Your search keyword '"Masato Yasuura"' showing total 28 results

1. Investigation on the applicability of a long-range reverse-transcription quantitative polymerase chain reaction assay for the rapid detection of active viruses

Author

Masato Yasuura, Yuki Nakaya, Hiroki Ashiba, and Takashi Fukuda

Subjects

Infectivity, Inactivation, Heat-inactivation, Sodium hypochlorite, Ethanol, Microbiology, QR1-502

Abstract

Abstract Background Although conventional polymerase chain reaction (PCR) methods are widely used in diagnosis, the titer of the pathogenic virus is difficult to determine based on the PCR. In our prior report, a long-range reverse-transcription quantitative PCR (LR-RT-qPCR) assay was developed to assess the titer of UV-irradiated influenza A virus (IAV) rapidly. In this research, we focused on whether the LR-RT-qPCR assay could evaluate the titer of IAV inactivated by other methods. Methods IAV was inactivated by: heating at 100 °C for periods ranging from 1 to 15 min, treating with 0.12% sodium hypochlorite for periods ranging from 3 to 30 min, or treating with 70% ethanol for periods ranging from 10 to 30 min. Fifty percent tissue culture infectious dose (TCID50) assay was performed to confirm the efficacy of the inactivation methods, followed by LR-RT-qPCR to investigate the correlation between infectivity and copy number. Results One minute heating, 3 min sodium hypochlorite treatment, or 10 min ethanol treatment was sufficient to deactivate IAV. Changes before and after the inactivations in the copy numbers on LR-RT-qPCR were significantly different among the inactivation methods. Heat-inactivation drastically decreased the copy number to below the cutoff value around 5 copies/μL after 5 min treatment. The inactivation time of heating estimated using LR-RT-qPCR was marginally higher than that determined using TCID50. However, the treatments with sodium hypochlorite or ethanol moderately and minimally affected the copy numbers obtained using LR-RT-qPCR (~ 1 digit or no copy number decrease), respectively. Conclusions In addition to good applicability in UV-irradiation previously reported, the LR-RT-qPCR method is suitable for evaluating the effect of heat-inactivation on IAV infectivity. However, minor modifications may be made and investigated in the future to reduce the time intervals with TCID50. Although this method is not applicable for the ethanol inactivation, rapid evaluation of the effects of chlorination on IAV can be determined by comparing copy numbers before and after treatment using the LR-RT-qPCR method.

Published

2022

2. Simple Binding and Dissociation of a Sialoglycoprotein Using Boronic Acid-Modified Functional Interfaces on Microparticles

Author

Yukichi Horiguchi, Masato Yasuura, Hiroki Ashiba, Zheng Lin Tan, and Takashi Fukuda

Subjects

cancer, sialic acid, boronic acid, magnetic particle, diagnosis, Chemical technology, TP1-1185

Abstract

An overexpression of sialic acid is an indicator of metastatic cancer, and selective detection of sialic acid shows potential for cancer diagnosis. Boronic acid is a promising candidate for this purpose because of its ability to specifically bind to sialic acid under acidic conditions. Notably, the binding strength can be easily modulated by adjusting the pH, which allows for a simple dissociation of the bound sialic acid. In this study, we developed 5-boronopicolinic acid (5-BPA)-modified magnetic particles (BMPs) to selectively capture sialic acid biomolecules. We successfully captured fetuin, a well-known sialoglycoprotein, on BMPs at >104 molecules/particle using an acetate buffer (pH 5.0). Facile dissociation then occurred when the system was changed to a pH 7.6 phosphate buffer. This capture-and-release process could be repeated at least five times. Moreover, this system could enrich fetuin by more than 20 times. In summary, BMPs are functional particles for facile purification and concentration through the selective capture of sialic acid proteins and can improve detection sensitivity compared with conventional methods. This technology shows potential for the detection of sialic acid overexpression by biological particles.

Published

2024

3. Improvement of Sensitivity and Speed of Virus Sensing Technologies Using nm- and μm-Scale Components

Author

Masato Yasuura, Zheng Lin Tan, Yukichi Horiguchi, Hiroki Ashiba, and Takashi Fukuda

Subjects

virus detection, beads-based assay, digital assay, pore-based assay, Chemical technology, TP1-1185

Abstract

Various viral diseases can be widespread and cause severe disruption to global society. Highly sensitive virus detection methods are needed to take effective measures to prevent the spread of viral infection. This required the development of rapid virus detection technology to detect viruses at low concentrations, even in the biological fluid of patients in the early stages of the disease or environmental samples. This review describes an overview of various virus detection technologies and then refers to typical technologies such as beads-based assay, digital assay, and pore-based sensing, which are the three modern approaches to improve the performance of viral sensing in terms of speed and sensitivity.

Published

2023

4. Quick assessment of influenza a virus infectivity with a long-range reverse-transcription quantitative polymerase chain reaction assay

Author

Yuki Nakaya, Takashi Fukuda, Hiroki Ashiba, Masato Yasuura, and Makoto Fujimaki

Subjects

Influenza virus, Ultraviolet rays, Long-range RT-qPCR, Infectivity, Strand break, Water treatment, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background The polymerase chain reaction (PCR) is commonly used to detect viral pathogens because of its high sensitivity and specificity. However, conventional PCR methods cannot determine virus infectivity. Virus infectivity is conventionally examined with methods such as the plaque assay, even though such assays require several days. Long-range reverse-transcription quantitative PCR (RT-qPCR) has previously been suggested for the rapid assessment of RNA virus infectivity where the loss of infectivity is attributable to genomic fragmentation. Methods IAV was irradiated with 253.7 nm ultraviolet (UV) rays to induce genomic strand breaks that were confirmed by a full-length RT-PCR assay. The IAV was then subjected to plaque assay, conventional RT-qPCR and long-range RT-qPCR to examine the relationship between infectious titer and copy number. A simple linear regression analysis was performed to examine the correlation between the results of these assays. Results A long-range RT-qPCR assay was developed and validated for influenza A virus (IAV). Although only a few minutes of UV irradiation was required to completely inactivate IAV, genomic RNA remained detectable by the conventional RT-qPCR and the full-length RT-PCR for NS of viral genome following inactivation. A long-range RT-qPCR assay was then designed using RT-priming at the 3′ termini of each genomic segment and subsequent qPCR of the 5′ regions. UV-mediated IAV inactivation was successfully analyzed by the long-range RT-qPCR assay especially when targeting PA of the viral genome. This was also supported by the regression analysis that the long-range RT-qPCR is highly correlated with plaque assay (Adjusted R 2 = 0.931, P = 0.000066). Conclusions This study suggests that IAV infectivity can be predicted without the infectivity assays. The rapid detection of pathogenic IAV has, therefore, been achieved with this sensing technology.

Published

2020

5. Relationship between the Amount of Bitter Substances Adsorbed onto Lipid/Polymer Membrane and the Electric Response of Taste Sensors

Author

Kiyoshi Toko, Daichi Hara, Yusuke Tahara, Masato Yasuura, and Hidekazu Ikezaki

Subjects

taste sensor, electronic tongue, global selectivity, CPA measurement, adsorption amount, Chemical technology, TP1-1185

Abstract

The bitterness of bitter substances can be measured by the change in the membrane electric potential caused by adsorption (CPA) using a taste sensor (electronic tongue). In this study, we examined the relationship between the CPA value due to an acidic bitter substance and the amount of the bitter substance adsorbed onto lipid/polymer membranes, which contain different lipid contents, used in the taste sensor. We used iso-α-acid which is an acidic bitter substance found in several foods and beverages. The amount of adsorbed iso-α-acid, which was determined by spectroscopy, showed a maximum at the lipid concentration 0.1 wt % of the membrane, and the same phenomenon was observed for the CPA value. At the higher lipid concentration, however, the amount adsorbed decreased and then remained constant, while the CPA value decreased monotonically to zero. This constant adsorption amount was observed when the membrane potential in the reference solution did not change with increasing lipid concentration. The decrease in CPA value in spite of the constant adsorption amount is caused by a decrease in the sensitivity of the membrane as the surface charge density increases. The reason why the peaks appeared in both the CPA value and adsorption amount is based on the contradictory adsorption properties of iso-α-acid. The increasing charged lipid concentration of the membrane causes an increasing electrostatic attractive interaction between iso-α-acid and the membrane, but simultaneously causes a decreasing hydrophobic interaction that results in decreasing adsorption of iso-α-acid, which also has hydrophobic properties, onto the membrane. Estimates of the amount of adsorption suggest that iso-α-acid molecules are adsorbed onto both the surface and interior of the membrane.

Published

2014

6. Development of a Sweetness Sensor for Aspartame, a Positively Charged High-Potency Sweetener

Author

Masato Yasuura, Yusuke Tahara, Hidekazu Ikezaki, and Kiyoshi Toko

Subjects

taste sensor, high-potency sweetener, sweetness sensor, aspartame, lipid/polymer membrane, Chemical technology, TP1-1185

Abstract

Taste evaluation technology has been developed by several methods, such as sensory tests, electronic tongues and a taste sensor based on lipid/polymer membranes. In particular, the taste sensor can individually quantify five basic tastes without multivariate analysis. However, it has proven difficult to develop a sweetness sensor, because sweeteners are classified into three types according to the electric charges in an aqueous solution; that is, no charge, negative charge and positive charge. Using membrane potential measurements, the taste-sensing system needs three types of sensor membrane for each electric charge type of sweetener. Since the commercially available sweetness sensor was only intended for uncharged sweeteners, a sweetness sensor for positively charged high-potency sweeteners such as aspartame was developed in this study. Using a lipid and plasticizers, we fabricated various lipid/polymer membranes for the sweetness sensor to identify the suitable components of the sensor membranes. As a result, one of the developed sensors showed responses of more than 20 mV to 10 mM aspartame and less than 5 mV to any other taste. The responses of the sensor depended on the concentration of aspartame. These results suggested that the developed sweetness sensor had high sensitivity to and high selectivity for aspartame.

Published

2014

7. Power Supply Configuration is Key! Re-Experience a Board Game About Electricity

Author

Sho NAKAMURA, Yujiro TANNO, Shinnosuke ITO, Masashi YAMADA, and Masato YASUURA

Subjects

Electrical and Electronic Engineering

Published

2023

8. Let's Play the Board Game About Electricity

Author

Sho NAKAMURA, Yujiro TANNO, Shinnosuke ITO, Masashi YAMADA, and Masato YASUURA

Subjects

Electrical and Electronic Engineering

Published

2022

9. Hydrogel Capsule-Based Digital Quantitative Polymerase Chain Reaction

Author

Zheng Lin Tan, Masato Yasuura, Yukichi Horiguchi, Hiroki Ashiba, and Takashi Fukuda

Abstract

Droplet digital PCR (ddPCR) is accurate in nucleic acid quantification owing to its linearity and high sensitivity. Amplification of nucleic acid in droplets, however, is limited by the stability of droplets against thermal cycling. While the use of fluorinated oil or supplementation of surfactant could improve the stability of droplets, this process has also greatly increased the cost of ddPCR and limited post-PCR analysis. Here, we report a novel method known as gel capsule-based digital PCR (gc-dPCR) which includes method to prepare hydrogel capsules encapsulating PCR reaction mix, conducting PCR reaction, and readout by either qPCR system or fluorescence microplate reader. We have compared our method to existing methods, i.e., quantitative PCR or vortex ddPCR. Our approach results in higher fluorescence intensity compared to ddPCR suggesting higher sensitivity of the system. As hydrogel capsules are more stable than droplets in fluorinated oil throughout thermal cycling, all partitions can be quantified, thus preventing loss of information from low-concentration samples. Our approach should extend to all droplet-based PCR methods. Generally, our approach has greatly improved ddPCR by increasing droplets stability and sensitivity, and reducing the cost of ddPCR, which help to remove the barrier of ddPCR in settings with limited resources.Abstract Figure

Published

2023

10. Flow Machines

Author

Haruka MAEDA, Masahiro KAMIGAKI, Sho NAKAMURA, Ryuki HIGUCHI, and Masato YASUURA

Subjects

Electrical and Electronic Engineering

Published

2022

11. Quick and ultra-sensitive digital assay of influenza virus using sub-picoliter microwells

Author

Hiroki Ashiba, Masato Yasuura, Takashi Fukuda, Ken Hatano, and Makoto Fujimaki

Subjects

Immunomagnetic Separation, Influenza A virus, Environmental Chemistry, Biological Assay, Orthomyxoviridae, Biochemistry, Spectroscopy, Analytical Chemistry

Abstract

Quick and sensitive virus detection methods have been developed using sub-picoliter microwells. One method uses an aggregation-induced emission (AIE) reagent, and the other uses an enzymatic reaction supported with immunomagnetic beads at a high concentration of 10

Published

2022

12. Quick assessment of influenza a virus infectivity with a long-range reverse-transcription quantitative polymerase chain reaction assay

Author

Hiroki Ashiba, Yuki Nakaya, Masato Yasuura, Makoto Fujimaki, and Takashi Fukuda

Subjects

0301 basic medicine, RNA Stability, 030106 microbiology, Long-range RT-qPCR, Genome, Viral, medicine.disease_cause, Virus, Madin Darby Canine Kidney Cells, lcsh:Infectious and parasitic diseases, law.invention, 03 medical and health sciences, Dogs, 0302 clinical medicine, Orthomyxoviridae Infections, law, Influenza A virus, medicine, Animals, lcsh:RC109-216, Water treatment, Strand break, 030212 general & internal medicine, Polymerase chain reaction, Virus quantification, Infectivity, Virulence, biology, Reverse Transcriptase Polymerase Chain Reaction, RNA virus, biology.organism_classification, Virology, Reverse transcriptase, Infectious Diseases, Real-time polymerase chain reaction, Ultraviolet rays, RNA, Viral, Virus Inactivation, Influenza virus, Research Article

Abstract

BackgroundThe polymerase chain reaction (PCR) is commonly used to detect viral pathogens because of its high sensitivity and specificity. However, conventional PCR methods cannot determine virus infectivity. Virus infectivity is conventionally examined with methods such as the plaque assay, even though such assays require several days. Long-range reverse-transcription quantitative PCR (RT-qPCR) has previously been suggested for the rapid assessment of RNA virus infectivity where the loss of infectivity is attributable to genomic fragmentation.MethodsIAV was irradiated with 253.7 nm ultraviolet (UV) rays to induce genomic strand breaks that were confirmed by a full-length RT-PCR assay. The IAV was then subjected to plaque assay, conventional RT-qPCR and long-range RT-qPCR to examine the relationship between infectious titer and copy number. A simple linear regression analysis was performed to examine the correlation between the results of these assays.ResultsA long-range RT-qPCR assay was developed and validated for influenza A virus (IAV). Although only a few minutes of UV irradiation was required to completely inactivate IAV, genomic RNA remained detectable by the conventional RT-qPCR and the full-length RT-PCR for NS of viral genome following inactivation. A long-range RT-qPCR assay was then designed using RT-priming at the 3′ termini of each genomic segment and subsequent qPCR of the 5′ regions. UV-mediated IAV inactivation was successfully analyzed by the long-range RT-qPCR assay especially when targeting PA of the viral genome. This was also supported by the regression analysis that the long-range RT-qPCR is highly correlated with plaque assay (AdjustedR2 = 0.931,P = 0.000066).ConclusionsThis study suggests that IAV infectivity can be predicted without the infectivity assays. The rapid detection of pathogenic IAV has, therefore, been achieved with this sensing technology.

Published

2020

13. Waveguide-mode Sensor Chip with Si/SiO2/SiOx Structure

Author

Masato Yasuura, Makoto Fujimaki, Hiroki Ashiba, Yuki Nakaya, and Koji Ueno

Subjects

Materials science, business.industry, Structure (category theory), Optoelectronics, General Materials Science, Waveguide mode, business, Chip, Instrumentation

Published

2020

14. Review of Development of Sweetness Sensor

Author

Masato Yasuura and Kiyoshi Toko

Subjects

World Wide Web, Thesaurus (information retrieval), Engineering, business.industry, Mechanical Engineering, Electrical and Electronic Engineering, Sweetness, business

Published

2015

15. Development of sweetness sensor with selectivity to negatively charged high-potency sweeteners

Author

Yusuke Tahara, Hirotaka Okazaki, Masato Yasuura, Hidekazu Ikezaki, and Kiyoshi Toko

Subjects

Taste, Chromatography, Electronic tongue, Sodium, digestive, oral, and skin physiology, Potentiometric titration, Metals and Alloys, Acesulfame potassium, food and beverages, chemistry.chemical_element, Umami, Sweetness, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, chemistry.chemical_compound, Membrane, chemistry, Materials Chemistry, Food science, Electrical and Electronic Engineering, Instrumentation

Abstract

Objective taste evaluation has been much in demand in the food, beverage and pharmaceutical industries. A taste-sensing system, which is an electronic tongue with “global selectivity,” is one of the methods used for objective taste evaluation. A taste sensor electrode responds to only one of the basic tastes (saltiness, sourness, sweetness, bitterness and umami) as a change in membrane potential caused by interactions with tastants. Sweet substances are compounds with diverse chemical structures and sizes. Since the taste-sensing system is a potentiometric measurement system using a change in membrane potential, three types of sweetness sensors are required, one for sweeteners with each type of electric charge (uncharged, positively charged and negatively charged). A sweetness sensor for uncharged sweeteners has been developed. Therefore, negatively charged sweeteners, such as saccharine sodium and acesulfame potassium, were chosen as the target substances in this study. We investigated the responses of various sensor membranes using a lipid and nine kinds of plasticizers to each basic taste sample. Furthermore, not only the selectivity of the membranes but also the concentration dependence of their response to sweeteners was investigated. As a result, one of the developed sensors showed responses of over 20 mV to 5 mM saccharine sodium and 10 mM acesulfame potassium in CPA value measurement (CPA: change in membrane potential caused by adsorption). On the other hand, the sensor also showed nearly zero responses to other basic taste samples. In addition, saltiness was the only interfering taste, and the responses to target substances in relative value measurement were over 140 mV. The developed sweetness sensor had high selectivity and concentration-dependent responses. Hence, we concluded that the sensor is suitable for use as a sweetness sensor for high-potency sweeteners with a negative electric charge.

Published

2014

16. Examination of Amount of Astringent Substances Adsorbed Onto Lipid/Polymer Membrane Used in Taste Sensor

Author

Daichi Hara, Yusuke Tahara, Takuro Fukagawa, Kiyoshi Toko, and Masato Yasuura

Subjects

chemistry.chemical_classification, Taste, Membrane, Adsorption, Astringent, chemistry, Organic chemistry, Polymer, Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics

Published

2014

17. Development of a Sweetness Sensor for Aspartame, a Positively Charged High-Potency Sweetener

Author

Yusuke Tahara, Masato Yasuura, Hidekazu Ikezaki, and Kiyoshi Toko

Subjects

Taste, High selectivity, Synthetic membrane, Biosensing Techniques, sweetness sensor, lcsh:Chemical technology, Biochemistry, Article, aspartame, Analytical Chemistry, Membrane Potentials, taste sensor, high-potency sweetener, lipid/polymer membrane, chemistry.chemical_compound, Sensory tests, Plasticizers, Negative charge, lcsh:TP1-1185, Food science, Electrical and Electronic Engineering, Instrumentation, Electrodes, Chromatography, Aspartame, Chemistry, digestive, oral, and skin physiology, food and beverages, Esters, Sweetness, Lipids, Atomic and Molecular Physics, and Optics, Membrane, Sweetening Agents, Adsorption

Abstract

Taste evaluation technology has been developed by several methods, such as sensory tests, electronic tongues and a taste sensor based on lipid/polymer membranes. In particular, the taste sensor can individually quantify five basic tastes without multivariate analysis. However, it has proven difficult to develop a sweetness sensor, because sweeteners are classified into three types according to the electric charges in an aqueous solution; that is, no charge, negative charge and positive charge. Using membrane potential measurements, the taste-sensing system needs three types of sensor membrane for each electric charge type of sweetener. Since the commercially available sweetness sensor was only intended for uncharged sweeteners, a sweetness sensor for positively charged high-potency sweeteners such as aspartame was developed in this study. Using a lipid and plasticizers, we fabricated various lipid/polymer membranes for the sweetness sensor to identify the suitable components of the sensor membranes. As a result, one of the developed sensors showed responses of more than 20 mV to 10 mM aspartame and less than 5 mV to any other taste. The responses of the sensor depended on the concentration of aspartame. These results suggested that the developed sweetness sensor had high sensitivity to and high selectivity for aspartame.

Published

2014

18. Development of Taste Sensor as a Teaching Material Comprehending Science Subjects in High School

Author

Yusuke Tahara, Masato Yasuura, Kiyoshi Toko, Kazushi Kuwamoto, Hisao Kuriyaki, and Hitoshi Arase

Subjects

Engineering, business.industry, Taste (sociology), media_common.quotation_subject, Mathematics education, Electrical and Electronic Engineering, business, media_common

Published

2014

19. Detection of norovirus-like particles with an external force-assisted near-field illumination biosensor

Author

Kyoko Higo-Moriguchi, Haruko Shirato, Makoto Fujimaki, and Masato Yasuura

Subjects

Thesaurus (information retrieval), Physics and Astronomy (miscellaneous), Chemistry, General Engineering, Norovirus, medicine, General Physics and Astronomy, Near and far field, Nanotechnology, medicine.disease_cause, Biosensor

Published

2019

20. Comparison of Influenza Virus Detection Methods

Author

Hiroki Ashiba, Makoto Fujimaki, Yusuke Takahara, Masato Yasuura, Penmetcha K. R. Kumar, and Yuki Nakaya

Subjects

Chemistry, General Materials Science, Instrumentation, Virology, Virus detection

Published

2019

21. Waveguide-mode Illumination for Enhanced Fluorescent Microscopy

Author

Masato Yasuura and Makoto Fujimaki

Subjects

Materials science, business.industry, Fluorescence microscope, Optoelectronics, General Materials Science, Waveguide mode, business, Instrumentation

Published

2019

22. Waveguide-mode Sensor Chip with Si/SiO2/SiOx Structure.

Author

Masato Yasuura, Koji Ueno, Hiroki Ashiba, Yuki Nakaya, and Makoto Fujimaki

Subjects

REFRACTIVE index, SPUTTER deposition, DETECTORS, BOROSILICATES, WAVEGUIDES, TRANSFER matrix

Abstract

A waveguide-mode sensor detects changes in the complex refractive index on the surface of a planar waveguide chip with high sensitivity. We developed a waveguide-mode sensor chip with the Si/SiO2 structure. It was predicted from simulations that a third layer of high refractive index added to the outermost surface of the planar waveguide may improve the sensitivity of the waveguide-mode sensor. In this research, we designed and manufactured a borosilicate glass substrate chip with a Si/SiO2/SiOx structure via sputtering deposition, and we improved the sensitivity of the waveguide-mode sensor chip. The Si/SiO2/SiOx structure chip was approximately 1.5 times more sensitive to refractive index changes than the Si/SiO2 structure chip. [ABSTRACT FROM AUTHOR]

Published

2020

23. Quantification of tastes of amino acids using taste sensors

Author

Yoshikazu Kobayashi, Yusuke Tahara, Masato Yasuura, Kiyoshi Toko, Hiroki Akitomi, and Hidekazu Ikezaki

Subjects

chemistry.chemical_classification, Taste, Arginine, Metals and Alloys, food and beverages, Sweetness, Condensed Matter Physics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Amino acid, Simple linear regression analysis, stomatognathic system, chemistry, Materials Chemistry, Food science, Electrical and Electronic Engineering, Instrumentation, psychological phenomena and processes

Abstract

In this study, we quantified the tastes of branched-chain amino acids (BCAAs) and demonstrated the bitterness suppression effect using taste sensors that can selectively evaluate two basic taste qualities. Bitterness and sweetness sensors with a lipid/polymer membrane were used to quantity bitterness and sweetness of amino acids, respectively. Simple linear regression analysis revealed that the response values obtained from the corresponding taste sensor (bitterness, sweetness) and the scores obtained in the sensory test showed a strong correlation, demonstrating that the intensity of bitterness and sweetness of amino acids can be estimated. Moreover, a significant decrease in the response value of the bitterness sensor was observed when l -arginine ( l -Arg) was added to bitter amino acids, indicating that the bitterness suppression effect perceivable by humans can be demonstrated.

Published

2013

24. Detection of Extremely Low Concentrations of Biological Substances Using Near-Field Illumination

Author

Masato Yasuura and Makoto Fujimaki

Subjects

0301 basic medicine, Multidisciplinary, Materials science, Biological substances, Trace Amounts, business.industry, 030106 microbiology, Mixing (process engineering), Near and far field, Signal, Article, Magnetic field, 03 medical and health sciences, 030104 developmental biology, Reagent, Optoelectronics, business, Biosensor

Abstract

An external force-assisted near-field illumination biosensor (EFA-NI biosensor) detects a target substance that is propelled through an evanescent field by an external force. The target substance is sandwiched between an antibody coupled to a magnetic bead and an antibody coupled to a polystyrene bead. The external force is supplied by a magnetic field. The magnetic bead propels the target substance and the polystyrene bead emits an optical signal. The detection protocol includes only two steps; mixing the sample solution with a detection reagent containing the antibody-coated beads and injecting the sample mixture into a liquid cell. Because the system detects the motion of the beads, the sensor allows detection of trace amounts of target substances without a washing step. The detection capability of the sensor was demonstrated by the detection of norovirus virus-like particles at a concentration of ~40 particles per 100 μl in contaminated water.

Published

2016

25. Comparison of Influenza Virus Detection Methods.

Author

Yusuke Takahara, Yuki Nakaya, Masato Yasuura, Hiroki Ashiba, Kumar, Penmetcha K. R., and Makoto Fujimaki

Subjects

INFLUENZA viruses, VIRUS diseases, IMMUNOLOGY, VIROLOGY, POLYMERASE chain reaction

Abstract

In this study, we provide a cross-sectional comparison of existing influenza virus detection methods in terms of their sensitivity, sample volume required, and process time needed for an assay. Virological techniques, immunological techniques, and real-time polymerase chain reaction were examined. An identical lot of influenza virus stock was used for the experiments. The result gives an index for the evaluation of the performance abilities of virus detection systems. [ABSTRACT FROM AUTHOR]

Published

2019

26. Relationship between the Amount of Bitter Substances Adsorbed onto Lipid/Polymer Membrane and the Electric Response of Taste Sensors

Author

Yusuke Tahara, Daichi Hara, Masato Yasuura, Hidekazu Ikezaki, and Kiyoshi Toko

Subjects

Conductometry, Inorganic chemistry, Lipid Bilayers, Transducers, Synthetic membrane, electronic tongue, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, Membrane Potentials, global selectivity, Hydrophobic effect, Adsorption, Biomimetics, Humans, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, adsorption amount, Membrane potential, chemistry.chemical_classification, Chemistry, Charge density, Polymer, Equipment Design, taste sensor, CPA measurement, Atomic and Molecular Physics, and Optics, Equipment Failure Analysis, Membrane, Taste, Electric potential, Acids

Abstract

The bitterness of bitter substances can be measured by the change in the membrane electric potential caused by adsorption (CPA) using a taste sensor (electronic tongue). In this study, we examined the relationship between the CPA value due to an acidic bitter substance and the amount of the bitter substance adsorbed onto lipid/polymer membranes, which contain different lipid contents, used in the taste sensor. We used iso-α-acid which is an acidic bitter substance found in several foods and beverages. The amount of adsorbed iso-α-acid, which was determined by spectroscopy, showed a maximum at the lipid concentration 0.1 wt % of the membrane, and the same phenomenon was observed for the CPA value. At the higher lipid concentration, however, the amount adsorbed decreased and then remained constant, while the CPA value decreased monotonically to zero. This constant adsorption amount was observed when the membrane potential in the reference solution did not change with increasing lipid concentration. The decrease in CPA value in spite of the constant adsorption amount is caused by a decrease in the sensitivity of the membrane as the surface charge density increases. The reason why the peaks appeared in both the CPA value and adsorption amount is based on the contradictory adsorption properties of iso-α-acid. The increasing charged lipid concentration of the membrane causes an increasing electrostatic attractive interaction between iso-α-acid and the membrane, but simultaneously causes a decreasing hydrophobic interaction that results in decreasing adsorption of iso-α-acid, which also has hydrophobic properties, onto the membrane. Estimates of the amount of adsorption suggest that iso-α-acid molecules are adsorbed onto both the surface and interior of the membrane.

Published

2014

27. Detection of norovirus-like particles with an external force-assisted near-field illumination biosensor.

Author

Masato Yasuura, Haruko Shirato, Kyoko Higo-Moriguchi, and Makoto Fujimaki

Abstract

Optical near-field enhancement at a surface where a total internal reflection occurs is an effective phenomenon that can enhance optical signals from markers conjugated with biological materials on the surface. The enhanced signal can be an effective tool to detect trace amounts of a biological substance. An external force-assisted near-field illumination biosensor is based on a sandwich assay that uses magnetic particles instead of a sensor surface to capture the targets. This sensing method detects light signals from targets sandwiched between magnetic particles and optical markers. The signal of the sandwiched target can be easily distinguished from optical noise by observing the movement of the signal induced by an external magnetic field. In this study, we improved the detection ability by using 60 nm Ø gold nanoparticles as markers. Norovirus virus-like particles were added to a buffer or a contaminated water sample and successfully detected using this system. [ABSTRACT FROM AUTHOR]

Published

2019

28. Modelling of displacement method in surface plasmon resonance sensing

Author

Masato Yasuura, Toko, K., and Onodera, T.