Development of Microscopic Techniques for the Visualization of Plant-Root-Knot Nematode Interaction

Plant-parasitic nematodes are a significant cause of yield losses and food security issues. Specifically, nematodes of the genus Meloidogyne can cause significant production losses in horticultural crops around the world. Understanding the mechanisms of the ever-changing physiology of plant roots by imaging the galls induced by nematodes could provide a great insight into their control. However, infected roots are unsuitable for light microscopy investigation due to the opacity of plant tissues. Thus, samples must be cleared to visualize the interior of whole plants in order to make them transparent using clearing agents. This work aims to identify which clearing protocol and microscopy system is the most appropriate to obtain 3D images of tomato cv. Durinta and eggplant cv. Cristal samples infected with Meloidogyne incognita to visualize and study the root-nematode interaction. To that extent, two clearing solutions (BABB and ECi), combined with three different dehydration solvents (ethanol, methanol and 1-propanol), are tested. In addition, the advantages and disadvantages of alternative imaging techniques to confocal microscopy are analyzed by employing an experimental custom-made setup that combines two microscopic techniques, light sheet fluorescence microscopy and optical projection tomography, on a single instrument.

Automated summary

Plant-parasitic nematodes are a significant threat to crop yield and food security. Imaging techniques that visualize the galls induced by nematodes can provide valuable insights into their control. This study aims to identify the most appropriate clearing protocol and microscopy system for obtaining 3D images of tomato and eggplant samples infected with Meloidogyne incognita, and also compares alternative imaging techniques with confocal microscopy.