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991.
Structural competition between the G-quadruplex, the I-motif, and the Watson-Crick duplex has been implicated for repetitive DNA sequences, but the competitive mechanism of these multistranded structures still needs to be elucidated. We investigated the effects of sequence context, cation species, and pH on duplex formation by the G-quadruplex of dG(3)(T(2)AG(3))(3) and its complement the I-motif of d(C(3)TA(2))(3)C(3), using ITC, DSC, PAGE, CD, UV, and CD stopped-flow kinetic techniques. ITC and PAGE experiments confirmed Watson-Crick duplex formation by the complementary strands. The binding constant of the two DNA strands in the presence of 10 mM Mg(2+) at pH 7.0 was shown to be 5.28 x 10(7) M(-1) at 20 degrees C, about 400 times larger than that in the presence of 100 mM Na(+) at pH 5.5. The dynamic transition traces of the duplex formation from the equimolar mixture of G-/C-rich complementary sequences were obtained at both pH 7.0 and pH 5.5. Fitting to a single-exponential function gave an observed rate of 8.06 x 10(-3) s(-1) at 20 degrees C in 10 mM Mg(2+) buffer at pH 7.0, which was about 10 times the observed rate at pH 5.5 under the same conditions. Both of the observed rates increased as temperature rose, implying that the dissociation of the single-stranded structured DNAs is the rate-limiting step for the WC duplex formation. The difference between the apparent activation energy at pH 7.0 and that at pH 5.5 reflects the fact that pH significantly influences the structural competition between the G-quadruplex, the I-motif, and the Watson-Crick duplex, which also implies a possible biological role for I-motifs in biological regulation. 相似文献
992.
Sugimoto M Furui S Sasaki K Suzuki Y 《Bioscience, biotechnology, and biochemistry》2003,67(5):1160-1163
Transglucosylation activities of spinach alpha-glucosidase I and IV, which have different substrate specificity for hydrolyzing activity, were investigated. In a maltose mixture, alpha-glucosidase I, which has high activity toward not only maltooligosaccharides but also soluble starch and can hydrolyze isomaltose, produced maltotriose, isomaltose, and panose, and alpha-glucosidase IV, which has high activity toward maltooligosaccharides but faint activity toward soluble starch and isomaltose, produced maltotriose, kojibiose, and 2,4-di-alpha-D-glucosyl-glucose. Transglucosylation to sucrose by alpha-glucosidase I and IV resulted in the production of theanderose and erlose, respectively, showing that spinach alpha-glucosidase I and IV are useful to synthesize the alpha-1,6-glucosylated and alpha-1,2- and 1,4-glucosylated products, respectively. 相似文献
993.
Sowa H Kaji H Canaff L Hendy GN Tsukamoto T Yamaguchi T Miyazono K Sugimoto T Chihara K 《The Journal of biological chemistry》2003,278(23):21058-21069
994.
Sugimoto H Sugimoto S Tatei K Obinata H Bakovic M Izumi T Vance DE 《The Journal of biological chemistry》2003,278(22):19716-19722
995.
Guanine quadruplex (G-quadruplex) structures are formed by guanine-rich oligonucleotides. Because of their in vivo and in vitro importance, numerous studies have been demonstrated that the structure and stability of the G-quadruplex are dependent on the sequence of oligonucleotide and environmental conditions such as existing cations. Previously, we quantitatively investigated the divalent cation effects on the antiparallel G-quadruplex of d(G4T4G4), and found that Ca2+ induces a structural transition from the antiparallel to parallel G-quadruplex, and finally G-wire formation. In the present study, we report in detail the kinetic and thermodynamic analyses of the structural transition induced by Ca2+ using stopped-flow apparatus, circular dichroism, size-exclusion chromatography (SEC) and atomic force microscopy. The quantitative parameters showed that at least two Ca2+ ions were required for the transition. The kinetic parameters also indicated that d(G4T4G4) underwent the transition through multiple steps involving the Ca2+ binding, isomerization and oligomerization of d(G4T4G4). The parallel-stranded G-wire structure of d(G4T4G4), which is a well controlled alignment of numerous DNA strands with G-quartets, as the final product induced by Ca2+, was observed using SEC and atomic force microscopy. These results provide insight into the mechanism of the structural transition and G-wire formation and are useful for constructing a nanomaterial regulated by Ca2+. 相似文献
996.
DNA oligonucleotides can form multi-stranded structures such as a duplex, triplex, and quadruplex, while the double helical structure is generally considered as the canonical structure of DNA oligonucleotides. Guanine-rich or cytosine-rich oligonucleotides, which are observed in telomere, centromere, and other biologically important sequences in vivo, can form four-stranded G-quadruplex and I-motif structures in vitro. In this study, we have investigated the effects of pH and cation on the structures and their stabilities of d(G4T4G4) and d(C4A4C4). The CD spectra and thermal melting curves of DNAs at various pHs demonstrated that acidic conditions induced a stable I-motif structure of d(C4A4C4), while the pH value did not affect the G-quadruplex structure and stability of d(G4T4G4). The CD spectra of the 1:1 mixture of d(G4T4G4) and d(C4A4C4) indicated that the acidic conditions inhibit the duplex formation between d(G4T4G4) and d(C4A4C4). Isothermal titration calorimetry measurements of the duplex formation at various pHs also quantitatively indicated that the acidic conditions inhibit the duplex formation. On the other hand, the CD spectra and thermal melting curves of DNAs in the absence and presence of Ca2+ indicated that Ca2+ induces a parallel G-quadruplex structure of d(G4T4G4) and then inhibits the duplex formation. These results lead to the conclusion that both the pH and coexisting cation can induce and regulate the structural polymorphisms the oligonucleotides in which they form the G-quadruplex, I-motif, and duplex depending on the conditions. Thus, the results reported here indicate pivotal roles of pH and coexisting cations in biological processes by regulating the conformational switching between the duplex and quadruplexes structures of the guanine-rich or cytosine-rich oligonucleotides in vivo. 相似文献
997.
998.
Stimulatory effect of genistein and daidzein on protein synthesis in osteoblastic MC3T3-E1 cells: activation of aminoacyl-tRNA synthetase 总被引:2,自引:0,他引:2
The effect of genistein and daidzein on protein synthesis in osteoblastic MC3T3-E1 cells in vitro was investigated to determine a cellular mechanism by which the isoflavones stimulate bone formation. Cells were cultured for 48 h in alpha-minimal essential medium containing either vehicle, genistein (l0(-7) - 10(-5) M) or daidzein (10(-7) - 10(-5) M). The 5,500 g supernatant of cell homogenate was used for assay of protein synthesis with [3H]leucine incorporation in vitro. The culture with genistein or daidzein caused a significant elevation of protein synthesis in the cell homogenate. The effect of genistein ( 10(-5) M) or daidzein ( 10(-5) M) in elevating protein synthesis was significantly prevented, when cells were cultured for 48 h in a medium containing either actinomycin D (10(-7) M) or cycloheximide (10(-6) M) in the absence or presence of isoflavones. Moreover, when genistein (10(-7) 10(-5) M) or daidzein (10(-6) and 10(-5) M) was added to the reaction mixture containing the cell homogenate obtained from osteoblastic cells cultured without isoflavone, protein synthesis was significantly raised. This increase was markedly blocked by the addition of cycloheximide (10(-7) M). In addition, [3H]leucyl-tRNA synthetase activity in the cytosol of osteoblastic cells was significantly increased by the addition of genistein (10(-6) and 10(-5) M) or daidzein (10(-5) M) into the enzyme reaction mixture. The present study demonstrates that genistein or daidzein can stimulate protein synthesis in osteoblastic MC3T3-E1 cells. The isoflavones may have a stimulatory effect on osteoblastic bone formation due to increasing protein synthesis. 相似文献
999.
Yoshimoto J Kakui M Iwasaki H Sugimoto H Fujiwara T Hattori N 《Microbiology and immunology》2000,44(8):677-685
We have recently described a novel hemagglutinin (HA) conformational change inhibitor of human influenza virus, Stachyflin (Yoshimoto et al, Arch. Virol., 144, 1-14, 1999). Stachyflin-resistant variants of human influenza A/WSN/33 (H1N1) virus were isolated in vitro and the nucleotide sequences of their HA genes were determined. The relation of amino acid substitutions and Stachyflin resistance was analyzed with in vitro membrane fusion between HA-expressing cells and octadecylrhodamine (R18)-labelled chick erythrocytes (RBC). The amino acid substitutions, lysine to arginine at position 51 or lysine to glutamic acid at position 121 of the HA2 subunit of the HA protein was enough to confer a Stachyflin-resistant phenotype of HA protein. The molecular mechanism of anti-HA conformational change activity of Stachyflin is discussed. 相似文献
1000.
Childhood absence epilepsy in 8q24: refinement of candidate region and construction of physical map 总被引:7,自引:0,他引:7
Sugimoto Y Morita R Amano K Fong CY Shah PU Castroviejo IP Khan S Delgado-Escueta AV Yamakawa K 《Genomics》2000,68(3):264-272
Childhood absence epilepsy (CAE), one of the common idiopathic generalized epilepsies, accounts for 8 to 15% of all childhood epilepsies. Inherited as an autosomal dominant trait, frequent absence attacks start in early or midchildhood and disappear by 30 years of age or may persist through life. Recently, we mapped the locus for CAE persisting with tonic-clonic seizures to chromosome 8q24 (ECA1) by genetic linkage analysis. As a further step in the identification of the ECA1 gene, we constructed a bacterial artificial chromosome- and yeast artificial chromosome-based physical map for the 8q24 region, spanning about 3 Mb between D8S1710 and D8S523. Accurately ordered STS markers within the physical map aided in the analysis of haplotypes and recombinations and reduced the ECA1 region to 1.5 Mb flanked by D8S554 and D8S502. Pairwise analysis in six families confirmed linkage with a pooled lod score of 4.10 (θ = 0) at D8S534. The sequence-ready physical map as well as the narrowed candidate region described here should contribute to the identification of the ECA1 gene. 相似文献