Abstract
Black Sigatoka is a disease that occurs in banana plantations worldwide. This disease is caused by the hemibiotrophic fungus Pseudocercospora fijiensis, whose infection results in a significant reduction in both product quality and yield. Therefore, detection and identification in the early stages of this pathogen in plants could help minimize losses, as well as prevent the spread of the disease to neighboring cultures. To achieve this, a highly sensitive SPR immunosensor was developed to detect P. fijiensis in real samples of leaf extracts in early stages of the disease. A polyclonal antibody (anti-HF1), produced against HF1 (cell wall protein of P. fijiensis) was covalently immobilized on a gold-coated chip via a mixed self-assembled monolayer (SAM) of alkanethiols using the EDC/NHS method. The analytical parameters of the biosensor were established, obtaining a limit of detection of 11.7 µg mL−1, a sensitivity of 0.0021 units of reflectance per ng mL−1 and a linear response range for the antigen from 39.1 to 122 µg mL−1. No matrix effects were observed during the measurements of real leaf banana extracts by the immunosensor. To the best of our knowledge, this is the first research into the development of an SPR biosensor for the detection of P. fijiensis, which demonstrates its potential as an alternative analytical tool for in-field monitoring of black Sigatoka disease.
Highlights
The potential loss in food production is an important issue for the international community since it significantly affects the welfare of a continually increasing global population
An SPR-based immunoassay employing polyclonal antibodies was proposed for the label-free detection of HF1, a protein from P. fijiensis, the causative pathogen of black Sigatoka disease
In our work we solely evaluated the formation of the self-assembled monolayer (SAM) with terminal COOH through an indirect methodology published by [19,22], where the efficiency in the process of immobilization is measured in real time at fixed angle)
Summary
The potential loss in food production is an important issue for the international community since it significantly affects the welfare of a continually increasing global population. In this sense, it is Sensors 2019, 19, 465; doi:10.3390/s19030465 www.mdpi.com/journal/sensors. Plant diseases caused by pathogens play a significant role in production losses worldwide [1]. One of the notorious plant pathologies caused by fungi is called black Sigatoka (BS) or leaf streak disease. This is the primary disease that impacts the cultivation of bananas worldwide
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