Wakako Tsugawa

Overview

Explore the profile of Wakako Tsugawa including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 65

Citations 429

Followers 0

Related Specialties

Biochemistry

Biotechnology

Chemistry

Top 10 Co-Authors

Koji Sode

Kazunori Ikebukuro

Stefano Ferri

Ryutaro Asano

Katsuhiro Kojima

Noya Loew

Tomohiko Yamazaki

Junko Okuda-Shimazaki

Mika Hatada

Kazushige Mori

Published In

Biosens Bioelectron

Int J Mol Sci

Biotechnol Lett

Bioelectrochemistry

J Diabetes Sci Technol

Affiliations

Soon will be listed here.

Recent Articles

11.

Rapid, convenient, and highly sensitive detection of human hemoglobin in serum using a high-affinity bivalent antibody-enzyme complex

Miura D, Kimura H, Tsugawa W, Ikebukuro K, Sode K, Asano R

Talanta . 2021 Aug; 234:122638. PMID: 34364447

Human hemoglobin (Hb) is a biomarker of several diseases, and monitoring of Hb levels is required during emergent surgery. However, rapid and sensitive Hb detection methods are yet to be...

12.

Development of an Interdigitated Electrode-Based Disposable Enzyme Sensor Strip for Glycated Albumin Measurement

Hatada M, Loew N, Okuda-Shimazaki J, Khanwalker M, Tsugawa W, Mulchandani A, et al.

Molecules . 2021 Feb; 26(3). PMID: 33572552

Glycated albumin (GA) is an important glycemic control marker for diabetes mellitus. This study aimed to develop a highly sensitive disposable enzyme sensor strip for GA measurement by using an...

13.

Development of glycated peptide enzyme sensor based flow injection analysis system for haemoglobin A1c monitoring using quasi-direct electron transfer type engineered fructosyl peptide oxidase

Hatada M, Saito S, Yonehara S, Tsugawa W, Asano R, Ikebukuro K, et al.

Biosens Bioelectron . 2021 Jan; 177:112984. PMID: 33477030

Haemoglobin A1c (hemoglobin A1c, HbA1c) is an important long-term glycemic control marker for diabetes. The aim of this study was to develop an enzyme flow injection analysis (FIA) system using...

14.

Strategic design and improvement of the internal electron transfer of heme b domain-fused glucose dehydrogenase for use in direct electron transfer-type glucose sensors

Ito K, Okuda-Shimazaki J, Kojima K, Mori K, Tsugawa W, Asano R, et al.

Biosens Bioelectron . 2021 Jan; 176:112911. PMID: 33421758

A fusion enzyme composed of an Aspergillus flavus-derived flavin adenine dinucleotide glucose dehydrogenase (AfGDH) and an electron transfer domain of Phanerochaete chrysosporium-derived cellobiose dehydrogenase (Pcyb) was previously reported to show...

15.

Rational design of direct electron transfer type l-lactate dehydrogenase for the development of multiplexed biosensor

Hiraka K, Tsugawa W, Asano R, Yokus M, Ikebukuro K, Daniele M, et al.

Biosens Bioelectron . 2021 Jan; 176:112933. PMID: 33395570

The development of wearable multiplexed biosensors has been focused on systems to measure sweat l-lactate and other metabolites, where the employment of the direct electron transfer (DET) principle is expected....

16.

Rapid and homogeneous electrochemical detection by fabricating a high affinity bispecific antibody-enzyme complex using two Catcher/Tag systems

Kimura H, Miura D, Tsugawa W, Ikebukuro K, Sode K, Asano R

Biosens Bioelectron . 2020 Dec; 175:112885. PMID: 33342691

Antibody-enzyme complexes (AECs) with binding ability to specific targets and catalytic activities to gain signals are known to be ideal sensing elements; however, AEC-based universal sensors applicable to point-of-care testing...

17.

Creation of a novel DET type FAD glucose dehydrogenase harboring Escherichia coli derived cytochrome b as an electron transfer domain

Yanase T, Okuda-Shimazaki J, Mori K, Kojima K, Tsugawa W, Sode K

Biochem Biophys Res Commun . 2020 Aug; 530(1):82-86. PMID: 32828319

Fungi-derived flavin adenine dinucleotide (FAD)-dependent glucose dehydrogenases (FADGDHs) are the most popular and advanced enzymes for SMBG sensors because of their high substrate specificity toward glucose and oxygen insensitivity. However,...

18.

Alteration of Electron Acceptor Preferences in the Oxidative Half-Reaction of Flavin-Dependent Oxidases and Dehydrogenases

Hiraka K, Tsugawa W, Sode K

Int J Mol Sci . 2020 May; 21(11). PMID: 32471202

In this review, recent progress in the engineering of the oxidative half-reaction of flavin-dependent oxidases and dehydrogenases is discussed, considering their current and future applications in bioelectrochemical studies, such as...

19.

Employment of 1-Methoxy-5-Ethyl Phenazinium Ethyl Sulfate as a Stable Electron Mediator in Flavin Oxidoreductases-Based Sensors

Fitriana M, Loew N, Witarto A, Ikebukuro K, Sode K, Tsugawa W

Sensors (Basel) . 2020 May; 20(10). PMID: 32429321

In this paper, a novel electron mediator, 1-methoxy-5-ethyl phenazinium ethyl sulfate (mPES), was introduced as a versatile mediator for disposable enzyme sensor strips, employing representative flavin oxidoreductases, lactate oxidase (LOx),...

20.

Engineered Glucose Oxidase Capable of Quasi-Direct Electron Transfer after a Quick-and-Easy Modification with a Mediator

Suzuki N, Lee J, Loew N, Takahashi-Inose Y, Okuda-Shimazaki J, Kojima K, et al.

Int J Mol Sci . 2020 Feb; 21(3). PMID: 32046321

Glucose oxidase (GOx) has been widely utilized for monitoring glycemic levels due to its availability, high activity, and specificity toward glucose. Among the three generations of electrochemical glucose sensor principles,...