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61.
Shigeyuki Fujimoto Naoya Itsumura Tokuji Tsuji Yasumi Anan Natsuko Tsuji Yasumitsu Ogra Tomoki Kimura Yusaku Miyamae Seiji Masuda Masaya Nagao Taiho Kambe 《PloS one》2013,8(10)
The activation process of secretory or membrane-bound zinc enzymes is thought to be a highly coordinated process involving zinc transport, trafficking, transfer and coordination. We have previously shown that secretory and membrane-bound zinc enzymes are activated in the early secretory pathway (ESP) via zinc-loading by the zinc transporter 5 (ZnT5)-ZnT6 hetero-complex and ZnT7 homo-complex (zinc transport complexes). However, how other proteins conducting zinc metabolism affect the activation of these enzymes remains unknown. Here, we investigated this issue by disruption and re-expression of genes known to be involved in cytoplasmic zinc metabolism, using a zinc enzyme, tissue non-specific alkaline phosphatase (TNAP), as a reporter. We found that TNAP activity was significantly reduced in cells deficient in ZnT1, Metallothionein (MT) and ZnT4 genes (ZnT1
−/−
MT
−/−
ZnT4
−/− cells), in spite of increased cytosolic zinc levels. The reduced TNAP activity in ZnT1
−/−
MT
−/−
ZnT4
−/− cells was not restored when cytosolic zinc levels were normalized to levels comparable with those of wild-type cells, but was reversely restored by extreme zinc supplementation via zinc-loading by the zinc transport complexes. Moreover, the reduced TNAP activity was adequately restored by re-expression of mammalian counterparts of ZnT1, MT and ZnT4, but not by zinc transport-incompetent mutants of ZnT1 and ZnT4. In ZnT1
−/−
MT
−/−
ZnT4
−/− cells, the secretory pathway normally operates. These findings suggest that cooperative zinc handling of ZnT1, MT and ZnT4 in the cytoplasm is required for full activation of TNAP in the ESP, and present clear evidence that the activation process of zinc enzymes is elaborately controlled. 相似文献
62.
63.
64.
Ari Dwi Nugraheni Satoshi Nagao Sachiko Yanagisawa Takashi Ogura Shun Hirota 《Journal of biological inorganic chemistry》2013,18(3):383-390
We have previously shown that methionine–heme iron coordination is perturbed in domain-swapped dimeric horse cytochrome c. To gain insight into the effect of methionine dissociation in dimeric cytochrome c, we investigated its interaction with cyanide ion. We found that the Soret and Q bands of oxidized dimeric cytochrome c at 406.5 and 529 nm redshift to 413 and 536 nm, respectively, on addition of 1 mM cyanide ion. The binding constant of dimeric cytochrome c and cyanide ion was obtained as 2.5 × 104 M?1. The Fe–CN and C–N stretching (ν Fe–CN and ν CN) resonance Raman bands of CN?-bound dimeric cytochrome c were observed at 443 and 2,126 cm?1, respectively. The ν Fe–CN frequency of dimeric cytochrome c was relatively low compared with that of other CN?-bound heme proteins, and a relatively strong coupling between the Fe–C–N bending and porphyrin vibrations was observed in the 350–450-cm?1 region. The low ν Fe–CN frequency suggests weaker binding of the cyanide ion to dimeric cytochrome c compared with other heme proteins possessing a distal heme cavity. Although the secondary structure of dimeric cytochrome c did not change on addition of cyanide ion according to circular dichroism measurements, the dimer dissociation rate at 45 °C increased from (8.9 ± 0.7) × 10?6 to (3.8 ± 0.2) × 10?5 s?1, with a decrease of about 2 °C in its dissociation temperature obtained with differential scanning calorimetry. The results show that diatomic ligands may bind to the heme iron of dimeric cytochrome c and affect its stability. 相似文献
65.
Toru Nakayama Nobuyoshi Esaki Woon-Joo Lee Izumi Tanaka Hidehiko Tanaka Kenji Soda 《Bioscience, biotechnology, and biochemistry》2013,77(9):2367-2369
Four types of β-xylosidases from a concentrated culture filtrate of Pénicillium wortmanni IFO 7237, designated as xylosidase-1, -2, -3, and -4 were purified to homogeneity on SDS polyacrylamide gel electrophoresis by an alcohol precipitation, DEAE-Sephadex A-25 ion exchange chromatography, and isoelectric focusing. The molecular weights of xylosidase-1, -2, -3, and -4 were estimated to be 110,000, 195,000, 210,000, and 180,000 respectively and their isoelectric points to be 3.7, 4.28, 4.6, and 4.8. The pH optima of β-xylosidase activities were from 3 to 4.5. The optimum temperature for enzyme activities was from 55°C to 65°C. On the enzymic hydrolysis of phenyl ß-d- xyloside, the reaction product of each enzyme was found to be β-d-xylose with retention of configuration. All the four ß-xylosidases were free of α-xylosidase and ß-glucosidase activities. All the enzyme activities of four β-xylosidases were strongly inhibited by Hg2+ and N- bromosuccinimide. With respect to the hydrolysis patterns and HPLC analysis of hydrolyzates from xylooligosaccharides, xylosidase-2 was totally different from other three as a distinct enzyme. Xylosidase-1 was also in a separate group although xylosidase-3 and -4 showed closely related action patterns as a different group. 相似文献
66.
Tadanobu Nakadai Seiichi Nasuno Nobuyoshi Iguchi 《Bioscience, biotechnology, and biochemistry》2013,77(8):1343-1352
To elucidate the constitution of peptidases from Aspergillus oryzae, systematic separation of the enzymes was carried out by batchwise treatment with Amberlite IRC-50 and precipitation with rivanol. Proteases were separated to two fractions. They were Amberlite IRC-50 adsorbed and the non-adsorbed fractions and the latter fraction was further separated to two fractions, rivanol precipitable and non-precipitable fractions.Acid carboxypeptidase I was purified from the rivanol non-precipitable fraction by column chromatography on DEAE-cellulose, DEAE-Sephadex A-50 and SE-cellulose. The purified enzyme was not homogeneous on disc electrophoresis, although symmetric peaks were obtained for enzyme protein and activity in Sephadex gel filtration. The optimum pH is at pH 4.0 for carbobenzoxy-l-alanyl-l-glutamic acid. The enzyme activity was inhibited by SH reagents, but not inhibited by metal chelating agents. The molecular weight of the enzyme was estimated to be about 120,000 by gel filtration. 相似文献
67.
Tadanobu Nakadai Seiichi Nasuno Nobuyoshi Iguchi 《Bioscience, biotechnology, and biochemistry》2013,77(9):1481-1488
Acid carboxypeptidase III from Aspergillus oryzae was purified from the rivanol non-precipitated fraction. The optimum activity of the enzyme occurred at pH 3.0 for carbobenzoxy-l-glutamyl-l-tyrosine. The enzyme was inhibited by diisopropylphosphorofluoridate and SH reagents such as p-chloromercuribenzoate and monoiodoacetate, but not by such metal chelating agents as ethylenediaminetetraacetate, αα′-dipyridyl and o-phenanthroline. The molecular weight of the enzyme was estimated to be about 61,000. The enzyme hydrolyzed the peptides that possess masked or bulky N-terminal. 相似文献
68.
Nobuyoshi Esaki Hidehiko Tanaka Edith Wilson Miles Kenji Soda 《Bioscience, biotechnology, and biochemistry》2013,77(12):2861-2864
The α2β2 complex of tryptophan synthase from Escherichia coli catalyzes β-replacement reactions of l-serine and its derivatives (e.g., β-chloro-l-alanine and O-methyl-Dl-serine) with various alkanethiols. The products from thiobenzyl alcohol and ethanethiol were isolated to demonstrate the enzymatic synthesis of the corresponding S-substituted l-cysteines. Reactivities of various S-substituent donors were examined, and thiols such as thiobenzyl alcohol, 1-propanethiol and 1-butanethiol were found to be much more efficient substituent donors than the physiological substrate, indole. In addition, tryptophan synthase catalyzes β-replacement reactions of l-threonine with thiols to form the corresponding S-substituted β-methylcysteines, which are also produced by β-addition reactions of l-vinylglycine with thiols. These enzymatic reactions facilitate the synthesis of various sulfur-containing amino acids. 相似文献
69.
Tornio Kimura Nobuyoshi Esaki Hidehiko Tanaka Kenji Soda 《Bioscience, biotechnology, and biochemistry》2013,77(12):3157-3159
Methods are investigated for evaluating the kinetic parameters in a modified Monod’s equation which give the best fit to the growth thermograms for bacterial cultures observed in batch calorimeters. Four mathematical methods were employed as parameter fitting techniques. The growth thermograms observed for soil microbes cultured with glucose as a limiting substrate were used as the objects of the analysis. For the calculation of the heat evolution rate, the Runge-Kutta method, which is commonly used for the numerical analysis, was employed. A comparison of the results obtained by the four methods in terms of closeness of fit to the actual thermograms showed that optimization by direct searching with the Simplex method is the most effective procedure for obtaining the best values of the parameters to reproduce the observed thermograms. 相似文献
70.
Hiroko Shimoi Shinji Nagata Nobuyoshi Esaki Hidehiko Tanaka Kenji Soda 《Bioscience, biotechnology, and biochemistry》2013,77(12):3375-3381
The leucine dehydrogenase (l-leucine: NAD+ oxidoreductase, deaminating, EC 1.4.1.9) gene of Clostridium thermoaceticum was cloned and expressed in Escherichia coli C600 with a vector plasmid, pICD242, which was constructed from pBR322 and the leucine dehydrogenase gene derived from C. thermoaceticum. The enzyme overproduced in the clone was purified about 12 fold to homogeneity by heat treatment and another two steps with a yield of 46%. The enzyme of E. coli- pICD242 was immunochemically identical with that of C. thermoaceticum. The enzyme has a molecular weight of about 350,000 and consists of six subunits identical in molecular weight (56,000). The enzyme is not inactivated by heat treatment: at pH 7.2 and 75°C for 15 min; at 55°C and various pH’s between 6.0 and 10.0 for 10 min. The enzyme catalyzes the oxidative deamination of branched-chain l-amino acids and the reductive amination of their 2-oxo analogues in the presence of NAD+ and NADH, respectively. The pro-S hydrogen at C-4 of the dihydronicotin- amide ring of NADH is exclusively transferred to the substrate; the enzyme is B stereospecific. The enzymological properties are very similar to those of the Bacillus stearothermophilus enzyme [T. Ohshima, S. Nagata and K. Soda, Arch. Microbiol., 141, 407 (1985)]. 相似文献