• Title/Summary/Keyword: inactivating enzyme

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Isolation of Angiotensin I Converting Enzyme (ACE) Inhibitor from fermented oyster, Crassostrea gigas

  • Park, Ji-Young;Je, Jae-Young;Park, Pyo-Jam;Kim, Se-Kwon
    • Proceedings of the Korean Society of Fisheries Technology Conference
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    • 2002.10a
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    • pp.193-194
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    • 2002
  • Angiotensin I converting enzyme (ACE) inhibitor was purified from Crassostrea gigas. The ACE belongs to the class of metalloprotease. This enzyme plays an important physiological role in regulating blood pressure of the rennin-angiotensin system by converting from angiotensin I to octapeptide angiotensin II, a potent vasoconstrictor and by inactivating bradykinin, which has depressor action. (omitted)

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Cell-Surface Loss of Constitutive Activating and Inactivating Mutants of Eel Luteinizing Hormone Receptors

  • Byambaragchaa, Munkhzaya;Choi, Seung-Hee;Kim, Dong-Wan;Min, Kwan-Sik
    • Development and Reproduction
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    • v.25 no.4
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    • pp.225-234
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    • 2021
  • The present study aimed to investigate the mechanism of cell surface receptor loss by two constitutively activating mutants (designated L469R, and D590Y) and two inactivating mutants (D417N and Y558F) of the luteinizing hormone receptor (LHR) in the Japanese eel Anguilla japonica, known to naturally occur in human LHR transmembrane domains. We investigated cell surface receptor loss using an enzyme-linked immunosorbent assay in HEK 293 cells. The expression level of wild-type eel LHR was considered to be 100%, and the expression levels of L469R and D417N were 97% and 101%, respectively, whereas the expression levels of D590Y and Y558F slightly increased to approximately 110% and 106%, respectively. The constitutively activating mutants L469R and D590Y exhibited a decrease in cell surface loss in a manner similar to that of wild-type eel LHR. The rates of loss of cell surface agonist-receptor complexes were observed to be very rapid (2.6-6.2 min) in both the wild-type eel LHR and activating mutants. However, cell surface receptor loss in the cells expressing inactivating mutants D417N and Y558F was slightly observed in the cells expressing inactivating mutants D417N and Y558F, despite treatment with a high concentration of agonist. These results provide important information on LHR function in fish and the regulation of mutations of highly conserved amino acids in glycoprotein hormone receptors.

Solvent Effect on Restriction Endonuclease : Alteration of Specificity of Restriction Endonuclease PvuII in Hydrophobic Solution (제한효소에 대한 용매의 영향 :소수성 용매에 의한 PvuII 특이성 변화)

  • 김희정;이강민
    • KSBB Journal
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    • v.9 no.1
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    • pp.63-71
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    • 1994
  • During the last decade enzyme reaction in organic solvent has been studied to show that specificity in buffer is different from that in organic solvent. The specificity of restriction enzyme was effected by various factors such as ionic strength, salt organic solvent and temperature. In this study, restriction enzyme PvuII which is used most frequently in genetic engineering and the substrate was vector pGEM3 whose sequence was already known were used. As a result the recognition sequence site was changed in the presence of organic solvents whose Log P are -1.5∼0. Their specificities were contrast with activities were contrasted. Specificities were not changed in organic solvent easily in inactivating enzyme. We think that the enzyme recognition site was not changed randomly but by preferential order. A recombinant vector which does not contain typical cleavage site CAG↓CTG was cleaved in 20% ethanol solution. This result might show that restriction enzyme could be used to cleave at unusual sites by changing the reaction conditions.

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Nutritional Regulation of Morphological and Physiological Differentiation on Surface Culture of Streptomyces exfoliatus SMF13

  • KYE JOON LEE;KIM, IN SEOP
    • Journal of Microbiology and Biotechnology
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    • v.5 no.4
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    • pp.200-205
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    • 1995
  • Nutritional factors regulating the morphological differentiation and physiological differentiation of Streptomyces exfoliatus SMF13 on surface cultures were evaluated. S. exfoliatus SMF13 produced leupeptin and chymotrypsin-like protease (CTP) at the stage of substrate mycelium growth, and leupeptin-inactivating enzyme (LIE) and trypsin-like protease (TLP) at the stage of aerial mycelium growth. The activity of leupeptin and CTP was high in the region of active growing substrate mycelium, whereas the activity of LIE and TLP was high in the region of aerial mycelium or spores. The differentiations were induced in glucose-limited conditions or by the addition of glucose anti-metabolite (methyl $\alpha$-glucopyranoside), but repressed by high concentrations of glucose or casamino acids. Morphological differentiation (formation of aerial mycelia and spores) was closely related with physiological differentiation (formation of brown-pigment, LIE and TLP). The local distribution of leupeptin, CTP, LIE, and TLP in a developing colony showed that colony development correlated with the production and functions of the compounds: CTP is essential for providing a nitrogen source for mycelium growth: leupeptin regulates TLP activity: LIE inactivates leupeptin: TLP hydrolyzes nongrowing mycelium.

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Studies on the Resistance to Antibiotics in Bacteria Induced Resistance to Macrolide Antibiotics in Bacillus sp. (세균의 항생물질 내성에 관한 연구 Macrolide계 항생물질에 대한 유도 내성 Bacillus속 세균)

  • 최응칠;김병각;심미자;정경수;김혜령;이종길
    • YAKHAK HOEJI
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    • v.26 no.3
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    • pp.169-174
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    • 1982
  • Several strains of bacteria having resistance to macrolide antibiotics were isolated. EMR-1, one of them, exhibited the induced resistance to macrolide antibiotics and this microorganism was identified as a bacterium belong to Bacillus species. The subinhibitory concentration of erythromycin or oleandomycin induced strong resistance to both erythromycin and oleandomycin themselves and to other macrolide antibiotics such as leucomycin, spiramycin and josamycin. The effective concentration of inducer, erythromycin was $0.0016-0.2\mu$g/ml. The inactivating enzyme of these antibiotics was not produced by EMR-1.

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Evaluation of Genotoxicity of Three Antimalarial Drugs Amodiaquine, Mefloquine and Halofantrine in Rat Liver Cells

  • Farombi E. Olatunde
    • Environmental Mutagens and Carcinogens
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    • v.25 no.3
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    • pp.97-103
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    • 2005
  • The genotoxic effect of antimalarial drugs amodiaquine (AQ), mefloquine (MQ) and halofantrine (HF) was investigated in.at liver cells using the alkaline comet assay. AQ, MQ and HF at concentrations between $0-1000{\mu}mol/L$ significantly increased DNA strand breaks of rat liver cells dose-dependently. The order of induction of strand breaks was AQ>MQ>HF. The rat liver cells exposed to AQ and HF (200 and 400 ${\mu}mol/L$) and treated with (Fpg) the bacterial DNA repair enzyme that recognizes oxidized purine showed greater DNA damage than those not treated with the enzyme, providing evidence that AQ and HF induced oxidation of purines. Such an effect was not observed when MQ was treated with the enzyme. Treatment of cells with catalase, an enzyme inactivating hydrogen peroxide, decreased significantly the extent of DNA damage induced by AQ, and HF but not the one induced by MQ. Similarly quercetin, an antioxidant flavonoid at $50{\mu}mol/L$ attenuated the extent of the formation of DNA strand breaks by both AQ and HE. Quercetin, however, did not modify the effects of MQ. These results indicate the genotoxicity of AQ, MQ and HF in rat liver cells. In addition, the results suggest that reactive oxygen species may be involved in the formation of DNA lesions induced by AQ and HF and that, free radical scavengers may elicit protective effects against genotoxicity of these antimalarial drugs.

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Inhibition of Various Proteases by MAPI and Inactivation fo MAPI by Trypsin

  • Lee, Hyun-Sook;Kho, Yung-Hee;Lee, Kye-Joon
    • Journal of Microbiology and Biotechnology
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    • v.10 no.2
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    • pp.181-186
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    • 2000
  • MAPI (microbial alkaline protease inhibitor) was isolated from cultrue broth of Streptomyces chromofuscus SMF28. The Ki values of MAPI for the representative serine proteases such as chymotrypsin and proteinase K were 0.28 and $0.63{\;}\mu\textrm{M}$, respectively, and for the cysteine proteases cathepsin B and papain were 0.66 and $0.28{\;}\mu\textrm{M}$, respectively. These data indicate that MAPI is not a potent selective inhibitor of serine or cysteine proteases. Progress curves for the inhibition of three proteases by MAPI exhibithe characteristic patterns; MAPI exhibited slow-binding inhibition of cathepsin B. It was rapidly associated with chymotrypsin before the addition of substrate and then reactivation of MAPI-inhibited enzyme was investigated in the presence of substrate. On the other hand, MAPI-proteinase K interaction was typical for those classical inhibitors. When MAPI was incubated with trypsin, there was an extensive reduction in the ingibitory activities of MAPI corresponding to 66.5% inactivation of MAPI, indicating that trypsin-like protease may play a role in the decrease of the inhibitory activity during cultivation.

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A Novel Transglutaminase Substrate from Streptomyces mobaraensis Inhibiting Papain-Like Cysteine Proteases

  • Sarafeddinov, Alla;Arif, Atia;Peters, Anna;Fuchsbauer, Hans-Lothar
    • Journal of Microbiology and Biotechnology
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    • v.21 no.6
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    • pp.617-626
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    • 2011
  • Transglutaminase from Streptomyces mobaraensis is an enzyme of unknown function that cross-links proteins to high molecular weight aggregates. Previously, we characterized two intrinsic transglutaminase substrates with inactivating activities against subtilisin and dispase. This report now describes a novel substrate that inhibits papain, bromelain, and trypsin. Papain was the most sensitive protease; thus, the protein was designated Streptomyces papain inhibitor (SPI). To avoid transglutaminase-mediated glutamine deamidation during culture, SPI was produced by Streptomyces mobaraensis at various growth temperatures. The best results were achieved by culturing for 30-50 h at $42^{\circ}C$, which yielded high SPI concentrations and negligibly small amounts of mature transglutaminase. Transglutaminasespecific biotinylation displayed largely unmodified glutamine and lysine residues. In contrast, purified SPI from the $28^{\circ}C$ culture lost the potential to be cross-linked, but exhibited higher inhibitory activity as indicated by a significantly lower $K_i$ (60 nM vs. 140 nM). Despite similarities in molecular mass (12 kDa) and high thermostability, SPI exhibits clear differences in comparison with all members of the wellknown family of Streptomyces subtilisin inhibitors. The neutral protein (pI of 7.3) shares sequence homology with a putative protein from Streptomyces lavendulae, whose conformation is most likely stabilized by two disulfide bridges. However, cysteine residues are not localized in the typical regions of subtilisin inhibitors. SPI and the formerly characterized dispase-inactivating substrate are unique proteins of distinct Streptomycetes such as Streptomyces mobaraensis. Along with the subtilisin inhibitory protein, they could play a crucial role in the defense of vulnerable protein layers that are solidified by transglutaminase.