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Real-Time PCR Monitoring of Lactobacillus sake, Lactobacillus plantarum, and Lactobacillus paraplantarum during Kimchi Fermentation

  • Um, Sang-Hee;Shin, Weon-Sun;Lee, Jong-Hoon
    • Food Science and Biotechnology
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    • v.15 no.4
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    • pp.595-598
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    • 2006
  • Semi-quantitative monitoring of Lactobacillus sake and Lactobacillus plantarum, major and minor microorganisms in kimchi, respectively, and Lactobacillus paraplantarum, recently shown to be present in kimchi, was carried out by real-time polymerase chain reaction (PCR). Changes in the 3 species during kimchi fermentation were monitored by the threshold cycle ($C_T$) of real-time PCR. As fermentation proceeded at $15^{\circ}C$, the number of L. sake increased dramatically compared to those of L. plantarum and L. paraplantarum. During fermentation at $4^{\circ}C$, the growth rates of the 3 species decreased, but the proportions of L. plantarum and L. paraplantarum in the microbial ecosystem were almost constant. Considering the $C_T$ values of the first samples and the change in the $C_T$ value, the number of L. sake is no doubt greater than those of L. plantarum and L. paraplantarum in the kimchi ecosystem. L. sake seems to be one of the major microorganisms involved in kimchi fermentation, but there is insufficient evidence to suggest that L. plantarum is the primary acidifying bacterium.

Depletion of Nitrite by Lactic Acid Bacteria Isolated from Kimchi(I) (김치에서 분리한 유산균에 의한 아질산염 소모(I))

  • 오창경;오명철;현재석;최우정;이신호;김수현
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.26 no.4
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    • pp.549-555
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    • 1997
  • Twenty species of lactic acid bacteria were isolated from Kimchi. Six species were identified as Lactobacillus sake, ten species as Leuconostoc mesenteroides and four species as Lactobacillus plantarum. The ability of these isolates to deplete nitrite during growth at 15, 20, 25 and 3$0^{\circ}C$ in MRS broth containing 250$\mu\textrm{g}$/$m\ell$ of nitrite was examined. Depletion of nitrite was high as the order of L. plantarum, L. sake and L. mesenteroides at all temperature tested, and the depletion activity was increased as the increase of growth temperatures. Especially, almost all of nitrites were utilized by L. plantarum during growth at all temperature ranges tested. L. plantarum and L. sake required induction periods for adapting to nitrite, but L. plantarum was remarkably depleted nitrite after two days of growth at 15$^{\circ}C$ and one day at 2$0^{\circ}C$, L. sake after one day of growth at both temperatures. Whereas, L. mesentero-ides did not require those periods at all temperature ranges tested.

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The Production of Ergosterol by Saccharomyces sake KBA No. 6 (Saccharomyces sake KBA No. 6에 의한 Ergosterol의 생산)

  • Park, Jang-Woo;Lee, Wang-Sik;Bang, Won-Gi
    • Applied Biological Chemistry
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    • v.33 no.1
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    • pp.87-92
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    • 1990
  • To produce ergosterol Saccharomyces toke KBA No. 6 was used and various factors related to ergosterol accumulation were investigated. The most effective inorganic nitrogen source was ammonium chloride and 3.50 % of ergosterol was accumulated in the cell when the C/N ratio was 200/1. When Tween 80 and potassium nitrite were used simultaneously, ergosterol content and total amount of ergosterol were increased by 56 % and 45 %, respectively, compared to their control in which 0.2 % of Tween 80 and 0.1 % of potassium nitrite were used. Under the optimum conditions, ergosterol content increased from 1.73 % to 5.3 % and the total amount of ergosterol was increased from 65.2 mg/l to 135.15 mg/l.

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A Study on the Qualitative Properties of Traditional Sake Using Allbanggae (올방개(Eleocharis kuroguwai Ohwi)를 이용한 전통약주의 품질특성에 관한 연구)

  • Cheong, Chul;Rhee, In-Sook;Lee, See-Kyung;Kang, Soon-Ah
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.37 no.6
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    • pp.784-791
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    • 2008
  • A new sake fermented using a mixture of Aspergillus sp., Rhizopus sp. and yeast (Saccharomyces cerevisiae) containing allbanggae was developed in this study. The effects of the allbanggae contents ($0{\sim}50%$) in the sake on the qualitative and sensory properties and flavor components were investigated. The fermentation with allbanggae, especially in sake containing 10% allbanggae, showed the highest level of alcohol ($15.3{\sim}16.4%$), whereas the amount of alcohol decreased with increasing allbanggae contents. Amino acidity in sake containing 10% and 20% allbanggae indicated the highest levels ($0.90{\sim}1.20%$). In addition, it was observed that the sake containing 10% allbanggae showed the smallest level of reducing sugars, which were increased with increasing allbanggae ratio. Furthermore, various organic acids in the sake were detected such as citric, succinic, malic and acetic acids, among which the acetic acid showed the highest amount ($160.3{\pm}8.0{\sim}253.3{\pm}20.3mg/100mL$). The major amino acids detected in the sakes were alanine, proline, histidine, phenylalanine, lysine and glutamic acid. The sake containing 20% allbanggae indicated the highest amino acids amount among the allbanggae ratios. Based on these results, it was concluded that the sake containing 20% allbanggae could be successfully commercialized.

Effect of Radish Extract on the Growth of Food-born Microorganisms (무 추출물이 식품관련 미생물의 증식에 미치는 영향)

  • 곽희진;계수경;곽희선;이경혜
    • Journal of the East Asian Society of Dietary Life
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    • v.10 no.4
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    • pp.288-297
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    • 2000
  • To understand the effect of radish on growth of food born microorganisms, mashedflesh radishes were extracted by using acetone and distilled water. Their effect was assayed by measuring the optical density of cultural broth of food born microorganisms. In the experiment, seven strains of yeast were used as the test organism. Acetone extract inhibited growth of the cells of L. plantarum, L. sake and Danmuji film yeast. Growth of the film yeast was drastically inhibited in the concomitant presence of 0.03% extract, while other microbes such as L. faecalis, P. pentosaceus, B/ subtilis and E. coli grew by succeeding cultivation for 4 to 8 hour after addition of the extract. Water extract, on contrast to acetone extract, at he concentrations of 0.1∼1.5% stimulated the growth of lactic acid bacteria. Culture of L. faecalis and L. sake showed an optical density higher than that of control by 40∼50 times. The effect was not so apparent against E. coli, S. aureus and Danmuji film yeast.

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Isolation and Identification of Lactic Acid Bacteria from Commercial Kimchi (시판김치로부터 젖산균의 분리 및 동정)

  • Ko, Jung-Lim;Oh, Chang-Kyung;Oh, Myung-Cheol;Kim, Soo-Hyun
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.38 no.6
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    • pp.732-741
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    • 2009
  • This study was carried out to identify lactic acid bacteria isolated from commercial Kimchi. Twelve lactic acid bacteria strains were isolated from Chinese cabbage kimchi (Baechu kimchi) that was fermented for 4 days at room temperature after making kimchi, 6 strains from pickled ponytail radishes (Chongkak kimchi) that was fermented for 2 days, and 15 strains in radish cube kimchi (Kaktugi) that was fermented for 5 days, and 23 strains were isolated in pickled Wakegi (Pa kimchi) that was fermented for 4 days. Eight strains among the lactic acid bacteria of 12 strains isolated from Baechu kimchi (pH 4.0) were identified as Lactobacillus plantarum, 1 strain as Leuconostoc lactis, 2 strains as Lactobacillus casei subsp. pseudoplantarum, and 1 strain as Lactobacillus sake. Three strains among the lactic acid bacteria of 6 strains isolated from Chongkak kimchi (pH 4.5) were identified as Leuconostoc paramesenteroides, 2 strains as Leuconostoc mesenteroides subsp. mesenteroides, and 1 strain as Lactobacillus plantarum. Two strains among the 15 strains isolated in Kaktugi (pH 4.0) were identified as Leuconostoc lactis, 3 strains as Leuconostoc mesenteroides subsp dextranicum, 4 strains as Lactobacillus casei subsp. pseudoplantarum, and 4 strains as Lactobacillus coryniformis subsp. torquens. Twenty-two strains among the 23 strains isolated from Pa kimchi (pH 4.1) identified as L. plantarum and 1 strain was as Lactobacillus sake. From the results above, the dominant species of Baechu kimchi was confirmed as L. plantarum, Chongkak kimchi as L. paramesenteroides, Kaktugi as L. casei subsp. pseudoplantarum and L. coryniformis subsp. torquens, and Pa kimchi as L. plantarum.

Depletion of Nitrite by Lactic Acid Bacteria Isolated from Kimchi(II) (김치에서 분리한 유산균에 의한 아질산염 소모(II))

  • 오창경;오명철;현재석;최우정;이신호;김수현
    • Journal of the Korean Society of Food Science and Nutrition
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    • v.26 no.4
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    • pp.556-562
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    • 1997
  • Depletion of nitrite by lactic acid bacteria isolated from Kimchi and the effects of pH and temperature on depletion of nitrite in Lactobacillus MRS broth were investigated. Depletion of nitrite by Lactobacillus plantarum and Lactobacillus sake was low in initial stage of growth but increased during growth at 15 and 2$0^{\circ}C$. L. plantarum and L. sake depleted than 90 and 75% of nitrite(250$\mu\textrm{g}$/$m\ell$) in 1 day of growth at 25 and 3$0^{\circ}C$, respectively, but depleted almost all of nitrite in 2 days. While the effect of Leuconostoc mesenteroides (150$\mu\textrm{g}$/$m\ell$) was lower compared to Lactobacillus(250$\mu\textrm{g}$/$m\ell$). In addition, even high concentrations(600 and 900 $\mu\textrm{g}$/$m\ell$) of nitrite was depleted at 2 days of growth by L. plantarum. pH of growing broth decreased as the increase of growth time and temperature, and depletion of nitrite in- creased as the decrease of pH of growing culture. However, pH of broth related with the decrease of depletion of nitrite at 25 and 3$0^{\circ}C$, but not at 15 and 2$0^{\circ}C$. Therefore, depletion of nitrite was greatly affected by growth temperature rather than by pH.

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Microfloral Changes of the Lactic Acid Bacteria during Kimchi Fermentation and Identification of the Isolates (김치발효 중의 젖산균의 경시적 변화 및 분리 젖산균의 동정)

  • 이철우;고창영;하덕모
    • Microbiology and Biotechnology Letters
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    • v.20 no.1
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    • pp.102-109
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    • 1992
  • The microfloral changes of lactic acid bacteria during Kimchi fermentation at 5, 20 and $30^{\circ}C$ were compared by using various selective media, and the lactic acid bacterial strains were isolated and identified. The patterns of microfloral changes in each lactic acid bacterial group, leuconostoc, lactobacilli, streptococci and pediococci, were similar at different fermentation temperature, and the changes were accelerated by increased temperature. Among them, leuconostoc and lactobacilli showed high population, and at low temperature the number of leuconostoc were higher than at high temperature. Leuconostoc and streptococci were increased in number from the beginning, but they rapidly decreased after the optimum ripening period. Pediococci increased their number after streptococci, but they were rapidly decreased later. Lactobacilli were highly distributed throughout the whole fermentation period. However, they were slightly declined as the acidity increased. Those strains of leuconostoc, streptococci, pediococci and lactobacilli were identified as Luuconostoc mesenteroida subsp. musenteroides, Streptococcus fuecalzs, S, faeciurn, Pediococcus pentosaceus, Lactobacillus plarttarum, L. sake and L. brevis. Among lactobacilli, Id. sake and L. brmk, and L. plantarum were isolated mainly at the beginning and around the overripening period of fermentation, respectively.

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Characteristics of the Bacteriocin from Lactobacillus sp. Oh-B3. (Lactobacillus sp. Oh-B3로부터 생산되는 박테리오신의 특성)

  • 김동섭
    • Microbiology and Biotechnology Letters
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    • v.30 no.2
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    • pp.184-188
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    • 2002
  • A bacteriocin producing microorganism, which inhibits the growth of Lactobacillus sake, was screened and isolated from Kimchi. This microorganism was identified and named as Lactobacillus sp. Oh-B3, The maximum amount of bacteriocin was produced when the isolated microorganism was cultured in MRS media(pH 8.0) for 24 hours at 25℃. The bacteriocin from the isolated microorganism was purified through ammonium sulfate precipitation, dialysis and ultrafiltration. The bacteriocin was stable on the wide pH range of 2.0-9.0, and showed antimicrobial activity on some of gram positive bacteria, not on gram negative. The antimicrobial activity of bacteriocin was mostly removed by treatment of proteolytic enzymes. But, the bacteriocin was very stable on the heat treatment, and more than 50% of activity was remained at autoclaving. The action mode of the bacteriocin showed bacteriocidal pattern, being same as that of general bacteriocins.

Clarification and Aging of Fermented Honey Wine (벌꿀 발효주의 청징과 숙성)

  • Kim, Dong-Han;Rhim, Jong-Whan;Jung, Soon-Teck
    • Korean Journal of Food Science and Technology
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    • v.31 no.5
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    • pp.1330-1336
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    • 1999
  • Effects of clarification and aging of honey wine(mead) and fruit honey wine(melomel) were investigated. Among the clarifiers tested, 'kaki shibu' and 'sake light' were effective in clearing honey wine. Clear honey wine with more than 90% light transmittance was obtained by treatment with $0.05{\sim}0.1%$ of 'kaki shibu' and 'sake light' for 2 days. Higher concentration of these clarifying agents was needed for the clarification of fruit honey wines. Treatment with 0.5% of 'sake light' and $0.05{\sim}0.1%$ of 'kaki shibu' for 4 days was effective for clearing Tangerine honey wine and Japanese apricot honey wine. Though Hunter L-values of honey wines decreased a little bit by using clarifiers, their light transmittance became more than 98% after ultrafiltration. As the content of soluble solid in mash at the beginning of fermentation increased, the content of acetaldehyde, n-propyl alcohol, n-butyl alcohol and iso-amyl alcohol of honey wine increased during aging, while the content of iso-propyl alcohol decreased. During the aging of honey wines, the sensory quality of them became milder as the amount of acetaldehyde and fusel oil decreased. Among more than twenty different volatile flavor components detected from honey wines, 1-phenyl ethyl alcohol, benzyl alcohol, 2-phenyl ethyl alcohol, octacosane and triacotane were identified as the major components for the flavor of honey wines. Sensory evaluation of the honey wines indicated that the melomel made with Japanese apricot was better than the Tangerine melomel in the aspects of taste, flavor, color and the overall acceptability. Tangerine melomel was even inferior to honey wine(mead).

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