Effective approaches to study the plant-root knot nematode interaction.

TL;DR: In this article, a review on the use and potential of current methods such as biologicals, botanicals, non-host crops, and related rotations, as well as modern techniques against PPNs in sustainable agroecosystems is presented.

TL;DR: A brief review of the biology of the genus Meloidogyne, biological control strategies, and a comparison between chemical and bioproducts in the Mexican market are provided, and guidelines emitted by national agencies to ensure safety and effectiveness of new developments are provided.

TL;DR: According to the multi-functional activity, the COS derivatives exhibit a good control effect on plant root-knot nematode disease in vivo and show low cytotoxicity and phytotoxicity.

TL;DR: The dire need to further upgrade knowledge about the mechanisms involved in host-specific susceptibility/resistance mediated by PPN effectors, resistance genes, or quantitative trait loci to boost their effective and sustainable use in economically important plant species is clearly indicated.

TL;DR: HIGS of msp-18 and mSP-20, improves nematode resistance in eggplant by affecting the steady-state transcription level of CWME genes in invading nematodes, and safeguard the plant against nematODE invasion at very early stage.

TL;DR: The results suggest that, in terms of defense genes, secondary metabolites, and volatile organic compounds, induced defense of nematode-infected plants could be affected by elevatedCO2, and that CO2-induced changes of plant resistance may lead to genotype-specific responses of plants to nematodes under elevated CO2.

TL;DR: A rapid, visual, user-friendly and easy to handle spreadsheet tool, called NEMATIC, which combines existing transcriptomic data for the interaction between Arabidopsis and plant-endoparasitic nematodes with data from different transcriptomic analyses regarding hormone and cell cycle regulation, development, different plant tissues, cell types and various biotic stresses.