Aoi Kimura scite author profile

Aoi Kimura

5Publications

63Citation Statements Received

94Citation Statements Given

How they've been cited

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112

Affiliations

Doshisha University, Shin Nippon Biomedical Laboratories (Japan), The University of Tokyo

Publications

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A Protein–Protein Interaction Assay Based on the Functional Complementation of Mutant Firefly Luciferases

et al. 2013

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We report a novel bioluminescent protein-protein interaction (PPI) assay, which is based on the functional complementation of two mutant firefly luciferases (Fluc). The chemical reaction catalyzed by Fluc is divided into two half reactions of ATP-driven luciferin adenylation and subsequent oxidative reactions. In the former adenylation half-reaction, a luciferyl-adenylate (LH2-AMP) intermediate is produced from LH2 and ATP. With this intermediate, the latter oxidative reactions produce oxyluciferin via proton abstraction at the C4 carbon of LH2-AMP. We created and optimized two Fluc mutants; one is named "Donor", which virtually lacks oxidative activity, while the other, named "Acceptor", is almost defective in the adenylation activity. Then, the two mutants are fused to interacting partners, and prepared as pure proteins. When the interaction between the partners is induced, higher efficiency of LH2-AMP transfer between the Donor and Acceptor enzymes resulted in increased luminescence. The assay was found to work both in vitro and in cultured cells with strong signals. This would be the first example of reconstituting two divided reactions of one enzyme to detect PPI, which will not only be utilized as a robust PPI assay, but also open a way to control the activity of similar enzymes in acyl/adenylate-forming enzyme superfamily.

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A combination of in vitro comet assay and micronucleus test using human lymphoblastoid TK6 cells

Kimura¹,

Miyata

Honma

2013

Mutagenesis

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The comet assay has been widely used as a genotoxicity test for detecting primary DNA damage in individual cells. The micronucleus (MN) test is also a well-established assay for detecting clastogenicity and aneugenicity. A combination of the comet assay (COM) and MN test is capable of detecting a variety of genotoxic potentials as an in vitro screening system. Although the in vitro MN test has a robust protocol and Organisation for Economic Co-operation and Development (OECD) test guideline, the in vitro COM does not. To establish a robust protocol for the COM and to compare its sensitivity with that of the MN, we conducted COM and MN concurrently for five genotoxic agents (ethyl methanesulfonate, methyl methanesulfonate, hydrogen peroxide, gamma-rays and mitomycin C) and one non-genotoxic agent (triton X-100), using human lymphoblastoid TK6 cells. Relative cell count (RCC), relative population doubling (RPD), relative increase in cell count (RICC) and relative cell viability determined by trypan blue dye-exclusion assay (TBDE) were employed as cytotoxic measurements. However, the relative cell viability determined by TBDE just after the treatment was not an appropriate parameter of cytotoxicity for the genotoxic agents because it remained constant even at the highest doses, which showed severe cytotoxicity by RCC, RPD and RICC. The results of the COM showed qualitative agreement (positive or negative) with those of the MN except for mitomycin C, which is an interstrand cross-linker. The COM always required higher doses than the MN to detect the genotoxic potential of the genotoxic agents under the test conditions applied here. The doses that induced a comet tail always yielded <50% RICC, and do not accord to the OECD test guideline for MN because of their high cytotoxicity. These results are helpful for interpreting the results of the COM and MN in in vitro genotoxic hazard assessments. Further investigation is required to standardise the COM.

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Acrylamide genotoxicity in young versus adult gpt delta male rats

et al. 2011

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The recent discovery that the potent carcinogen acrylamide (AA) is present in a variety of fried and baked foods raises health concerns, particularly for children, because AA is relatively high in child-favoured foods such as potato chips and French fries. To compare the susceptibility to AA-induced genotoxicity of young versus adult animals, we treated 3- and 11-week-old male gpt delta transgenic F344 rats with 0, 20, 40 or 80 p.p.m. AA via drinking water for 4 weeks and then examined genotoxicity in the bone marrow, liver and testis. We also analysed the level of N7-(2-carbamoyl-2-hydroxyethyl)-guanine (N7-GA-Gua), the major DNA adduct induced by AA, in the liver, testis and mammary gland. At 40 and 80 p.p.m., both age groups yield similar results in the comet assay in liver; but at 80 p.p.m., the bone marrow micronucleus frequency and the gpt-mutant frequency in testis increased significantly only in the young rats, and N7-GA-Gua adducts in the testis was significantly higher in the young rats. These results imply that young rats are more susceptible than adult rats to AA-induced testicular genotoxicity.

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Suitable top concentration for tests with mammalian cells: Mouse lymphoma assay workgroup

Moore¹,

Honma²,

Clements³

et al. 2011

Mutation Research/Genetic Toxicology and Environmental Mutagene

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Validation of a Simple In Vitro Comet Assay Method Using CHL Cells

Kimura

Torigoe

Miyata

et al. 2010

Genes and Environment

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The comet assay has been widely used as a genotoxicity test in vitro/vivo for detecting initial DNA damage in individual cells. One of the di‹culties of the assay is slide preparation, for which agarose top and bottom layers and a cell-containing middle layer are needed to immobilize the cells. To establish a practical methodology while maintaining sensitivity and reproducibility, we assessed a simple comet assay method with a hydrophilic slide glass (MAScoat type, Matsunami glass Ind., Ltd.) instead of an agarose bottom layer. Ethyl methanesulfonate (EMS), mitomycin C (MMC), and N-nitroso dimethylamine (DMN) as genotoxic chemicals and triton X-100 (TRX) as a nongenotoxic chemical were used for validation of this method. Chinese hamster lung (CHL) cells were used. The results showed that EMS and DMN induced a signiˆcant increase in tail intensity. However, MMC, a known interstrand cross-linker, did not increase tail intensity, and it was considered that this was because MMC-induced DNA-DNA crosslinks prevent separation of the DNA duplex. TRX did not increase tail intensity. These results are consistent with previous reports and demonstrate that the simple comet assay can clearly detect genotoxicity of chemicals other than interstrand cross-linkers.

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Aoi Kimura

A Protein–Protein Interaction Assay Based on the Functional Complementation of Mutant Firefly Luciferases

A combination of in vitro comet assay and micronucleus test using human lymphoblastoid TK6 cells

Acrylamide genotoxicity in young versus adult gpt delta male rats

Suitable top concentration for tests with mammalian cells: Mouse lymphoma assay workgroup

Validation of a Simple In Vitro Comet Assay Method Using CHL Cells

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