• Title/Summary/Keyword: L-10 NTG 50

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Production of High Viscous Hyaluronic Acid Complex from Klebsiella sp. L-10 NTG 50 (Klebsiella sp. L-10의 NTG 50 변이주에 의한 고점성 히아루론산 복합체의 생산)

  • Lee, Hyaung-Sook;Choi, Young-Jun;Lee, Jong-soo
    • The Journal of Natural Sciences
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    • v.8 no.1
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    • pp.33-39
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    • 1995
  • Klebsiella sp. L-10 was treated with physical and chemical mutagens, and one of the NTG mutant which increased hyaluronic acid complex yield 2.5 folds was selected. The yield of hyaluronic acid complex from Klebsiella sp. L-10 NTG 50 mutant reached maximum level I the YPD medium containing 0.1% yeast extract, 3% Bacto-tryptone, 3% dextrose, each 30mM of $K_2HPO_4$ and $KH_2PO_4$ (pH 6.0-6.5) with shaking culture at $37^{\circ}C$ for 24 hrs, and 2900mg of hyaluronic acid complex per litre of culture was produced under the above condition.

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Purification and Characterization of High Viscous Hyaluronic Acid Complex from Klebsiella sp. L-10 NTG 50 (Klebsiella sp. L-10 의 NTG 50 변 이주로부터 생산된 고점성 히알우론산 복합체의 정제 및 특성)

  • 이향숙;김나미
    • The Korean Journal of Food And Nutrition
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    • v.9 no.3
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    • pp.242-246
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    • 1996
  • High viscous hyaluronic acid complex from Klebsiella sp. L-10 NTG 50 mutant was purified by two-phase extraction system using PEG-K2HP04 and its physicochemical properties were Investigated. Viscosity of the purified hyaluronic acid complex was decreased as temperature and salts concentration were Increased and also showed low viscosity at below pH 5.0 and above pH 11.0. Hardness, cohesiveness and adhesiveness of the purified hyaluronic acid complex were 1, 20kg, 1.91 and 0.62, respectively. Water holding capacity was 6.9ml per gram of the purified hyaluronic acid complex powder.

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Production of L-Tyrosine by PFP Resistant Mutant Induced from Brevibnrcterium sp. (Brevibacterium sp. 로부터 유도된 PFP 내성 변이주에 의한 L-Tyrosine 생성)

  • Bae, Jun-Tae;Park, Gyeong-Suk;Lee, Byeol-Na
    • The Korean Journal of Food And Nutrition
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    • v.9 no.1
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    • pp.21-28
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    • 1996
  • This study was attempted to investigate the production of L-tyrosine by Brevibacterium flavum ATCC 14067. To select the strain which produce more L-tyrosine, mutants were induced by N-methyl-N'-nitro-nitrosoguanidine (NTG) treatment and phenylalanine auxotrophic mutants were induced by NTG and penicillin treatments. PFP resistant mutant was isolated from a phenylalanine auxotroph by retreatment with NTG and screened for increase of L-tyrosine production. PFP-326 mutant resistant to PPP (100ug/ml) was derived from phenylalanine auxotroph by mutagenesis with NTG and PFP-106 mutant resistant to PFP (1201g/ml) was derived from PFP-326 by mutagenesis with NTG. The composition of media for L-tyrosine production in strain PFP-106 was studied. PFP-106 mutant strain produced 50mg 11 of L-tyrosine while the parent strain produced 0.56mg 11 of L-tyrosine. The optimum composition of medium for L-tyrosine by strain PFP-106 was 10cA sucrose as carbon source, 3% ammonium sulfate as nitrogen source. The optimum cultural condition for producing L-tyrosine by strain PFP-106 was L-phenylalanine at a concentration of 1000g/mg.

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Development of Phage-resistant Mutants from Lactobacillus casei (Lactobacillus casei의 Bacteriophage내성돌연맥리균분리)

  • 강국희;이경화;박기문;유익제;김영창
    • Microbiology and Biotechnology Letters
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    • v.10 no.3
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    • pp.217-222
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    • 1982
  • A lactic starter organism, Lactobaciilus casei YIT 9018 was treated with N-methyl-N'-nitro-N-nitrosoguanidine (NTG) to obtain phage-resistant mutants. Freshly grown cells suspended in citrate buffer were exposed to NTG of 50 g/$m\ell$ for 40 min. Among 88 colonies isolated eight colonies showed distinct resistance to phages isolated previously from milk plants. The eight new colonies showed character similar to the original L. casei except that they responded differently to phage of different sources and thus were designated as eight different mutants of L casei. From the phage resisting toaether with the fermentative ability equivalent to the mother organism the mutants may be considered to be used as starter cultures for fermented milk.

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Production of D-sorbitol and L-sorbose from Jerusalem artichoke by Zymomonas mobilis and Gluconobacter sMboxpydans (Zymomonas mobilis와 Gluconobacter suboxydans를 이용한 돼지감자로부터 D-sorbitol 및 L-sorbose 생성에 관한 연구)

  • 전억한;김원극
    • KSBB Journal
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    • v.8 no.1
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    • pp.10-16
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    • 1993
  • The use of Jerusalem artichoke containing $\beta$-1, 2-fructose oligomer for the production of D-sorbitol and L-sorbose has been studied. The employment of inulinase(0.398%, v/v) for the hydrolysis of 40% (v/w) Jerusalem artichoke juice resulted in 36.7g/1 of glucose and 85.3g/1 of fructose at $50^{\circ}C$. These sugars were utilized as substrates for D-sorbitol and L-sorbose production. Coimmobilization of inulinase and permeabilized cells of Zymomonas mobilis in the mixture of chitin (5%, w/e) and x-carrageenan(4%, w/v) resulted in the production of 30.2g/1 of D-sorbitol by using inulin as a substrate. The process of L-sorbose production from D-sorbitol by Gluconobacter suboxydans was optimized with respect to the substrate concentration, level of dissolved oxygen and glucosic and concentration. Gluconlc acid produced by Zymomonas mobilis from glucose was found to inhibit Gluconobacter suboxtans in conversion of D-sorbitol to L-sorbose. In view of removing such inhibitory effect by gluconic acid, mutants were selected by the NTG (N-methyl-N'-N'-nitro-N-nitrosoguanidlne) treated method. Mutants selected by NTG mutagenesis showed no inhibitory effects of gluconic acrid against L-sorbone production when its concentration increased up to 100g/1. A mutant produced 40.1g/l of L-sorbose in the medium containing 100g/l D-sorbitol and 100g/l-gluconic acid. This result is consider able when compared with L-sorbose concentration (21.7g/1) obtained from the fermentation with wild type strain of Gluconobacter suboxnians.

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Production of Cell Mass and Monacolin K from Monascus sp. on Rice Solid Culture (Monascus 속 균주의 균체 생산 및 고체배양에 의한 Monacolin K 생산)

  • 정혁준;유대식
    • Korean Journal of Microbiology
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    • v.40 no.2
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    • pp.160-166
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    • 2004
  • The optimal conditions for production of Monascus sp. KM100l cell mass on submerged culture and production of monacolin K on rice solid culture were investigated. An overproducing mutant of Monascus pigments, KM 1001 mutant, from Monascus purpureus KCCM60016 was selected by NTG treatment. The optimal medium for the production of KM100l mutant cell mass is instructed to be composed of 3% glucose, 2% yeast extract, 0.1 % KH$_2$PO$_4$, 0.05% The optimal conditions for production of Monascus sp. KM100l cell mass on submerged culture and production of monacolin K on rice solid culture were investigated. An overproducing mutant of Monascus pigments, KM 1001 mutant, from Monascus purpureus KCCM60016 was selected by NTG treatment. The optimal medium for the production of KM100l mutant cell mass is instructed to be composed of 3% glucose, 2% yeast extract, 0.1 % KH$_2$The optimal conditions for production of Monascus sp. KM100l cell mass on submerged culture and production of monacolin K on rice solid culture were investigated. An overproducing mutant of Monascus pigments, KM 1001 mutant, from Monascus purpureus KCCM60016 was selected by NTG treatment. The optimal medium for the production of KM100l mutant cell mass is instructed to be composed of 3% glucose, 2% yeast extract, 0.1 % $(KH_2PO_4$, 0.05% $MgSO_4{\cdot}7H_2O$, 0.2% L-asparagine, pH 4.5, and the optimal inoculum size and shaking speed were $1.5{\times}10^6$ spores/50 m1 medium and 150 rpm, respectively. On optimal conditions, 4.1 g/l of the cell mass was obtained at 28$^{\circ}C$ for 3 days. The mycelium were inoculated on 500 g of steamed rice using vinyl bag ($30.6{\times}44$ cm) and incubated at $30^{\circ}C$, 85% humidity for 21 days. Lactone form monacolin K was rapidly increased for 2 days and reached highest concentration of monacolin K (2,930 mg/kg) for 15 days, and monacolin K was decreased after 15 days.