• Food Science and Biotechnology
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• 제14권6호
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• pp.743-746
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• 2005

A dipstick-type immunochemical biosensor for the detection of the organophosphorus insecticide fenthion was developed using a screen-printed electrode system as an amperometric transducer with polyclonal antibodies against fenthion as a bioreceptor. The assay of the biosensor involved competition between the pesticide in the sample and pesticide-glucose oxidase conjugate for binding to the antibody immobilized on the membrane. This was followed by measurement of the activity of the bound enzyme by the supply of the enzyme substrate (glucose) and amperometric determination of the enzyme reaction product ($H_2O_2$). The activity of the bound enzyme was inversely proportional to the concentration of pesticide. The optimized sensor system showed a linear response against the logarithm of the pesticide concentration ranging from $10^{-2}$ to $10^3\;{\mu}g/L$.

• 센서학회지
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• 제4권4호
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• pp.23-28
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• 1995

백금작업전극과 광가교화된 효소고정화막을 가진 ISFET 포도당 및 자당센서가 제조되었다. 효소반응의 부산물인 과산화수소수($H_{2}O_{2}$)는 백금전극표면에서 분해되어 센서의 감지특성을 개선시키고, 광가교화 고분자(PVA-SbQ)가 효소고정화막으로 이용되어 센서의 응답시간을 단축하였다. 그리고 백금전극의 면적변화에 따라 센서의 응답크기는 증가하였다. 센서의 응답시간은 $3{\sim}5$분이었으며, $30{\sim}300mg/dl$의 포도당 및 자당농도에서 센서의 선형적인 응답을 보였다.

• Korean Chemical Engineering Research
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• 제54권3호
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• pp.380-386
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• 2016

본 연구에서는 인플루엔자 바이러스 표면에 존재하는 neuraminidase 효소의 활성을 평가 할 수있는 종이칩 기반의 분석 시스템을 구축하였다. 종이칩의 장점을 살려 분석 전문가와 장비 없이 현장 진단(Point-of-care)이 가능하도록 X-Neu5Ac 기질을 이용한 비색분석법을 통해 시료 내 neuraminidase 효소의 존재를 정량적으로 확인 할 수 있도록 설계 및 제작하였다. Neuraminidase 효소의 활성을 확인할 수 있는 종이칩 센서(Paper-based neuraminidase assay sensor; PNAS) 성능 실험 결과 neuraminidase를 0.004 U/mL 농도부터 검출 가능하였으며, 인간 혈청에 각기 다른 농도로 존재하는 neuraminidase 효소의 양을 활성 평가를 통해 정량적으로 검출할 수 있음을 입증하였다($R^2$ > 0.99). 또한, 보관기간에 따른 종이칩의 안정성 평가 결과 빛이 차단 된 $4^{\circ}C$ 환경에서 보관 시 70일까지 초기 성능이 안정하게 유지됨을 확인하였다. 마지막으로, PNAS 상에서 효소 반응의 신뢰성 평가를 위해 미카엘리스-멘텐 동역학 (Michaelis-Menten kinetics)을 적용하여 X-Neu5Ac 기질에 대한 neuraminidase의 동역학 분석 결과 $K_m$ 값은 $8.327{\times}10^{-3}M$으로 확인되었으며, 이 값은 용액상에서의 효소 반응 속도 계산으로부터 산출된 값과($K_m=8.327{\times}10^{-3}M$) 근사한 수치임을 확인하였다. 본 연구로부터 개발된 종이칩 기반의 neuraminidase 효소 활성 평가 시스템은 인플루엔자 바이러스의 신속하고 안전한 검출에 다양하게 응용 될 수 있을 것으로 생각된다.

• 센서학회지
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• 제8권3호
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• pp.247-252
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• 1999

바이오센서로 이용되는 산소센서에는 효소고정화막과 함께 반투성막이 필요한데, 이러한 두 층의 막은 취급이 쉽지 않아서 상업화하기가 불리하므로, 이 두 막을 하나의 적층막으로 제조하였다. cellulose triacetate/polycarprolactone(CTA/PCL)막에 1,1'-carbonyl diimidazole(CDI) 방법으로 glucose oxidase, ascorbate oxidase, pyrubate oxidase와 alcohole oxidase 등의 효소를 고정화시킨 다음, 그 위에 polyvinylalcohol을 알데하이드와 산과 혼합하여 적층방법으로 단일막을 제조하였다. 고정화된 이 적층막을 산소전극에 부착하여 glucose, ascorbate, pyrubate, ethanol의 농도에 따른 전류변화를 측정한 결과, 각각 5-10mmol 이내의 기질농도에서 $0.38{\sim}0.83{\mu}A$까지 r=0.995의 선형성을 나타내었다. 한편, 고정화된 적층막의 저장중 안정성은 glucose oxidase는 8주 후에도 56% 이상의 활성을 나타내고 있었으나 나머지 효소들은 효소의 안정성이 낮았다.

• Journal of Microbiology and Biotechnology
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• 제16권10호
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• pp.1523-1528
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• 2006

The optimization of a batch-type quartz crystal microbalance (QCM)-precipitation sensor measuring acetylcholinesterase (AChE) activity was conducted. To covalently bind AChE onto the gold electrode of a QCM surface, glutaraldehyde cross-linking to a cystamine self-assembled monolayer was tried at different cystamine concentrations. At the optimum conditions of the QCM-precipitation sensor, 0.1 M potassium phosphate buffer (pH 8.0), containing 0.01% Tween 80, was used as the reaction buffer, with the enzyme amount of 5 units for immobilization and the substrate concentration of 50 mg/ml. The current biosensor might find a future applicability to the sum parameter detection on organophosphorus and carbamate pesticides.

• Journal of Biosystems Engineering
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• 제30권4호
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• pp.249-253
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• 2005

This study was carried out to develop enzyme biosensor for lactic acid bacteria. Lactic acids produced by lactic acid bacteria (LAB) was measured and good correlation $R^2=0.98$ between LAB count and lactic acids concentration was found. Hydrogen ion produced by L-lactate dehydrogenase (L-LDH) was measured by a potentiometer. Glutamic-pyruvic transminase (GPT) was used for eliminating inhibitor in the reaction. Polyacrylamide gel was used for immobilizing matrix of the sensor. The biosensor was tested and showed good feasibility with $R^2=0.99$ on validation.

• 대한전자공학회:학술대회논문집
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• 대한전자공학회 2005년도 추계종합학술대회
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• pp.755-758
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• 2005

This paper describes the novel immunoassay sensing system for a portable clinical diagnosis system. It consists of a bead cage reactor and a CMOS integrated biosensor. It showed the simple and easy antibody coating method on beads by flow-through avidin biotin complex technology in a microfluidic device. It showed just 90 nL sample consumption and good result for the application of alpha feto protein. The bead cage reactor has the role of the antibody coating, antigen binding and enzyme linking for the electrochemical sensing method. The CMOS biosensor consists of ISFET (ion selective field effect transistor) biosensor and temperature sensor for detecting pH that is the byproduct of enzyme reaction. The sensitivity is 8 $kHz/^{\circ}C$ in a temperature sensor and 33 mV/pH in a pH sensor. After filling the 15 um polystyrene beads in bead cage, antibody flowed and reacted to beads. Subsequently, the biotinylated antigen flowed and bound to the antibody and GOD (glucose oxidase)-avidin conjugate flowed and reacted to the biotin of the biotinylated antigen. After this reaction process, glucose solution flowed and reacted to the GOD on beads. The hydrogen was generated by glucose-GOD reaction. And it was detected by the pH sensor.

• Bulletin of the Korean Chemical Society
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• 제25권8호
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• pp.1195-1201
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• 2004

Tyrosinase was covalently immobilized on platinum electrode according to the method we developed for laccase (Bull. Korean Chem. Soc. 2002, 23(7), 385) and p-chlorophenol, p-cresol, and phenol could be detected with sensitivities of 334, 139 and 122 nA/ ${\mu}M$ and the detection limits of 1.0, 2.0, and 2.5 ${\mu}M$, respectively. The response time ($t_{90\%}$) is 3 seconds for p-chlorophenol, and 5 seconds for p-cresol and phenol. The optimal pHs of the sensor are in the range of 5.0- 6.0. This sensor can tolerate at least 500 times repeated injections of p-chlorophenol with retaining 80% of initial activity. In case of tyrosinase and laccase co immobilized platinum electrode, the sensitivities are 560 nA/ ${\mu}M$ for p-phenylenediamine (PPD) and 195 nA/ ${\mu}M$ for p-chlorophenol, respectively. The sensitivity of the bi-enzyme sensor for PPD increases 70% compared to that of only laccase immobilized one, but the sensitivity for p-chlorophenol decreases 40% compared to that of only tyrosinase immobilized one. The sensitivity increase for the bi-enzyme sensor for PPD can be ascribed to the additional catalytic function of the co-immobilized tyrosinase. The sensitivity decrease for p-chlorophenol can be explained by the “blocking effect” of the co-immobilized laccase, which hinders the mass transport through the immobilized layer. If PPD was detected with the electrode that had been used for p-chlorophenol, the sensitivity decreased 20% compared to that of the electrode that had been used only for PPD. Similarly, if p-chlorophenol was detected with PPD detected electrode, the sensitivity also decreased 20%. The substrate-induced conformation changes of the enzymes in a confined layer may be responsible for the phenomena.

• Journal of Electrochemical Science and Technology
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• 제11권3호
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• pp.310-317
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• 2020

A development of disposable strip-type galactose sensor for point-of-care testing (POCT) was studied, which was constructed using screen-printed carbon electrodes. Galactose levels were determined by the redox reaction of galactose oxidase in the presence of potassium ferricyanide as an electron transfer mediator in a small sample volume (i.e., less than 1 µL). The optimal performance of biosensor was systematically designated by varying applied potential, operating pH, mediator concentration, and amount of enzyme on the electrode. The sensor system was identified as a highly active for the galactose measurement in terms of the sensitivity (slope = 4.76 ± 0.05 nA/µM) with high sensor-to-sensor reproducibility, the linearity (R² = 0.9915 in galactose concentration range from 0 to 400 µM), and response time (t_95% = <17 s). A lower applied potential (i.e., 0.25 V vs. Ag/AgCl) allowed to minimize interference from readily oxidizable metabolites such as ascorbic acid, acetaminophen, uric acid, and acetoacetic acid. The proposed galactose sensor represents a promising system with advantage for use in POCT.

• 공업화학
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• 제28권3호
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• pp.369-374
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• 2017

바이오센서를 상업적으로 양산하고자 할 때 제작비의 경제성이 고려되어야 한다. 과산화수소를 정량하기 위한 효소전극 제작 시 필수적으로 사용되는, 서양고추냉이로부터 추출된 과산화효소는 대단히 고가이므로 탄소반죽법에 의한 전극제작의 제한 요인이 된다. 이 문제를 우회하고자 본 실험실에서는 생활주변에서 쉽게 얻을 수 있는 재료로 대체하기 위하여 아카시아 잎을 효소원으로 사용하여 과산화수소 센서를 제작하고 그것의 전기화학적 특성을 살펴보았다. 일정전압전류법으로 얻어진 10개 이상의 전기화학적 파라미터와 실험적 결과들은 효소전극이 정량적으로 그 기능을 발휘하고 있음을 보여주었다. 이런 사실들은 시판 과산화효소가 아카시아 잎으로 대체될 수 있음을 보여주는 것이다.