Kenta Hagihara scite author profile

Kenta Hagihara

3Publications

24Citation Statements Received

61Citation Statements Given

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Doshisha University

Publications

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Improvement of the Mutation-Discrimination Threshold for Rare Point Mutations by a Separation-Free Ligase Detection Reaction Assay Based on Fluorescence Resonance Energy Transfer

et al. 2016

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We previously developed a separation-free ligase detection reaction assay based on fluorescence resonance energy transfer from a donor quantum dot to an acceptor fluorescent dye. This assay could successfully detect one cancer mutation among 10 wild-type templates. In the current study, the mutation-discrimination threshold was improved by one order of magnitude by replacing the original acceptor dye (Alexa Fluor 647) with another fluorescent dye (Cyanine 5) that was spectrally similar but more fluorescent.

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Microbead-Based Ligase Detection Reaction Assay Using a Molecular Beacon Probe for the Detection of Low-Abundance Point Mutations

et al. 2013

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A microbead-based ligase detection reaction (LDR) assay using a molecular beacon probe was developed for the facile and rapid detection of point mutations present in low copy numbers in a mixed population of wild-type DNA. Biotin-tagged ligation products generated in the LDR were captured on the surface of streptavidin-modified magnetic beads for purification and concentration. The resulting product-tethered microbeads were combined with a molecular beacon probe solution, and the suspension was directly flowed into a capillary. The microbeads were accumulated in a confined space within the capillary using a bar magnet. The packed bead sample was then scanned by a fluorescence scanning imager to detect the presence of any mutations. With the developed methodology, we were able to successfully detect one cancer mutation in a mixture of 400 wild-type templates (t test at 95% confidence level). Furthermore, the post-LDR processing, typically the most laborious and time-consuming step in LDR-based mutation detection assays, could be carried out much more rapidly (approximately 20 min). This was enabled by the simple bead and fluid manipulations involved in the present assay.

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Rapid and Convenient Sample Preparation in a Single Tube Using Magnetic Beads for Fluorescence Detection of Single Nucleotide Variation Based on Oligonucleotide Ligation

Hashimoto

Morimoto

Hagihara

et al. 2012

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We here describe a rapid and convenient sample preparation in a single tube for detecting single nucleotide variation based on oligonucleotide ligation assay (OLA) using a biotinylated primer and a set of four different fluorophore-labeled primers. Only one of the fluorophore-labeled primers that was fully complementary to a DNA template was ligated with the biotin-primer by DNA ligase. We isolated the ligated fragments that carried a biotin at the 3′-end by capture with streptavidin-coated magnetic beads. The distinct fluorescence signature of each ligation product coded the single nucleotide differences.

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Kenta Hagihara

Improvement of the Mutation-Discrimination Threshold for Rare Point Mutations by a Separation-Free Ligase Detection Reaction Assay Based on Fluorescence Resonance Energy Transfer

Microbead-Based Ligase Detection Reaction Assay Using a Molecular Beacon Probe for the Detection of Low-Abundance Point Mutations

Rapid and Convenient Sample Preparation in a Single Tube Using Magnetic Beads for Fluorescence Detection of Single Nucleotide Variation Based on Oligonucleotide Ligation

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