KR101179448B1 - Multi-starter set of lactic acid bacteria for increasing S-adenosylmethionine in fermented food - Google Patents

Abstract

The present invention is to select the lactic acid strain excellent in the production of S-adenosylmethionine (SAM) that is effective in depression, arthritis, liver disease, etc. to use as a fermented food spawn. In detail, it is composed of the step of selecting the excellent production spawn by applying the production of SAM in the lactic acid bacteria by genus, species, and applying to the fermented food as a seed set.

    The present invention is to improve the amount of SAM produced in foods by applying to lactic acid fermented foods, including kimchi according to the characteristics of lactic acid bacteria.

Lactic Acid Bacteria, S-adenosylmethionine, Lactic Acid Fermented Food

Description

Multi-starter set of lactic acid bacteria for increasing S-adenosylmethionine in fermented food}

Figure 1 is a procedure of applying the food by producing a lactic acid bacteria spawn set by selecting strains excellent in the amount of SAM production from the lactic acid bacteria received from the strain culture institution

    Figure 2 is a procedure of separating the kimchi lactic acid bacteria from fermented kimchi to select strains excellent in the amount of SAM production to produce a lactic acid bacterium seed set and applied to food

The present invention is to select a strain excellent in the production of S-adenosylmethionine (SAM) that is effective in depression, rheumatoid arthritis, liver disease, etc. among the lactic acid bacteria to be used as fermented food spawn.

      In recent years, foods that use lactic acid bacteria as a spawn seed to enhance functionality are typical of yogurt, which protects the stomach by inhibiting Helicobacter pylori, protects the liver by inhibiting alcohol absorption, inhibits the production of intestinal harmful enzymes, It also plays a role in protecting the liver. In addition, some of them were used as yogurt spawns using kimchi lactic acid bacteria having harmful bacterium inhibitory ability, and none of them had enhanced SAM production ability.

     According to the present invention, the amount of production of SAM is determined by receiving lactic acid bacteria commonly found in foods from a strain distribution institution, and the production amount is different depending on the species level and genus level lactic acid bacteria. The lactic acid bacteria spawn set was prepared separately. In addition, lactic acid bacteria spawn set was prepared by distinguishing the strains that produce a large amount of SAM from kimchi natural flora.

The present invention is to select a strain excellent in the production of S-adenosylmethionine (SAM) among the lactic acid bacteria to use as a fermented food spawn or spawn set.

The lactic acid bacteria used in the experiment were 51 strains (Table 1) distributed from Korea Research Institute of Biotechnology and Korea Food Research Institute and 180 strains separated from Kimchi (Table 2). Kimchi and Kimchi production were as follows.

        Kimchi used in the experiment was purchased or manufactured. The raw ingredients of the prepared kimchi were 1.8g of green onions per 100g of pickled cabbage, 2.5g of red pepper powder, 2.5g of garlic, 0.5g of ginger, and 3g of salted fish.

Kimchi fermented at 5 ℃ and 10 ℃ with anchovy marinated, fermented at 10 ℃ with no salted shrimp, canary aquifer, salted fish, and commercially prepared kimchi (pH4.2, total) Acidity was 0.6 ~ 0.8%) and isolated using lactic acid bacteria selection medium and identified by API 50 CHL system.

    The isolated lactic acid bacteria were recovered by placing a semipermeable membrane on MRS agar, suspended in 1 M, formic acid, and 10 ml, lyophilized, and dissolved in distilled water and 1 ml.

Table 1. Lactic Acid Bacteria Sold at Strain Institutions Strain name Scientific name KCTC 3485 Aerococcus viridans KCTC 3552 Enterococcus flavescens KCTC 3553 Enterococcus solitarius KCTC 3616 Enterococcus hirae KCTC 3630 Enterococcus mundtii KCTC 3638 Enterococcus casseliflavus KCTC 3641 Enterococcus malodoratus KCTC 3642 Enterococcus cecorum KCTC 3643 Enterococcus saccharolyticus KCTC 1047 Lactobacillus delbrueckii subsp. delbrueckii KCTC 3147 Lactobacillus crispatus KCTC 3205 Lactobacillus sanfranciscensis KCTC 3500 Lactobacillus hilgardii KCTC 3543 Lactobacillus fructivorans KCTC 3548 Lactobacillus malefermentans KCTC 3594 Lactobacillus reuteri KCTC 3596 Lactobacillus mali KCTC 3600 Lactobacillus salivarius subsp. salicinius KCTC 3602 Lactobacillus maltaromicus KCTC 3611 Lactobacillus kefiri KCTC 3681 Lactobacillus farciminis KCTC 3769 Lactobacillus lactis subsp. lactis KCTC 3102 Lactobacillus brevis KCTC 3112 Lactobacillus fermentum KCTC 1048 Lactobacillus plantarum KFRI 1030 Lactobacillus bifermentans KFRI 1182 Lactobacillus collinoides KFRI 654 Lactobacillus curvatus KFRI 481 Lactobacillus pentosus AP 1 Lactobacillus amylophilus KFRI 1186 Lactococcus plantarum KCTC 3652 Leuconostoc pseudomesenteroides KCTC 3774 Leuconostoc inhae IH003 KCTC 3524 Leuconostoc carnosum KCTC 3526 Leuconostoc citreum KCTC 3527 Leuconostoc gelidum KCTC 3526 Leuconostoc lactis KCTC 3529 Leuconostoc mesenteroides subsp. cremoris KCTC 3530 Leuconostoc mesenteroides subsp. dextranicum KCTC 3100 Leuconostoc mesenteroides subsp. mesenteroides KCTC 3507 Pediococcus pentosacius KFRI 832 Pediococcus pentosaceus KCTC 3770 Pediococcus damnosus KCTC 3195 Streptococcus faecalis var. liquefaciens KCTC 3644 Streptococcus alactolyticus KFRI 1184 Weissella confusa KCTC 3531 Weissella paramesenteroides KCTC 3595 Weissella halotolerans KCTC 3668 Weissella hellenica KCTC 3746 Weissella kimchii CHJ3 KCTC 3807 Weissella cibaria

KCTC: Korea Biotechnology Research Institute strain, KFRI, AP: Korea Food Research Institute strains

Separation Number of isolates
Anchovy with kimchi 5 ℃ fermentation 40 10 ℃ fermentation 10 Kimchi with shrimp 27 Kimchi with Canary Fish Sauce 27 Salt-free Kimchi 27 Commercial Kimchi 27

The cells were harvested using 1M Formic acid and analyzed by HPLC (Jasco, Japan) to analyze SAMs in cells of predominant lactic acid bacteria and standard strains isolated from each kimchi. For the column used for HPLC, CAPCELL PAK C18 was used, and 20 µl of a sample prepared at a constant concentration was injected and analyzed using 0.25M ammonium acetate and 100% methanol as a buffer. HPLC analysis conditions at this time are shown in Table 3.

Instrument Jasco PU 980 Detector Jasco UV 975 column CAPCELL PAK C18 Input sample volume 20 μl Fluidized bed 0.25M ammonium acetate
100% Methanol Flow rate 1.5ml / min Detection Absorption Wavelength 254nm

The mean amount of SAM produced in the cultured Lactobacillus ( Enterococcus ) used in the experiment was 0.63 mM (Table 4).

Table 4. SAM Production of Enterococcus genus Bell  SAM concentration (mM)


Enterococcus flavescens
solitarius
hirae
munditi
casseliflavus
malodoratus
cecorum
saccharolyticus 0.21
0.43
0.56
0.98
0.75
0.63
0.82
0.63                  Average                                0.63

Lactobacillus Looking at the SAM content of the genus, when comparing the genus of each standard strain, the average SAM content was 0.94mM was the second highest (Tables 5 and 6). In this Lactobacillus delbrueckii subsp. delbrueckii The strain had the highest SAM content of 1.33 mM , followed by L. pentosus , L. curvatus, L. collinoides High SAM production in order of strain (Table 5)

Table 5. Production of SAM in Lactobacillus genus Bell  SAM concentration (mM) Deposit number







Lactobacillus
delbrueckii subsp. delbrueckii
crispatus
sanfranciscensis
hilgardii
fructivorans
malefermentans
reuteri
financial
salivarius subsp. salicinius
maltaromicus
kefiri
lactis subsp. lactis
brevis
fermentum
plantarum
bifermentans
collinoides
curvatus
pentosus
amylophilus 1.33
1.07
0.60
0.92
0.24
0.22
0.87
1.15
1.21
1.08
1.07
0.95
1.09
1.01
0.21
1.16
1.23
1.24
1.26
0.82 KCTC 1047















KFRI 1182
KFRI 654
KFRI 481
Average        0.94

Leuconostoc SAM production in the genus is 1.16mM on average, Lactobacillus genus, Lactococcus genus, Pediococcus genus, Enterococcus The contents of SAM in the strain were much higher than those of the genus, Weissella , and others ( Streptococcus , Aerococcus ). Especially in the Leuconostoc Leuconostoc mesenteroides subsp. The SAM content of mesenteroides was 1.29 mM, which was the highest (Table 6).

Table 6. SAM Production of Pre-ordered Leuconostoc genus Bell  SAM concentration (mM) Deposit number  Leuconostoc pseudomesenteroides
inhae IH003
carnosum
citreum
gelidum
lactis
mesenteroides subsp. cremoris
mesenteroides subsp. dextranicum
mesenteroides subsp. mesenteroides 1.13
1.11
1.01
1.20
1.23
1.07
1.17
1.25
1.29


KCTC 3526
KCTC 3527


KCTC 3530
KCTC 3100 Average 1.16

Pediococcus The mean SAM content of the genus strain was 0.73, which was the third highest SAM content in the standard strain, and P. pentosacius was 0.92 mM, the highest among them (Table 7).

Table 7. SAM Production of Pediococcus Sold genus Bell  SAM concentration (mM) Pediococcus damnosus
pentosacius
pentosaceus 0.51
0.92
0.76 0.73

The genus Weissella showed a low production with an average of 0,51 mM (Table 8).

Table 7. SAM Production of Pediococcus Sold

genus Bell  SAM concentration (mM) Pediococcus damnosus
pentosacius
pentosaceus 0.51
0.92
0.76 0.73

The genus Weissella showed a low production with an average of 0,51 mM (Table 8).

Table 8. SAM Production of Pre-Owned Weissella genus Bell  SAM concentration (mM) Weissella paramesenteroides
halotolerans
hellenica
kimchii CHJ3
cibaria 0.01
0.62
0.61
0.67
0.62 Average 0.51

Other Streptococcus genus, Aerococcus Genus , Lactococcus The contents of SAM in the genus were found to be very low in SAM compared to other strains. Lactococcus , Aerococcus , Streptococcus In order of genus (Table 9).

Table 9. Streptococcus presorted , SAM Production of Aerococcus and Lactococcus Etc genus Bell  SAM concentration (mM) Streptococcus alactolyticus
faecalis var. liquefaciens 0.23
0.21 Aerococcus viridans 0.62 Lactococcus plantarum 0.84 0.48

Therefore, the lactic acid level in the Leuconostoc, Lactobacillus was an excellent servant to the next level in the Lactobacillus delbrueckii subsp. delbrueckii , Leuconostoc mesenteroides subsp. mesenteroides , L. pentosus , Leu . mesenteroides subsp. dextranicum , L. fructovorans , L. cuvatus , L. collinoides, Leu . gelidum Excellent in equal order (Table 5-9).

The amount of SAM produced by lactic acid bacteria isolated from Kimchi fermented at 5 ℃ by fermentation of anchovy was measured in L .. bifermentans The QMW327 strain produced the highest 1.43 mM (Table 10)

Table 10. Production of SAM of Strains Isolated from 5 ℃ Fermented Kimchi Scientific name Strain name  SAM concentration (mM) Deposit number Lacto. brevis QLM301 1.09 Lacto. collinoides QLM302 1.12 Lacto. brevis QMW303 1.08 Leuco mes. mes / dext QLM304 0.51 Lacto. brevis QLM305 1.07 Lacto. collinoides QLM306 1.11 Leuco mes. mes / dext QWH307 1.14 Lc. lactis lactis QWH308 0.47 Lacto. brevis QLT309 1.08 Lacto. brevis QLT310 1.09 Leuco mes. mes / dext QWW311 0.33 Lacto. brevis QWW312 1.09 Leuco mes. mes / dext QKR313 1.21 Leconostoc citreum QKR314 1.10 Lacto. brevis QKR315 1.07 Leuco mes. mes / dext QKR316 1.18 Leuco mes. mes / dext QKW317 0.48 Leuco mes. mes / dext QKW318 1.19 Lacto. brevis QKW319 1.09 Lacto. pentosus QKW320 1.02 Leuco mes. mes / dext QKT321 1.16 Leuco mes. mes / dext QKT322 1.18 Leuco mes. mes / dext QLM323 1.19 Leuco mes. mes / dext QLM324 1.20 Leuco mes. mes / dext QLT325 1.21 Leuco mes. mes / dext QLT326 1.19 Lacto. bifermentans QMW327 1.43 KFRI 1030 Leuco mes. mes / dext QMW328 1.18 Lacto. brevis QMC329 1.09 Lacto. brevis QMC330 1.09 Lacto. brevis QMC331 1.08 Leuco mes. mes / dext QMC332 1.17 Lacto. brevis QWH333 1.08 Lacto. brevis QWH334 1.17 Leuco mes. mes / dext QWH335 1.08 Leuco mes. mes / dext QWH336 1.06 Lacto. brevis QMY337 1.16 Leuco mes. mes / dext QMY338 1.17 Lacto. collinoides QMY339 1.06 Lacto. brevis QMY340 1.19

The amount of SAM produced by lactic acid bacteria isolated from Kimchi fermented at 10 ℃ by fermentation of anchovy was L .. curvatus Leu to the highest SKP313 strains produce a 1.22mM. mesenteroides subsp. . mesenteoides (or dextranicum ) SMY329 was next highest (Table 11)

Table 11. Production of SAM of Strains Isolated from 10 ℃ Fermented Kimchi Scientific name Strain name SAM concentration (mM) Similarity Lacto. brevis SLM301 1.08 Lacto. brevis SLM302 1.09 Lacto. collinoides SMW303 1.09 Lacto. brevis SMW304 1.08 Lacto. brevis SMW305 1.09 Lacto. collinoides SMW306 1.10 Lacto. salivarius SWW307 1.16 Lacto. salivarius SWW308 1.15 Leuco. mes. mes./dext SKR309 1.20 Leuco. mes. mes./dext SKR310 1.21 Lacto. brevis SKP311 1.08 Lacto. brevis SKP312 1.07 Lacto. curvatus SKP313 1.22 KFRI 481 Leuco. mes. mes./dext SKP314 1.20 Leuco. mes. mes./dext SKW315 1.19 Leuco. mes. mes./dext SKW316 1.18 Leuco. mes. mes./dext SWW317 1.19 Leuco. mes. mes./dext SWW318 1.18 Lacto. brevis SLT319 1.08 Lacto. brevis SLT320 1.08 Lacto. pentosus SMT321 1.02 Leuco. mes. mes./dext SMT322 1.17 Lacto. brevis SMC323 1.08 Lacto. brevis SMC324 1.08 Lacto. brevis SWH325 1.09 Leuco. mes. mes./dext SWH326 1.20 Leuco. mes. mes./dext SWH327 1.18 Leuco. mes. mes./dext SWH328 1.19 Leuco. mes. mes./dext SMY329 1.21 KCTC 3530 Lacto. fermentum SMY330 0.91 Leuco. mes. mes./dext SMY331 0.47 Lacto. brevis SMY332 0.23

The amount of SAM produced by lactic acid bacteria isolated from kimchi fermented at 10 ℃ with shrimp paste was Leu . mesenteroides subsp. . mesenteoides (or dextranicum ) The KSK417 strain produced 1.54mM, the highest, and the homologous KSP426 was the next highest (Table 12).

Table 12 . SAM Production of Strain Isolated from Kimchi Added with Shrimp Scientific name Strain name SAM concentration (mM) Similarity Lacto. lactis KSM401 1.30 Leuco. mes. mes./dext KSM402 1.48 Lacto. lactis KSM403 1.10 Leuco. mes. mes./dext KSM404 1.31 Lacto. collinoides KSM405 0.90 Lacto. collinoides KSM406 0.90 Leuco. mes. mes./dext KSM407 1.52 Lacto. plantarum KSM408 1.40 Lacto. collinoides KSM409 1.00 Leuco. mes. mes./dext KSK410 1.49 Leuco. mes. mes./dext KSK411 0.80 Lacto. brevis KSK412 1.51 Leuco. mes. mes./dext KSK413 1.45 Leuco. mes. mes./dext KSK414 1.15 Lacto. fermentum KSK415 0.80 Lacto. brevis KSK416 0.80 Leuco. mes. mes./dext KSK417 1.54 KCTC 3530 Leuco. mes. mes./dext KSK418 1.00 Lacto. fermentum KSP419 0.14 Lacto. fermentum KSP420 1.46 Leuco. mes. mes./dext KSP421 1.41 Leuco. mes. mes./dext KSP422 1.50 Leuco. mes. mes./dext KSP423 1.50 Leuco. mes. mes./dext KSP424 1.49 Lacto. brevis KSP425 0.70 Leuco. mes. mes./dext KSP426 1.53 KCTC 3530 Lacto. brevis KSP427 0.60

The amount of SAM produced by lactic acid bacteria isolated from Kimchi fermented at 10 ℃ by adding Canary fish sauce was L .. plantarum The KKM408 strain produced 1.43 mM and was the highest and Leu . mesenteroides subsp. . mesenteoides (or dextranicum ) SKKP 422 was next highest (Table 13)

Table 13. SAM Production of Strains Isolated from Kimchi Added with Canary Fish Sauce Scientific name Strain name SAM concentration (mM) Similarity Lacto. lactis KKM401 0.55 Leuco. mes. mes./dext KKM402 0.78 Lacto. lactis KKM403 0.77 Leuco. mes. mes./dext KKM404 1.14 Lacto. collinoides KKM405 1.20 Lacto. collinoides KKM406 1.17 Leuco. mes. mes./dext KKM407 0.61 Lacto. plantarum KKM408 1.43 KCTC 1048 Lacto. collinoides KKM409 1.19 Leuco. mes. mes./dext KKK410 0.65 Leuco. mes. mes./dext KKK411 1.16 Lacto. brevis KKK412 1.18 Leuco. mes. mes./dext KKK413 1.01 Leuco. mes. mes./dext KKK414 0.71 Lacto. fermentum KKK415 0.60 Lacto. brevis KKK416 1.19 Leuco. mes. mes./dext KKK417 0.60 Leuco. mes. mes./dext KKK418 0.65 Lacto. fermentum KKP419 1.20 Lacto. fermentum KKP420 1.09 Leuco. mes. mes./dext KKP421 0.51 Leuco. mes. mes./dext KKP422 1.21 KCTC 3530 Leuco. mes. mes./dext KKP423 1.17 Leuco. mes. mes./dext KKP424 1.15 Lacto. brevis KKP425 0.92 Leuco. mes. mes./dext KKP426 1.20 Lacto. brevis KKP427 1.20

The amount of SAM produced by lactic acid bacteria isolated from Kimchi fermented at 10 ℃ without adding salted fish was Leu . mesenteroides subsp. . mesenteoides (or dextranicum ) KFM 402 strain produced 1.44 mM, the highest L .. brevis KFP422 was next highest (Table 14)

Table 14. Production of SAM of Strain Isolated from Kimchi without Addition Scientific name Strain name SAM concentration (mM) Similarity Leuco. mes. mes./dext KFM401 1.22 Leuco. mes. mes./dext KFM402 1.44 KCTC 3530 Leuco. mes. mes./dext KFM403 1.18 Lacto. brevis KFM404 0.67 Lacto. brevis KFM405 1.19 Lacto. brevis KFM406 1.20 Leuco. mes. mes./dext KFM407 0.51 Lacto. bifermentans KFM408 1.21 Lacto. brevis KFM409 1.39 Leuco. mes. mes./dext KFK410 1.41 Lacto. brevis KFK411 1.28 Lacto. brevis KFK412 0.72 Lacto. pentosus KFK413 0.89 Leuco. mes. mes./dext KFK414 1.40 Leuco. mes. mes./dext KFK415 0.51 Lacto. brevis KFK416 0.86 Leuco. mes. mes./dext KFK417 0.75 Leuco. mes. mes./dext KFK418 1.37 Lacto. brevis KFP419 0.58 Lacto. pentosus KFP420 0.42 Leuco. mes. mes./dext KFP421 1.30 Lacto. brevis KFP422 1.42 Lacto. brevis KFP423 0.48 Lacto. brevis KFP424 0.39 Leuconostoc. citreum KFP425 1.35 Lacto. brevis KFP426 0.41 Lacto. brevis KFP427 1.19

The production of SAM of lactic acid bacteria isolated from commercial J kimchi was Leu . mesenteroides subsp. . mesenteoides (or dextranicum ) KJM 401 strain produced 1.51 mM and was the highest in L .. plantarum KJM405 was next highest (Table 15)

Table 15. SAM Production of Strains Isolated from Commercial J Kimchi Scientific name Strain name SAM concentration (mM) Similarity Leuco. mes. mes./dext KJM401 1.51 KCTC 3530 Leuco. mes. mes./dext KJM402 1.48 Lacto. brevis KJM403 1.18 Leuco. mes. mes./dext KJM404 1.35 Lacto. plantarum KJM405 1.50 KCTC 1048 Lacto. lactis KJM406 0.58 Leuconostoc. citreum KJM407 0.59 Lacto. lactis KJM408 0.51 Lacto. brevis KJM409 0.89 Leuco. mes. mes./dext KJK410 1.39 Leuco. mes. mes./dext KJK411 1.40 Leuco. mes. mes./dext KJK412 1.50 Leuco. mes. mes./dext KJK413 1.35 Leuco. mes. mes./dext KJK414 1.40 Lacto. brevis KJK415 0.82 Lacto. bifermentans KJK416 1.15 Leuco. mes. mes./dext KJK417 1.50 Leuco. mes. mes./dext KJK418 1.48 Ped. pentosacius KJP419 1.11 Lacto. brevis KJP420 0.71 Leuco. paramesenteroides KJP421 0.52 Lacto. collinoides KJP422 0.49 Leuco. mes. mes./dext KJP423 1.50 Lacto. brevis KJP424 0.51 Leuco. mes. mes./dext KJP425 1.49 Leuco. mes. mes./dext KJP426 1.38 Lacto. plantarum KJP427 1.30

Thus, the amount of SAM produced is Leu . mesenteroides subsp. . Mesenteoides (or dextranicum ) KSK417 produced 1.54mM, which was the highest, and most of the same species were produced in most kimchi. In Lactobacillus, L. plantarum, L. bifermentans and L. brevis were high (Table 10-15).

[Example]

Strains with high SAM production were added to artificial kimchi medium at the same time by 4 strains and left to culture at 10 ° C. for 10 days and analyzed by HPLC. Artificial kimchi was added to the kimchi composition table twice the amount of water in the kimchi weight ratio, including three times the total kimchi, and adjusted the salinity to 2.5%. This was ground with a blending mixer and shaken at 4 ° C. for 1 hour to elute the material in the raw material. The inoculated lactic acid bacteria were centrifuged after secondary passage in MRS broth and resuspended in artificial kimchi culture to inoculate 4 strains of excellent SAM-producing bacteria to 0.1% (v / v). After the incubation, the artificial kimchi culture was centrifuged to obtain lactic acid bacteria, and 10ml, 1M formic acid was lyophilized and analyzed by HPLC. The result was a mixed inoculum of lactic acid bacteria isolated from Kimchi most common non-vaccinated guboda 1.84 times many of SAM to create a 1.7mM Leuconostoc It was mixed with seed, Lactobacillus mixed seed order.

Table 16. SAM Contents in Lactic Acid Cells Cultured in Artificial Kimchi for 10 Days

Treatment SAM concentration, mM Unoccupied sphere 0.94 Lactobacillus predator mixture set1) 1.21 Leuconostoc Predatory bacteria mixture set2) 1.50 Kimchi isolated lactic acid bacteria mixture set3) 1.73

1) Lactobacillus predator mixture set: Lactobacillus delbrueckii subsp. delbrueckii KCTC 1047, Lactobacillus pentosus KFRI 481, L. curvatus KFRI 654, L. collinoides KFRI 1182

2) Leuconostoc Breeding mixture mixture set: Leuconostoc mesenteroides subsp. mesenteroides KCTC 3100, Leu . mesenteroides subsp. dextranicum KCTC 3530, Leuconostoc gelidum KCTC 3527, Leuconostoc citreum KCTC 3526

3) separate Kimchi lactic acid mixture set (SAM excellent production of lactic acid bacteria derived from a variety of kimchi mixed seed) derived from commercial kimchi bacteria Leu. mesenteroides subsp. . mesenteoides (or dextranicum ) KJM 401, Canary fish sauce added L .. plantarum KKM408, 5 ℃ Fermented Anchovy Sauce L .. bifermentans QMW327, 10 ℃ Fermented Anchovy Sauce L .. curvatus SKP313

The present invention has an excellent effect of increasing the amount of SAM produced in the cells by the lactic acid bacteria inoculated in fermented food.

Claims (2)

Lactobacillus genus Lactic acid strain L. delbrueckii subsp. delbrueckii (KCTC1047) , L. pentosus (KFRI481) , L. curvatus (KFRI654) , L. collinoides (KFRI1182) and Leuconostoc genus Lactobacillus Leu. mesenteroides subsp. mesenteroides (KCTC3100) , Leu. mesenteroides subsp. dextranicum (KCTC3530) , Leu. gelidum (KCTC3527) , Leu. A method of increasing the production of S-adenosylmethionine, characterized in that at least two selected from citreum (KCTC3526) as a set added during the manufacture of fermented foods. delete

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