• 제목/요약/키워드: sophorose

검색결과 14건 처리시간 0.021초

Screening and Characterization of an Enzyme with ${\beta}-Glucosidase$ Activity from Environmental DNA

  • Kim, Soo-Jin;Lee, Chang-Muk;Kim, Min-Young;Yeo, Yun-Soo;Yoon, Sang-Hong;Kang, Han-Cheol;Koo, Bon-Sung
    • Journal of Microbiology and Biotechnology
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    • 제17권6호
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    • pp.905-912
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    • 2007
  • A novel ${\beta}-glucosidase$ gene, bglA, was isolated from uncultured soil bacteria and characterized. Using genomic libraries constructed from soil DNA, a gene encoding a protein that hydrolyzes a fluorogenic analog of cellulose, 4-methylumbelliferyl ${\beta}-D-cellobioside$ (MUC), was isolated using a microtiter plate assay. The gene, bglA, was sequenced using a shotgun approach, and expressed in E. coli. The deduced 55-kDa amino acid sequence for bglA showed a 56% identity with the family 1 glycosyl hydrolase Chloroflexus aurantiacus. BglA included two conserved family 1 glycosyl hydrolase regions. When using $p-nitrophenyl-{\beta}-D-glucoside$ (pNPG) as the substrate, the maximum activity of the purified ${\beta}-glucosidase$ exhibited at pH 6.5 and $55^{\circ}C$, and was enhanced in the presence of $Mn^{2+}$. The $K_m\;and\;V_{max}$ values for the purified enzyme with pNPG were 0.16 mM and $19.10{\mu}mol/min$, respectively. The purified BglA enzyme hydrolyzed both pNPG and $p-nitrophenyl-{\beta}-D-fucoside$. The enzyme also exhibited substantial glycosyl hydrolase activities with natural glycosyl substrates, such as sophorose, cellobiose, cellotriose, cellotetraose, and cellopentaose, yet low hydrolytic activities with gentiobiose, salicin, and arbutin. Moreover, BglA was able to convert the major ginsenoside $Rb_1$ into the pharmaceutically active minor ginsenoside Rd within 24 h.

Optimal Conditions and Substrate Specificity for Trehalose Production by Resting Cells of Arthrobacter crystallopoietes N-08

  • Seo, Yi-Seul;Shin, Kwang-Soon
    • Preventive Nutrition and Food Science
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    • 제16권4호
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    • pp.357-363
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    • 2011
  • Recently, we found that Arthrobacter crystallopoietes N-08 isolated from soil directly produces trehalose from maltose by a resting cell reaction. In this study, the optimal set of conditions and substrate specificity for the trehalose production using resting cells was investigated. Optimum temperature and pH of the resting cell reaction were $55^{\circ}C$ and pH 5.5, respectively, and the reaction was stable for two hours at $37{\sim}55^{\circ}C$ and for one hour at the wide pH ranges of 3~9. Various disaccharide substrates with different glycosidic linkages, such as maltose, isomaltose, cellobiose, nigerose, sophorose, and laminaribiose, were converted into trehalose-like spots in thin layer chromatography (TLC). These results indicated broad substrate specificity of this reaction and the possibility that cellobiose could be converted into other trehalose anomers such as ${\alpha},{\beta}$- and ${\beta},{\beta}$-trehalose. Therefore, the product after the resting cell reaction with cellobiose was purified by ${\beta}$-glucosidase treatment and Dowex-1 ($OH^-$) column chromatography and its structure was analyzed. Component sugar and methylation analyses indicated that this cellobiose-conversion product was composed of only non-reducing terminal glucopyranoside. MALDI-TOF and ESI-MS/MS analyses suggested that this oligosaccharide contained a non-reducing disaccharide unit with a 1,1-glucosidic linkage. When this disaccharide was analyzed by $^1H$-NMR and $^{13}C$-NMR, it gave the same signals with ${\alpha}$-D-glucopyranosyl-(1,1)-${\alpha}$-D-glucopyranoside. These results suggest that cellobiose can be converted to ${\alpha},{\alpha}$-trehalose by the resting cells of A. crystallopoietes N-08.

Cloning, Characterization of Pichia etchellsii $\beta-Glucosidase$ II and Effect of Media Composition and Feeding Strategy on its Production in a Bioreactor

  • Sethi Benu;Jain Monika;Chowdhary Manish;Soni Yogesh;Bhatia Yukti;Sahai Vikram;Mishra Saroj
    • Biotechnology and Bioprocess Engineering:BBE
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    • 제7권1호
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    • pp.43-51
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    • 2002
  • The cloning and expression of $\beta-glucosidase$ II, encoded by the gene ${\beta}glu2$, from thermotolerant yeast Pichia etchellsii into Escherichia coli is described. Cloning of the 7.3 kb BamHI/SalI yeast insert containing ${\beta}glu2$ in pUC18, which allowed for reverse orientation of the insert, resulted in better enzyme expression. Transformation of this plasmid into E. coli JM109 resulted in accumulation of the enzyme in periplasmic space. At $50^{\circ}C$, the highest hydrolytic activity of 1686 IU/g protein was obtained on sophorose. Batch and fed-batch techniques were employed for enzyme production in a 14 L bioreactor. Exponential feeding rates were determined from mass balance equations and these were employed to control specific growth rate and in turn maximize cell growth and enzyme production. Media optimization coupled with this strategy resulted in increased enzyme units of 1.2 kU/L at a stabilized growth rate of $0.14\;h^{-l}$. Increased enzyme production in bioreactor was accompanied by formation of inclusion bodies.

A Role for the Carbohydrate Portion of Ginsenoside Rg3 in Na+ Channel Inhibition

  • Kim, Jong-Hoon;Hong, Yoon-Hee;Lee, Jun-Ho;Kim, Dong-Hyun;Nam, Ghilsoo;Jeong, Sang Min;Lee, Byung-Hwan;Lee, Sang-Mok;Nah, Seung-Yeol
    • Molecules and Cells
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    • 제19권1호
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    • pp.137-142
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    • 2005
  • We showed recently that ginsenosides inhibit the activity of various types of ion channel. Here we have investigated the role of the carbohydrate component of ginsenoside $Rg_3$ in the inhibition of $Na^+$ channels. The channels were expressed in Xenopus oocytes by injecting cRNAs encoding rat brain Nav1.2 ${\alpha}$ and ${\beta}1$ subunits, and analyzed by the two-electrode voltage clamp technique. Treatment with $Rg_3$ reversibly inhibited the inward $Na^+$ peak current ($I_{Na}$) with an $IC_{50}$ of $32.2{\pm}4.5{\mu}M$, and the inhibition was voltage-dependent. To examine the role of the sugar moiety, we prepared a straight chain form of the second glucose and a conjugate of this glucose with 3-(4-hydroxyphenyl) propionic acid hydrazide (HPPH). Neither derivative inhibited $I_{Na}$. Treatment with the carbohydrate portion of ginsenoside $Rg_3$, sophorose [${\beta}-D-glucopyranosyl$ ($1{\rightarrow}2$)-${\beta}-glucopyranoside$], or the aglycone (protopanaxadiol), on their own or in combination had no effect on $I_{Na}$. These observations indicate that the carbohydrate portion of ginsenoside $Rg_3$ plays an important role in its effect on the $Na^+$ channel.