Colorimetric paper bioassay by horseradish peroxidase for the detection of catechol and resorcinol in aqueous samples

• Published in: Preparative biochemistry & biotechnology Vol. 50; no. 8; pp. 849 - 856
• Main Authors: Dabhade, Ajinkya, Jayaraman, Sivaraman, Paramasivan, Balasubramanian
• Format: Journal Article
• Language: English
• Published: England Taylor & Francis 01.09.2020; Taylor & Francis Ltd
• Subjects: Aqueous environments; Bioassays; Biosensing Techniques - methods; Biosensors; Catechol; Catechols - analysis; Color; Colorimetry; Colorimetry - methods; Entrapment; enzyme immobilization techniques; Enzymes; Enzymes, Immobilized - chemistry; Filter paper; Horseradish peroxidase; Horseradish Peroxidase - chemistry; Hydrazine; Hydrazines; Image processing; Immobilization; Limit of Detection; Manpower; Oxidation; paper based biosensor; Peroxidase; Phenolic compounds; Phenols; Pollutants; Pollution detection; Polysaccharides; Resorcinol; Resorcinols - analysis; Semiquinones; Spectrophotometry; Water Pollutants, Chemical - analysis; phenolic compounds; resorcinol; Catechol; enzyme immobilization techniques; paper based biosensor; horseradish peroxidase
• ISSN: 1082-6068; 1532-2297
• DOI: 10.1080/10826068.2020.1760883

Phenolic compounds such as catechol and resorcinol are toxic and persistent pollutants in the aqueous environment. Detection procedures such as chromatographic and spectrophotometric methods are time-consuming and require sophisticated instruments with skilled manpower. Development of a simple, cost effective, portable and disposable paper based biosensor could be a better alternative to the conventional methods. The present study attempted to develop a paper based biosensor by immobilizing horseradish peroxidase enzyme to detect catechol and resorcinol in aqueous samples. Horseradish peroxidase catalyzes the oxidation of phenolic compounds to semiquinones, which on reaction with a chromogen, 3-methyl 2-benzothiazolinone hydrazine (MBTH) gives faint pink to red color depending on the compound and its concentration in the sample is the basis for biosensing application. Different methods of enzyme immobilization on filter paper like physical adsorption, covalent coupling, and polysaccharide entrapment were executed. The performance of the various enzyme immobilization methods was evaluated by analyzing the developed color intensity using ImageJ software. Entrapment technique is the most effective method of immobilizing enzyme on the filter paper that produces the highest color intensity with better stability. The visible limit of detection (LoD) was observed as 0.45 mM (50 mg/L) for catechol and 0.09 mM (10 mg/L) for resorcinol in aqueous samples.