Naoko Kawakami scite author profile

We previously prepared the oligonucleotides (ODNs) conjugated to an anthraquinone (AQ) group via one carbon linker at the 2'-sugar position. When these modified ODNs bind to cDNA sequences, the AQ moiety can be intercalated into the predetermined base-pair pocket of a duplex DNA. In this paper, 2'-AQ-modified ODNs are shown to be an excellent electrochemical probe to clarify the effect of a mismatch base on the charge transfer (CT) though DNA. Two types of DNA-modified electrodes were constructed by assembly of disulfide-terminated 2'-AQ-ODN duplexes onto gold electrodes. One type of electrodes (system I) contains fully matched base pairs or a single-base mismatch in duplex DNA between the redox center and the electrode. The other (system II) consists of the mismatch but at the outside of the redox center. The modified electrodes were analyzed by cyclic voltammetry to estimate the CT rate through duplex DNA. In system I, the CT rate was found to be approximately 50 s (-1) for the fully matched AQ-ODN duplexes, while the CT rates of the mismatched DNA were considerably slower than that of the fully matched DNA. In system II, the AQ-ODN duplexes showed almost similar CT rates ( approximately 50 s (-1)) for the fully matched DNA and for the mismatched DNAs. The detection of a single-base mismatch was then performed by chronocoulometry (CC). All the DNA duplexes containing a mismatch base in system I gave the reduced electrochemical responses when compared to the fully matched DNA. In particular, the mismatched DNAs including G--A mismatch can be differentiated from fully matched DNA without using any electrochemical catalyst. We further tested the usefulness of single-stranded (ss) AQ-ODN immobilized on a gold electrode in the electrochemical detection of a single-base mismatch through hybridization assay. The ss-AQ-ODN electrodes were immersed in target-containing buffer at room temperature, and the CC measurements were carried out to see the changes in the integrated charge. Within 60 min, the mismatched DNA was clearly distinguishable by the CC differences from the fully matched target. Thus, the electrochemical hybridization assay provides an easy and convenient detection for DNA mutation that does not require any extra reagents, catalyst, target labeling, and washing steps.

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Nonenzymatic Glycation of Transferrin: Decrease of Iron-Binding Capacity and Increase of Oxygen Radical Production.

Fujimoto¹,

Kawakami²,

Ohara³

1995

Biological & Pharmaceutical Bulletin

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The total iron-binding capacity (TIBC) and iron contents of diabetic rat serum, as well as the iron-binding capacity of glycated transferrin and oxygen radical production by the glycated proteins were examined. The TIBC and iron content of diabetic rat sera were found to be much lower than those of control rat sera. Incubation of human serum with glucose in vitro resulted in a significant fall of its unsaturated iron-binding capacity (UIBC) with time. When apotransferrin was incubated with glucose, its UIBC significantly decreased. The iron content of holotransferrin was markedly reduced by incubation with bathophenanthroline sulphonic acid (BPSA) in the presence of glucose, although the content was not altered by incubation with BPSA alone. The generation of superoxide radical (O2-) and hydroxyl radical (OH.) by the glycated holotransferrin was much greater than that by glycated apotransferrin. Glycated holotransferrin showed significantly accelerated hydroxyl radical production by the hypoxanthine-xanthine oxidase system, while intact holotransferrin did not. Treatment of holotransferrin with glucose caused the fragmentation of the protein, while the same treatment of apotransferrin did not. These results suggest that iron ions in the glycated transferrin molecule are bound loosely to the protein and are redox-active and the glycated holotransferrin produces oxygen radicals including O2- and OH. efficiently, and that the glycated transferrin does not function as an iron-binding protein.

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Isolation and characterization of transposon-induced mutants of deficient in fimbriation

Watanabe-Kato

Hayashi

Terazawa

et al. 1998

Microbial Pathogenesis

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Inhibitory Effect of Acetylshikonin on the Activation of NADPH Oxidase in Polymorphonuclear Leukocytes in Both Whole Cell and Cell-Free Systems.

Kawakami

Koyama

Tanaka

et al. 1996

Biological & Pharmaceutical Bulletin

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Naoko Kawakami

Activation of NADPH Oxidase in Alzheimer's Disease Brains

2′-Anthraquinone-Conjugated Oligonucleotide as an Electrochemical Probe for DNA Mismatch

Nonenzymatic Glycation of Transferrin: Decrease of Iron-Binding Capacity and Increase of Oxygen Radical Production.

Isolation and characterization of transposon-induced mutants of deficient in fimbriation

Inhibitory Effect of Acetylshikonin on the Activation of NADPH Oxidase in Polymorphonuclear Leukocytes in Both Whole Cell and Cell-Free Systems.

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