KR101233116B1 - Method for Multiplication and Extraction lutein from Leguminous Plants - Google Patents

Abstract

The present invention relates to a method for obtaining a large amount of lutein from soybeans, and more particularly, to germinating the seeds of soybean, drying and crushing the germinated soybean (bean sprouts), soaking in an organic solvent and concentrating the filtrate under reduced pressure. By obtaining a germinated soybean (bean sprouts) extract, and the step of separating and purifying lutein from the germinated bean (bean sprouts) extract by increasing the amount of lutein contained in a small amount in the seed beans in a simple manner by a simple method It relates to a method of obtaining.
According to the present invention, soybeans can be provided as a new source of lutein, and can be obtained by remarkably increasing the content of lutein contained in soybeans by high technical level or without much capital administration or effort.

Description

Method for obtaining large amounts of lutein from soybeans {Method for Multiplication and Extraction lutein from Leguminous Plants}

The present invention relates to a method for obtaining a large amount of lutein from soybeans, and to a method for increasing a large amount of lutein contained in a small amount in the seed state beans in a simple manner.

Beans ( Glycine max L.) is Korea's main food crop, which contains a large amount of protein (about 40%) and lipids (about 20%), and is an excellent food in terms of nutrition. It is also an important source of vegetable oil. Soybean is processed in the form of fermented products such as soybean paste, cheonggukjang, red pepper paste, soy sauce, germinated products such as bean sprouts, and other products such as soy milk, tofu, and edible oil. It is also widely used as a raw material.

Soybeans are evaluated to contain various biologically active substances that are beneficial to the human body in addition to the main nutritional functions. Therefore, the search for these nutrients and biologically active substances, the establishment of analytical methods, and the systematic review of useful resources at home and abroad should be conducted. It will act as a key factor in increasing usability and strengthening competitiveness.

As a technique using a protein as a component of such a bean, Korean Patent No. 0350827 discloses a method for producing a ham and sausage-type soybean processed product based on the bean, and Korean Patent No. 0283797 discloses a soy protein and soybean Functional noodles containing the peptide derived from and a method for preparing the same are disclosed, Korean Patent No. 0878329 discloses a method for producing soy sausage using tissue soy protein.

In addition, as a technique using isoflavones, Korean Patent No. 0620568 discloses a method for extracting, separating and purifying isoflavones from soybeans using supercritical / subcritical water, and Korean Patent No. 0891165 reinforcing isoflavones. 칡 Cheonggukjang and a health supplement food composition for preventing osteoporosis containing the same as an active ingredient is disclosed, Korean Patent No. 0525875 discloses a soy protein concentrate having a high isoflavone content and its manufacturing process, Korean Patent Registration Korean Patent No. 0766226 discloses soybean and soy sauce using a germinated soybean with high isoflavone content, and Korean Patent No. 0549494 discloses an isoflavone fortified germinated bean and a method for manufacturing the same. No. 0557006 discloses fermented lactic acid bacteria fermented with isoflavone, a plant female hormone substance, and a method for producing the same. It is disclosed, Korean Patent No. 0475129 discloses a method for extracting isoflavones from by-products during the preparation of miso.

In addition, Korean Patent Laid-Open Publication No. 2002-0068256 discloses a method for producing a plant having an increased content of flavonoids and phenolic components by a genetic method. Are the mainstream, and technology development using them is the main situation, and there are few studies on various other functional ingredients.

On the other hand, as a method for increasing the content of functional components contained in soybeans, new breeding, cultivation of high-containing new species through selection and analysis of pure and high-based systems through breeding and analysis of soybean genetic resources, hybrid breeding, molecular breeding and mutant breeding It is made by complex breeding, cultivation, physiology and biotechnological methods, such as increasing the content by improving the method, increasing the content by using enzymes or fermentation. There is a difficulty such as being consumed.

That is, until now, there have been no reports on a variety of studies focusing on lutein contained in soybean, or a method of increasing lutein content in soybean.

The inventors of the present invention have completed the present invention by remarkably increasing the amount of lutein contained in the seed state soybean during germination of the beans while searching for the functional components of the soybean.

Accordingly, an object of the present invention is to provide a method for obtaining a large amount of lutein from soybean.

As an example for achieving the above object, a method for obtaining a large amount of lutein from the soybean of the present invention, germinating the seeds of the soybean; Drying and crushing the germinated bean (bean sprouts), immersing in an organic solvent, and concentrating the filtrate under reduced pressure to obtain a germinated bean (bean sprouts) extract; And separating and purifying lutein from the germinated bean (bean sprouts) extract.

Hereinafter, a method of obtaining a large amount of lutein from the soybean of the present invention will be described in detail.

First, germination of beans.

In order to obtain a large amount of lutein, in the present invention, soybeans are germinated, that is, cultivated as bean sprouts. Soybean germination is performed by immersing the seeds of soybeans in water and intermittently spraying them in a dark state where room temperature and high humidity are maintained. The immersion is preferably immersed for 4 to 12 hours in water of 18 to 25 ℃ room temperature for smooth germination. After sufficient immersion, germination is performed at room temperature and high humidity, that is, in a dark state in which relative humidity is maintained at 50 to 100% at room temperature. The soybean can be applied to any of the seeds of the plant belonging to the legume.

The intermittent sprinkling can be made by sprinkling for 1 to 10 minutes at intervals of 4 to 6 hours, and cultivation is convenient when using a device equipped with a timer. Germination is 20 days from the cotyledon and hypocotyl separation time, preferably 4 to 15 days.

Secondly, it is a step of obtaining germinated bean (bean sprouts) extract.

The germinated bean (bean sprouts) is dried and pulverized, immersed in an organic solvent, and the filtrate is concentrated under reduced pressure to obtain a germinated bean (bean sprouts) extract.

The germinated soybean (bean sprouts) is to include the cotyledon and hypocotyl, it can be used germinated soybeans from the time when the cotyledon and hypocotyl is separated after the germination, preferably 2 to 20 days after germination It is preferable to use lutein in terms of obtaining.

Lutein has 40 carbons and 56 hydrogens, but it shows fat solubility due to its structural features including only a few hydroxyl groups (OH). Therefore, it is not soluble in a completely polar solvent such as water. Therefore, it is preferable to use a polar or nonpolar organic solvent as an extraction solvent.

As the polar or non-polar organic solvent, lower alcohols having 2 to 5 carbon atoms, acetone, acetonitrile, ethyl acetate, chloroform, dichloromethane, ethyl ether, xylene, hexane and the like may be used.

As the organic solvent, the polar solvent having a polarity of 5 to 6, such as alcohol or acetonitrile, is relatively well soluble. However, these solvents have excellent solubility in various polar substances including sugars. When organic solvents are used, there is a tendency to comprehensively extract lutein and other polar substances including sugars, flavonoids, glycosides, and proteins.

In addition, lutein, which shows fat-soluble properties, can be extracted well using organic solvents such as ethyl acetate, chloroform, butanol, propanol, dichloromethane, ethyl ether, xylene, and hexane, which exhibit relatively moderate or non-polar characteristics. The solubility of substances with lower polarity than lutein, such as chlorophyll compounds with lower polarity, pheophytin derivatives, carotene compounds including alpha and beta carotene, lipids, and the like, is extremely increased, leading to greater incorporation of nonpolar substances.

On the other hand, acetone shows a level of 5.1 similar to alcohols in terms of polarity, but the sugar, glycoside, and protein components present in a large amount in the plant are extremely poor in solubility in acetone, and thus acetone is not easily extracted when used as a solvent. Even if a small amount is extracted, cold soaking has the advantage that the solubility is extremely low and precipitates in the form of a precipitate, which can be removed by filtration, thereby extracting lutein of relatively high purity.

The solvent may be used in a weight of 5 to 20 times the weight of the dry powder of the germinated soybean, the extraction may be applied to a variety of methods, such as low temperature dark conditions extraction, room temperature extraction, ultrasonic extraction.

Thirdly, the lutein is separated and purified.

The germinated soybean (bean sprouts) extract from which the acetone was removed was concentrated, and then subjected to column chromatography to obtain fractions of lutein, each fraction was concentrated to dryness and redissolved, and then purified and purified by preparative HPLC.

The structure of the obtained lutein was identified by various spectroscopic methods such as NMR, MS, etc. As a result, lutein having the structure shown in the following formula (1) was obtained, which is a known substance.

The lutein plays an important role in protecting the plant from ultraviolet rays and antioxidant effects in the plant body, and is widely known to humans as a major component of the macular and lens of the eye to enhance eye health and vision. In addition, the macular pigment density is affected by the concentration of lutein in the serum according to the intake of lutein, and if the macular pigment density is increased by the intake of lutein, the visual acuity is improved, especially in the state of macular degeneration. Increasing the content of lutein as a diet has been reported to stimulate the production of macular pigment may inhibit the progression of macular degeneration.

On the other hand, soybeans contain lutein of 0.89 to 6.53 μg / g, but on average 2.66 μg / g [SD 1.25 μg / g], depending on the variety or plantation.

As is well known, efforts to increase the content of specific components in plants include the selection of pure and high-containing systems through the collection and analysis of genetic resources, breeding new high-growth and breeding through hybrid breeding, molecular breeding and mutant breeding. It is achieved by complex breeding, cultivation, physiology and biotechnological methods, such as increasing the content through improved methods, increasing the content using enzymes or fermentation methods. These methods are not only very time-consuming and economical, but also successful. Even if the content is increased by the adoption of the method, there is a problem in the passive content increase in which the width of the content increase is only 0.5 to 2 times.

However, germinated soybean (bean sprouts) extract obtained by a simple method of germinating soybeans is somewhat different depending on the variety of soybean, but the whole dried germinated soybean contains lutein in the range of 2 to 60 ㎍ of 1g, and the whole germinated soybean. At least 80% is contained in the cotyledons, and the lutein contained in the cotyledons is usually 2 to 100 µg / g. Thus, lutein can be obtained by using cotyledons or hypocotyls of germinated beans or cotyledons and hypocotyls together, and lutein can be more efficiently obtained when the cotyledons are used separately.

Meanwhile, in the present invention, a simple method of germinating seed beans may yield 10 to 50 times the amount of lutein compared to the seed beans, and in particular, the lutein contained in the germinated beans may be in an active form in the body. It was confirmed to exist. This is simply obtained by extracting the active lutein in the form of free lutein, which immediately shows lutein activity in the body, by using a solvent, in order to extract lutein existing in the ester salt state from the existing marigold extract. The advantage is that you can do it.

According to the present invention described above, the content of lutein contained in soybean can be obtained by increasing the average 10 times or more.

In addition, the lutein obtained by the present invention can be used as a raw material of the composition for the treatment, prevention, or improvement of macular degeneration previously applied to lutein, as well as may be widely used in various fields.

According to the present invention, soybeans can be provided as a source of new lutein, and can be obtained by remarkably increasing the content of lutein contained in soybeans without high technology level or large capital administration or effort.

1 is a photograph of the result of germination of beans for 10 days.
Figure 2 shows the HPLC analysis chromatogram of germinated soybean extract.
Figure 3 shows the ¹ H-NMR spectrum of the lutein compound isolated from the germinated soybean extract.
Figure 4 shows the mass spectrometry spectrum of the lutein compound isolated from the germinated soybean extract.
5 is UV-VIS of the lutein compound isolated from the germinated soybean extract. The spectrum is shown.
Figure 6 is a graph showing the change in lutein content before and after germination of raw soybean varieties [5 days germination].

Hereinafter, the present invention will be described in detail with reference to examples, but the present invention is not limited to the following examples. In addition, in the following Examples, Experimental Examples and Comparative Examples, the beans before germination are represented by "seeds," and the beans after germination as "sprouts."

Example  1. Germination of Beans

Ten varieties of herb beans grown in Korea were used. Germination was carried out by putting 20 g of beans in a plastic growing container of 6 cm (width) × 6 cm (length) × 14 cm (height) at 20 ℃. After immersion in water for 4 hours, it was cultivated in a dark state with a temperature of 20 ° C. and a humidity of 80% using a self-developed growing device (Hanbaek Co., HB-301L, Seoul). During the germination of the beans, water was sprayed on the stomach for 3 minutes every 4 hours using an automatic watering device equipped with a timer.

Example  2. Preparation of Germinated Bean Sprout Extract

Sampling for lutein content comparison by germination days was made up to 10 days at 2 days intervals after germination. After lyophilization was used. In addition, the germination conditions and preparation of the samples for the comparative test between the five varieties of soybeans germination period using 10 varieties of herbs for the germination period was the same as above.

That is, after adding 10 mL of acetone to 1.0 g of the crushed sample and extracting for 30 minutes in an ultrasonic extractor at 40 ℃ condition, centrifuged at a speed of 3,000 rpm for 10 minutes to recover the supernatant, filtered with filter paper to obtain a bean sprout extract, Again filtered by 0.45μm syringe filter and analyzed by HPLC.

In addition, the preparation of soybean sprout extract for the isolation and structure identification of lutein was grown for 10 days with 500g Pungsan bean soybean as a sample according to the method of Example 1, the cultivated bean sprouts are put in a freezer at -80 ℃ freezer and then frozen After freeze-drying, pulverized and passed through a 60 mesh sieve was extracted using the separated soybean sprout grinding sample.

That is, after adding 1 L of acetone to 100 g of the crushed sample was extracted for 30 minutes in an ultrasonic extractor at 40 ℃ condition, it was extracted three times in the same manner. All the extracted solutions were combined in Whatman No. Filtration was carried out using 2 spots, and the insoluble precipitate was refiltered while standing at -20 ° C low temperature for 24 hours.

The filtered acetone extract was concentrated in a vacuum concentrator at 40 ℃ to prepare a yellow bean sprout acetone extract from which the acetone solvent was removed.

Comparative example  1. Preparation of soybean (seed) extract before germination

Comparison of lutein content by germination days and preparation of soybean extract for lutein content analysis of raw soybean-containing 10 varieties of herb beans were passed through a 60 mesh sieve and pulverized raw soybean used in Example 1 and then acetone in 1.0 g of crushed sample. After the addition of 10mL and extracted for 30 minutes in an ultrasonic extractor at 40 ℃ condition, centrifuged for 10 minutes at a speed of 3,000rpm at room temperature conditions to recover the supernatant and filtered through filter paper to obtain a soybean (seed) extract before germination, again 0.45μm It was filtered through a syringe filter of and analyzed by HPLC.

Experimental Example  1. Isolation and Structure Identification of Lutein

The soybean (seed) extract obtained by Comparative Example 1 and the bean sprout extract obtained in Example 2 were analyzed by HPLC, HPLC analysis conditions are shown in Table 1 below, and HPLC analysis results are shown in FIG. 2. .

In addition, separation was performed using preparative HPLC (Agillent 1200 series, USA) on the bean sprout extract of Pungsan Sprout Bean germinated, and the column was separated by HiQ sil C18-10 (21.0 × 250 mm). , KYA TECH, Japan), analytical wavelength 430 nm, flow rate 10 mL / min, solvent A as solvent, 75% methanol, solvent B as ethyl acetate, concentration gradient (0 min: 70% A, 25 min: 15% A). , 26 minutes: 70% A, 35 minutes: 70% A), and the sample injection amount was adjusted to 2mL to perform high purity separation. As a result of the separation, several kinds of compounds showing yellow and green color were separated, and lutein corresponding substances were analyzed by NMR, UV-VIS spectral analysis and mass spectrometry. Results of chemical shift analysis of ¹ H-NMR (300MHz, CDCl ₃ ) results of lutein are shown in Table 2, and the ¹ H-NMR spectrum is shown in FIG. 3.

division Condition   column YMC AM 303 (250 × 4.6mm)   Mobile phase (farming condition)     A: 75% MeOH, B: 100% EtOAc   wavelength 430 nm   Flow rate 1.0 mL   Dose 20 μL   Temperature 30 ℃

^{In the 1} H-NMR (300 MHz, CDCl ₃ ) spectral measurement results, when we look at the ¹ H- ¹ H correlation, Me-18 '(1.63 ppm) and H-3' (4.25 ppm) of the alicyclic compound region Presuming to correlate with anterior H-2 '(eq, 1.86 ppm and ax, 1.38 ppm) protons, a peak of 5.55 ppm could be determined as H-4' and H-7 '(5.44 ppm) H-8 '(6.15ppm) and ^{H-6' (2.42ppm) 1} H- 1 H -related signals of the peak could be identified by the (correlation signal). In addition, the protons of the two secondary hydroxy groups corresponding to H-3 and H-3 'were found in the 4.00 ppm and 4.25 ppm regions, respectively, and H-16 / by 1D selective NOESY. viewed as a corresponding to the H-2ax, H-16 / H-17, H-18 / H-17 peak indicating the correlation _{CH 3 -16, CH 3 -18,} H-2ax, H-3 are all the same It was found in the ring. The NOESY correlations of the H-19 / H-7, H-19 / H-10 and H-20 / H-14 peaks were also able to identify CH ₃ bound to the hydrocarbon group. 19 'and H-20' were identified. The proton peak of the olefin group was found to be between 5 and 7 ppm. In particular, the multiplet signal up to 6.65 ppm was H-15 / H-15 '(6.65 ppm) and H-11 / H-. 11 '(6.63ppm), H-7 / H-7' (6.44ppm), H-12 / H-12 '(6.36ppm), H-14 / H-14' (6.25ppm), H-8 / Peaks were identified by pairs of H-8 ′ (6.12 ppm) protons.

Position 隆_H Position 隆_H One One'    2 ax  1.48 (m)   2' ax  1.38 (dd, 13, 7) eq  1.79 (m) eq  1.86 (m) 3  4.00 (m) 3 '  4.25 (m, br)    4 ax  2.05 (m) 4'  5.55 (m, br) eq  2.38 (m) 5 5 ' 6 6 '  2.42 (d, 9.5) 7 6.12 ov ^a 7 '  5.44 (dd, 15.5, 10.1) 8 6.12 ov ^a 8' 6.15 ov ^a 9 9 ' 10 6.17 ov ^a 10 ' 6.14 ov ^a 11  6.63 (dd, 14.3, 11.4) 11 '  6.61 (dd, 15.0, 11.4) 12  6.36 (d, 14.7) 12 '  6.36 (d, 14.7) 13 13 ' 14  6.25 (m) 14 '  6.25 (m) 15  6.65 (m) 15 '  6.65 (m) 16  1.07 (s) 16 '  1.00 (s) 17  1.07 (s) 17 '  0.85 (s) 18  1.74 (s) 18 '  1.63 (s) 19  1.97 (s) 19 '  1.91 (s) 20  1.97 (s) 20 '  1.97 (s)

On the other hand, protons of H-2 (1.48ppm and 1.79ppm) and H-2 '(1.38ppm and 1.86ppm) were identified in different regions from protons of other olefin groups. Instead of pairing with the protons of the group, it was found in the vicinity of 1.3 to 1.8 ppm because of the pairing with the surrounding methyl group. Other methyl groups (CH ₃ , H-16-H-20, H-16'-H-20 ') were identified in the vicinity of 1-2 ppm, a region in which typical methyl peaks appear.

Mass spectrometry of the isolated material [FIG. 4] and UV-VIS. From the analysis of the spectrum [Fig. 5], m / z = 569.3, UV-VIS. Absorption spectra showed λ (nm) = 426, 448, 476.

At least ¹ H-NMR, MS and UV-VIS. As a result of comprehensive analysis of the spectrum, the separation material was yellow, and was identified as (all-trans) -lutein having a chemical formula of C ₄₀ H ₅₆ O ₂ = 569.3, which is a known substance [Formula 1].

Experimental Example  2. Comparison of Lutein Content Before and After Germination of Raw Soybeans

Lutein content of the bean sprouts germinated for 5 days by the method of Example 2 and the varieties of raw beans (seeds) was measured by the method of Experimental Example 1, and the results are shown in Table 3 and FIG. 6.

kind Analysis target Lutein Content (µg / g) Exhausted Beans strain 2.68 Bean sprouts 20.14 Wish beans strain 2.75 Bean sprouts 38.40 Poongsan Herb Bean strain 3.86 Bean sprouts 29.78 Iksan Green Beans strain 2.33 Bean sprouts 26.82 Jewel Beans strain 2.73 Bean sprouts 31.78 Beans strain 1.10 Bean sprouts 28.32 Galaxy beans strain 6.28 Bean sprouts 38.64 Wonkwang strain 5.49 Bean sprouts 32.19 Somyung Bean strain 2.86 Bean sprouts 25.83 Southwest bean strain 5.51 Bean sprouts 32.97

As shown in Table 3, as a result of reviewing the lutein content in the seed state and soybean sprouts grown for 5 days by disclosing 10 varieties of soybeans such as bovine soybeans, the lutein content in the average seed of 10 varieties was 3.6㎍ / g However, when germinating soybeans, the average lutein content was confirmed to increase to a level of 30.5㎍ / g, at least 6 times and as much as 26 times (average 10 times).

As a result, if soybeans germinate more than the seed state, the lutein content increases by at least 6 times and up to 26 times even after only 5 days of cultivation. You can see that germination is more efficient.

Experimental Example  3. of germinated beans Germination Day  Check Lutein Content

The lutein content of each bean and germinated bean (bean sprouts) by germination days was measured by the method of Experimental Example 1 while germinating using two types of Pungsan Sprout Bean and Gem Bean by the method of Example 2, and the results are shown in the following table. 4 is shown.

kind Cultivation Days  Lutein Content (µg / g) Bean sprouts cotyledon Hypocotyl Poongsan Herb Bean       0 (seed) 1.63 2 2.47 1.8 2.75 4 10.03 9.3 2.28 6 28.9 35 2.55 8 39.54 61.33 2.43 10 45.45 81.71 2.12 Jewel Beans       0 (seed) 2.13 2 2.63 2.36 2.74 4 12.12 6.6 3.46 6 25.24 24.54 1.75 8 29.45 38.51 3.05 10 29.91 44.35 1.75

As shown in Table 4, as a result of examining the lutein content by the number of growing days, there is a difference depending on the variety, but the lutein content gradually increases as the number of growing days, the total germinated soybean is 10 The content of pear (jewel bean) to 27 times (poongsan bean beans) increased, and the cotyledons showed an extremely increased content from 14.2 times (jewel bean) to 50 times (poongsan bean beans).

On the other hand, even if the number of cultivation days increased, the content in the hypocotyl did not change much. Pungsan green bean beans showed 1.5 times higher content regardless of the cultivation days. An aspect was shown.

Therefore, in conclusion, the lutein content of germinated soybean sprouts compared to the raw soybeans was significantly different between the varieties at 5 days after germination, and thus 6 to 26 times higher contents were observed. As a result of reviewing the content, the lutein of cotyledons was 25 to 39 times higher than the lower hypocotyl, indicating that the content of cotyledons was much higher. In addition, if you look at the increase in content by germination days, lutein increases by 14 to 50 times in cotyledons and 10 to 27 times in whole germinated beans (cotyledons + hypocotyls) as the number of growing days increases to 10 days. have.

As a result, the germination of soybeans contained much more lutein than raw soybeans (up to 50 times), and the cotyledon part showed higher content than lower hypocotyl in terms of ingredient content. In order to utilize the use of cotyledon will be advantageous.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

In the figures Chl means chlorophyll.

Claims (7)

Germinating seeds of beans;
Drying and crushing the germinated bean (bean sprouts), immersing in an organic solvent, and concentrating the filtrate under reduced pressure to obtain a germinated bean (bean sprouts) extract; And
Separating and purifying lutein from the germinated bean (bean sprouts) extract
Method for obtaining a large amount of lutein from soybeans comprising a.
The method according to claim 1,
The germination is a method of obtaining a large amount of lutein from soybeans, characterized in that the soybean seeds are soaked in water and then intermittently sprayed in a dark state maintained at a temperature of 18 to 25 ℃, humidity 50 to 100%.
The method according to claim 2,
The intermittent sprinkling is a method for obtaining a large amount of lutein from soybeans, characterized in that the sprinkling for 1 to 10 minutes at intervals of 4 to 6 hours.
The method according to claim 1,
The germination is a method for obtaining a large amount of lutein from soybeans, characterized in that 20 days from the time of separation of cotyledons and hypocotyls of the beans.
The method according to claim 1,
The germinated bean (bean sprouts) is a method for obtaining a large amount of lutein from soybeans, characterized in that consisting of cotyledon and hypocotyl.
The method according to claim 1,
The germinated bean (bean sprouts) is a method of obtaining a large amount of lutein from soybeans, characterized in that using cotyledon, hypocotyl or both cotyledon and hypocotyl.
The method according to claim 1,
The organic solvent is a method for obtaining a large amount of lutein from soybean, characterized in that acetone.

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