Radiation facilitated-immobilized lipase (RaFIL) mini biocatalytic reactor based on epoxy decorated PP tubes: Rapid colorimetric estimation of pesticide Chlorpyrifos

Abstract

Polypropylene (PP) based ultracentrifuge tubes (PPt) have been internally surface functionalized with epoxy groups via 60Co gamma radiation mediated simultaneous grafting of monomer 2,3-Epoxypropyl methacrylate (PEPMA-g-PPt). Radiation dose, monomer concentration and solvent polarity are optimized to achieve grafting yield of ∼62.0 g.m−2. Enzyme Lipase from Candida rugosa has been immobilized inside the tubes via a simple, room temperature covalent coupling reaction (immobilization yield ∼73.3%). Immobilized and free lipase have been assayed spectrophotometrically by monitoring the hydrolysis of substrate 4-Nitrophenyl palmitate (PNPP) to Paranitrophenol (PNP) (λmax = 400 nm). The Radiation facilitated-immobilized Lipase system (RaFIL) demonstrates an operational temperature range enhancement from 50 °C (free lipase) to 70 °C, and a broader pH tolerance window with optimum pH increasing from 7.4 (free lipase) to 8.0, and ∼20% more activity as compared to the free enzyme at pH 10.0. The system retains its activity for >10 cycles over 30 days, with attrition losses of <15% after seven cycles. RaFIL has been successfully demonstrated to detect pesticide Chlorpyrifos within a linear range of 0–500 µg.ml−1 with LOD of 60.4 µg.ml−1 (R2=0.975). The system has potential applications as a facile, low cost biocatalytic technique for rapid, onsite detection of harmful pesticides in affected areas.