibacterial at twice the normal cloth). Other mordant treatments did not show a strong antibacterial effect.
According to the present invention, antibacterial dyeing was achieved.

Example 9 Repeated dyeing operation In Example 1, the repeated dyeing operation was performed twice. This was made 5 times. As a result, a fabric dyed darker than Example 1 was obtained. Five dyeings can produce a dark dyed fabric. The color can be increased by repeating the dyeing operation. By repeating the dyeing process in this way, a cloth having a target density can be produced.

ＰＱＱで染色することで、紫外線をカットすることができ、日焼けによる障害を防止することができる。また、染色を濃くすることでより効率的に紫外線を通さない布を作ることができた。 Ultraviolet Absorption Test Co., Ltd. Custom UV intensity meter UV-340C was used. The measurement wavelength is 250-390 nm. Measurements were taken in direct sunlight. Each cloth was placed on the sensor portion, and the ultraviolet intensity was measured. The results are shown in Table 3.
The intensity of sunlight at the time of measurement was 455 × 10 μW / cm ² .
The dyed fabrics of Examples 1-4 and 9 were used for the experiment.

By dyeing with PQQ, ultraviolet rays can be cut, and damage due to sunburn can be prevented. In addition, it was possible to make a cloth that did not pass ultraviolet rays more efficiently by increasing the dyeing.

Example 15 Preparation of handkerchief dyeing solution 10 g of pyrroloquinoline quinone disodium was added to 1 L of ion-exchanged water. The pH was not adjusted and was 3.5.
Preparation of mordant solution Al solution: 20 g of calcined alum was dissolved by heating in 1 L of water.

Four handkerchiefs (made of cotton) were immersed in hot water at about 40 ° C. for 1 minute. This was applied to 500 ml of mordant at room temperature for 1 minute. After squeezing by hand, it was immersed for 3 minutes in 1 L of a dyeing solution boiling in a stainless steel pan. After taking out and squeezing, it was put in 500 ml of mordant liquid for about 1 minute. Washed with 500 ml of water. This was repeated a total of 3 times. I swam handkerchiefs with chopsticks to avoid unevenness during each operation. The dyed handkerchief was dried. A handkerchief dyed dark red-brown was obtained. It was dyed deeply by putting the mordanting treatment before dyeing.

The present invention is effective in the field of functional fiber products.

Claims (5)

A dyeing method comprising a step of dyeing a fiber using a dyeing solution containing pyrroloquinoline quinones, and a mordanting step of contacting the fiber with a mordant containing a mordant before and / or after the step. The staining method according to claim 1, wherein the pyrroloquinoline quinone is pyrroloquinoline quinone represented by formula (1), reduced pyrroloquinoline quinone represented by formula (2), or a salt or ester thereof.

Formula (1)

Formula (2) The dyeing method according to claim 1 or 2, wherein the mordant liquid is a liquid containing any one of a metal ion, an oxidizing agent, and a reducing agent. The dyeing method according to any one of claims 1 to 3, wherein the fiber is cotton. A fabric dyed by using the dyeing method according to claim 2.