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91.
Kiyoshi Isono Saburo Suzuki Michio Tanaka Takeo Nanbata Kunitoyo Shibuya 《Bioscience, biotechnology, and biochemistry》2013,77(9):1571-1579
5-Carboxyuracil derivatives were shown to react with aqueous sodium bisulfite in mild condition resulting in facile decarboxylation to give corresponding 5-decarboxy-5,6-dihydrouracil-6-sulfonates and uracils in good yield. The former compounds were quantitatively transformed to the latter in alkaline condition. Mechanistic feature of this reaction was discussed, which implied the initial nucleophilic addition of bisulfite across the 5,6-double bond. 5-Carboxycytosine was also shown to react similarly, however, accompanied by hydrolytic deamination. 相似文献
92.
3,5-Di-tert-butyl-4-hydroxybenzylidenemalononitrile (SF 6847) was found to be one of the most powerful uncouplers of respiratory-chain phosphorylation ever reported. Structure-activity studies of the derivatives indicated the role of three functional groups in SF 6847: (1) the malononitrile group as an electron withdrawing group, which may cause uncoupling by interaction with a primary energy conservation site, (ii) a free hydroxyl group as an electron donator, and (iii) bulky tertiary butyl groups of hydrophobic character located at a certain spacial distance from the electron withdrawing center. 相似文献
93.
Tetsuo Sawai Katsutoshi Takahashi Saburo Yamagishi Susumu Mitsuhashi 《Journal of bacteriology》1970,104(2):620-629
The penicillinase from an Escherichia coli strain harboring an R factor R(GN823) was purified and its properties were compared with those of a known type I penicillinase mediated by R factors. The molecular weight and S(20,w) of the enzyme were 22,600 and 2.42S, respectively. The isoelectric point of the enzyme was 6.9. These values are clearly different from those of type I penicillinase. The specific activity of the enzyme was 84,700 units per mg of the purified enzyme protein, which is about 20 times higher than that of the type I penicillinase. However, similarities were observed between the enzyme and the type I-penicillinase at optimal pH (6.5 to 7.0), optimal temperature (40 to 45C), substrate specificity, Michaelis constants for penicillins and cephaloridine, and effect of inhibitors. Furthermore, antiserum against type I penicillinase showed cross-reaction against this enzyme. The enzyme was named type Ib penicillinase, and the original type I penicillinase was renamed type Ia-penicillinase. 相似文献
94.
Harauma A Murayama T Ikeyama K Sano H Arai H Takano R Kita T Hara S Kamei K Yokode M 《Biochemical and biophysical research communications》2007,358(3):751-756
Mulberry is commonly used to feed silkworms. Here we examined whether a dietary intake of mulberry leaf (ML) could affect atherogenesis in vivo and in vitro. Apolipoprotein E-deficient mice were fed either normal chow (control group) or a diet containing 1% ML powder (ML group) from 6 weeks of age. The mice were sacrificed after 12 weeks. The susceptibility of plasma lipoprotein to oxidation was assessed using diene formation. A significant increase in the lag time of lipoprotein oxidation was detected in the ML group compared with the control group. Furthermore, the ML group showed a 40% reduction in atherosclerotic lesion size in the aortae compared with the control. We also examined the direct anti-oxidative activity of ML in vitro. Aqueous extract of ML had a strong scavenging effect on 1,1-diphenyl-2-picrylhydrazyl and inhibited lipoprotein oxidation. These results confirm that ML contains anti-oxidative substances that might help prevent atherosclerosis. 相似文献
95.
This study is designed to investigate the biodegradation of high molecular weight (HMW) lignin under sulfate reducing conditions. With a continuously mesophilic operated reactor in the presence of co-substrates of cellulose, the changes in HMW lignin concentration and chemical structure were analyzed. The acid precipitable polymeric lignin (APPL) and lignin monomers, which are known as degradation by-products, were isolated and detected. The results showed that HMW lignin decreased and showed a maximum degradation capacity of 3.49 mg/l/day. APPL was confirmed as a polymeric degradation by-product and was accumulated in accordance with HMW lignin reduction. We also observed non-linear accumulation of aromatic lignin monomers such as hydrocinnamic acid. Through our experimental results, it was determined that HMW lignin, when provided with a co-substrate of cellulose, is biodegraded through production of APPL and aromatic monomers under anaerobic sulfate reducing conditions with a co-substrate of cellulose. 相似文献
96.
Masafumi Tanaka Toshitaka Tanaka Shinya Ohta Toru Kawakami Hiroyuki Konno Kenichi Akaji Saburo Aimoto Hiroyuki Saito 《Journal of peptide science》2009,15(1):36-42
Although the N‐terminal region in human apolipoprotein (apo) A‐I is thought to stabilize the lipid‐free structure of the protein, its role in lipid binding is unknown. Using synthetic fragment peptides, we examined the lipid‐binding properties of the first 43 residues (1–43) of apoA‐I in comparison with residues 44–65 and 220–241, which have strong lipid affinity in the molecule. Circular dichroism measurements demonstrated that peptides corresponding to each segment have potential propensity to form α‐helical structure in trifluoroethanol. Spectroscopic and thermodynamic measurements revealed that apoA‐I (1–43) peptide has the strong ability to bind to lipid vesicles and to form α‐helical structure comparable to apoA‐I (220–241) peptide. Substitution of Tyr‐18 located at the center of the most hydrophobic region in residues 1–43 with a helix‐breaking proline resulted in the impaired lipid binding, indicating that the α‐helical structure in this region is required to trigger the lipid binding. In contrast, apoA‐I (44–65) peptide exhibited a lower propensity to form α‐helical structure upon binding to lipid, and apoA‐I (44–65/S55P) peptide exhibited diminished, but not completely impaired, lipid binding, suggesting that the central region of residues 44–65 is not pivotally involved in the formation of the α‐helical structure and lipid binding. These results indicate that the most N‐terminal region of apoA‐I molecule, residues 1–43, contributes to the lipid interaction of apoA‐I through the hydrophobic helical residues. Copyright © 2008 European Peptide Society and John Wiley & Sons, Ltd. 相似文献
97.
Yokoyama T Neya S Tsuneshige A Yonetani T Park SY Tame JR 《Journal of molecular biology》2006,356(3):790-801
Although detailed crystal structures of haemoglobin (Hb) provide a clear understanding of the basic allosteric mechanism of the protein, and how this in turn controls oxygen affinity, recent experiments with artificial effector molecules have shown a far greater control of oxygen binding than with natural heterotropic effectors. Contrary to the established text-book view, these non-physiological compounds are able to reduce oxygen affinity very strongly without switching the protein to the T (tense) state. In an earlier paper we showed that bezafibrate (BZF) binds to a surface pocket on the alpha subunits of R state Hb, strongly reducing the oxygen affinity of this protein conformation. Here we report the crystallisation of Hb with L35, a related compound, and show that this binds to the central cavity of both R and T state Hb. The mechanism by which L35 reduces oxygen affinity is discussed, in relation to spectroscopic studies of effector binding. 相似文献
98.
Toru Okuda Jun Kohno Noboru Kishi Yasuyuki Asai Maki Nishio Saburo Komatsubara 《Mycoscience》2000,41(3):239-253
A novel class of fungal metabolites, TMC-151, TMC-154, and TMC-171 series compounds, was found exclusively inGliocladium catenulatum, Clonostachys rosea and closely related strains. These compounds were not detected in any other fungi examined. The production spectrum of each
component was correlated to the morphology of the secondary conidiophores and the conidia. TMC-151 was limited toClonostachys rosea (formerlyG. roseum) forming navicular or reniform conidia orG. catenulatum with gray-green conidial masses, whereas TMC-154 and 171 were limited to the strains closely related toGliocladium roseum, which grew more slowly and formed more symmetrical conidia. 相似文献
99.
Kanaori K Tajiri Y Tsuneshige A Ishigami I Ogura T Tajima K Neya S Yonetani T 《Biochimica et biophysica acta》2011,1807(10):1253-1261
The cooperative O(2)-binding of hemoglobin (Hb) have been assumed to correlate to change in the quaternary structures of Hb: T(deoxy)- and R(oxy)-quaternary structures, having low and high O(2)-affinities, respectively. Heterotropic allosteric effectors have been shown to interact not only with deoxy- but also oxy-Hbs causing significant reduction in their O(2)-affinities and the modulation of cooperativity. In the presence of two potent effectors, L35 and inositol hexaphosphate (IHP) at pH 6.6, Hb exhibits extremely low O(2)-affinities (K(T)=0.0085mmHg(-1) and K(R)=0.011mmHg(-1)) and thus a very low cooperativity (K(R)/K(T)=1.3 and L(0)=2.4). (1)H-NMR spectra of human adult Hb with these two effectors were examined in order to determine the quaternary state of Hb in solution and to clarify the correlation between the O(2)-affinities and the structural change of Hb caused by the heterotropic effectors. At pH 6.9, (1)H-NMR spectrum of deoxy-Hb in the presence of L35 and IHP showed a marker of the T-quaternary structure (the T-marker) at 14ppm, originated from inter- dimeric α(1)β(2)- (or α(2)β(1)-) hydrogen-bonds, and hyperfine-shifted (hfs) signals around 15-25ppm, caused by high-spin heme-Fe(II)s. Upon addition of O(2), the hfs signals disappeared, reflecting that the heme-Fe(II)s are ligated with O(2), but the T-marker signals still remained, although slightly shifted and broadened, under the partial pressure of O(2) (P(O2)) of 760mmHg. These NMR results accompanying with visible absorption spectroscopy and visible resonance Raman spectroscopy reveal that oxy-Hb in the presence of L35 and IHP below pH 7 takes the ligated T-quaternary structure under the P(O2) of 760mmHg. The L35-concentration dependence of the T-marker in the presence of IHP indicates that there are more than one kind of L35-binding sites in the ligated T-quaternary structure. The stronger binding sites are probably intra-dimeric binding sites between α(1)G- and β(1)G-helices, and the other weaker binding site causes the R→T transition without release of O(2). The fluctuation of the tertiary structure of Hb seems to be caused by both the structural perturbation of α(1)β(1) (or α(2)β(2)) intra-dimeric interface, where the stronger L35-binding sites exist, and by the IHP-binding to the α(1)α(2)- (or β(1)β(2)-) cavity. The tertiary structural fluctuation induced by the allosteric effectors may contribute to the significant reduction of the O(2)-affinity of oxy-Hb, which little depends on the quaternary structures. Therefore, the widely held assumptions of the structure-function correlation of Hb - [the deoxy-state]=[the T-quaternary structure]=[the low O(2)-affinity state] and [the oxy-state]=[the R-quaternary structure]=[the high O(2)-affinity state] and the O(2)-affiny of Hb being regulated by the T/R-quaternary structural transition - are no longer sustainable. This article is part of a Special Issue entitled: Allosteric cooperativity in respiratory proteins. 相似文献
100.
ER-resident Gi2 protein controls sar1 translocation onto the ER during budding of transport vesicles
Nakagawa H Umadome H Miyazaki S Tanaka K Nishimura K Komori M Matsuo S 《Journal of cellular biochemistry》2011,112(9):2250-2256
In our previous study, fluoride ([AlF(4) ](-) ) disturbed ER-to-Golgi transport through the activation of ER-resident heterotrimeric G protein (ER-G protein). Therefore, ER-G protein may be implicated in ER-to-Golgi transport at the early stage prior to coat protein assembly. Sar1 translocation onto the endoplasmic reticulum (ER) membrane is suppressed by non-selective protein kinase inhibitor H89, suggesting the participation of H89-sensitive kinase in this process. To investigate the involvement of ER-G protein in ER-to-Golgi transport, the effect of G(i) protein activator (mastoparan 7) was examined on Sar1 translocation onto the ER in a cell-free system consisting of microsome membrane and cytosol. Sar1 translocation onto the microsome membrane was induced by addition of GTPγS in the cell-free system. Translocation of Sar1 by GTPγS was suppressed significantly by both H89 and mastoparan 7. Mastoparan 7 suppressed the translocation of Sar1 onto the microsome membrane with dosage dependency, but mastoparan 17, the inactive analog of mastoparan 7, had no effect on Sar1 translocation. The suppressive effect of mastoparan 7 was recovered by treatment with pertussis toxin (IAP). Moreover, G(i2) protein was detected on the microsome membrane by western blotting for heterotrimeric G(i) proteins. These results indicate that ER-G(i2) protein modulated Sar1 translocation onto the ER, suggesting that ER-resident G(i2) protein is an important negative regulator of vesicular transport at the early stage of vesicle formation before coat protein assembly on the ER. 相似文献