NOVEL BIOSENSOR BASED ON Lactobacillus acidophilus FOR DETERMINATION OF PHENOLIC COMPOUNDS IN MILK PRODUCTS AND WASTEWATER

NOVEL BIOSENSOR BASED ON Lactobacillus acidophilus FOR DETERMINATION OF PHENOLIC COMPOUNDS IN MILK PRODUCTS AND WASTEWATER

Different branches of industry need to use phenolic compounds (PCs) in their production, so determination of PCs sensitively, accurately, rapidly, and economically is very important. For the sensitive determination of PCs, some biosensors based on pure polyphenol oxidase, plant tissu,e and microorga...

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Published in:Preparative biochemistry & biotechnology Vol. 41; no. 4; pp. 321 - 336
Main Authors: Sagiroglu, Ayten, Paluzar, Hatice, Ozcan, Hakki Mevlut, Okten, Suzan, Sen, Burhan
Format: Journal Article
Language:English
Published: England Taylor & Francis Group 01-10-2011
Taylor & Francis Ltd
Subjects:
Animals
Biosensing Techniques - methods
biosensor
Biosensors
Catechols - analysis
Electrodes
Enzymes
Lactobacillius acidophilus
Lactobacillus acidophilus
Lactobacillus acidophilus - enzymology
Limit of Detection
Milk
Milk - chemistry
Organic chemistry
oxygen electrode
phenolic compound
Phenols - analysis
Probiotics
Streptococcus thermophilus
Waste Disposal, Fluid
Water - analysis
Water Pollutants, Chemical - analysis
Water treatment
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Summary:Different branches of industry need to use phenolic compounds (PCs) in their production, so determination of PCs sensitively, accurately, rapidly, and economically is very important. For the sensitive determination of PCs, some biosensors based on pure polyphenol oxidase, plant tissu,e and microorganisms were developed before. But there has been no study to develop a microbial phenolic compounds biosensor based on Lactobacillus species, which contain polyphenol oxidase enzyme. In this study, we used different forms of Lactobacillus species as enzyme sources of biosensor and compared biosensor performances of these forms for determination of PCs. For this purpose, we used lyophilized Lactobacillus cells (containing L. bulgaricus, L. acidophilus, Streptococcus thermophilus), pure L. acidophilus, pure L. bulgaricus, and L. acidophilus- and L. bulgaricus adapted to catechol in Lactobacilli MRS Broth. The most suitable form was determined and optimization studies of the biosensor were carried out by using this form. For preparing the bioactive layer of the biosensor, the Lactobacillus cells were immobilized in gelatin by using glutaraldehyde. In the study, we used catechol as a substrate. Phenolic compound determination is based on the assay of the differences on the respiration activity of the cells on the oxygen meter in the absence and the presence of catechol. The microbial biosensor response depends directly on catechol concentration between 0.5 and 5.0 mM with 18 min response time. In the optimization studies of the microbial biosensor the most suitable microorganism amount was found to be 10 mg, and also phosphate buffer (pH 8.0; 50 mM) and 37.5°C were obtained as the optimum working conditions. In the characterization studies of the microbial biosensor some parameters such as substrate specificity on the biosensor response and operational and storage stability were examine. Furthermore, the determination of PC levels in synthetic wastewater, industrial wastewater, and milk products was investigated by using the developed biosensor under optimum conditions.
Bibliography:http://dx.doi.org/10.1080/10826068.2010.540607
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ISSN:1532-2297
1082-6068
1532-2297
DOI:10.1080/10826068.2010.540607