Understanding the plant immune system is crucial for using genetics to protect crops from
diseases. Plants resist pathogens via a two-tiered innate immune detection-and-response …

Plants live under different biotic and abiotic stress conditions, and, to cope with the adversity
and severity, plants have well-developed resistance mechanisms. The mechanism starts …

Анотація The work is devoted to the study of pattern recognition features of industrial parts
in individual fasteners' forms. The main types of neural network architectures and their …

Fire blight represents a great threat to apple and pear production worldwide. The ability of its
causal agent, Erwinia amylovora, to spread rapidly in the host plants makes this devastating …

Fusarium head blight (FHB), caused by Fusarium graminearum, is a devastating disease in
wheat (Triticum aestivum) that results in substantial yield losses and mycotoxin …

Plant pathogens destroy crops and cause severe yield losses, leading to an insufficient food
supply to sustain the human population. Apart from relying on natural plant immune systems …

Plants and animals detect biomolecules termed microbe-associated molecular patterns
(MAMPs) and induce immunity. Agricultural production is severely impacted by pathogens …

Agrobacterium tumefaciens microbe‐associated molecular pattern elongation factor Tu (EF‐
Tu) is perceived by orthologs of the Arabidopsis immune receptor EFR activating pattern …

The plant immune system relies on germline-encoded pattern recognition receptors (PRRs)
that sense foreign and plant-derived molecular patterns, and signal health threats. Genomic …

Highlights•Engineering new disease resistance traits in crops using structure-guided
methods.•Interspecies and intraspecies gene transfers provide multilayered immunity in …