Signatures of adaptation to a monocot host in the plant-parasitic cyst nematode Heterodera sacchari.
Pokhare, Somnath S
Habash, Samer S
Grundler, Florian MW
The Plant journal : for cell and molecular biology
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Pokhare, S. S., Thorpe, P., Hedley, P., Morris, J., Habash, S. S., Elashry, A., Eves-Van Den Akker, S., et al. (2020). Signatures of adaptation to a monocot host in the plant-parasitic cyst nematode Heterodera sacchari.. The Plant journal : for cell and molecular biology, 103 (4), 1263-1274. https://doi.org/10.1111/tpj.14910
Interactions between plant-parasitic nematodes and their hosts are mediated by effectors; secreted proteins that manipulate the plant to the benefit of the pathogen. To understand the role of effectors in host adaptation in nematodes we analysed the transcriptome of Heterodera sacchari, a cyst nematode parasite of rice and sugarcane. A multi-gene phylogenetic analysis showed that H. sacchari and the cereal cyst nematode Heterodera aveneae share a common evolutionary origin and that they evolved to parasitise monocot plants from a common dicot-parasitic ancestor. We compared the effector repertoires of H. sacchari with those of the dicot parasites H. glycines and Globodera rostochiensis to understand the consequences of this transition. While, in general, effector repertoires are similar between the species, comparing effectors and non-effectors of H. sacchari and G. rostochiensis shows that effectors have accumulated more mutations than non-effectors. Although most effectors show conserved spatiotemporal expression profiles and likely function, some H. sacchari effectors are adapted to monocots. This is exemplified by the plant-peptide hormone mimics, the CLAVATA3/EMBRYO SURROUNDING REGION-like (CLE) effectors. Peptide hormones encoded by H. sacchari CLE effectors are more similar to those from rice than those from other plants, or those from other plant-parasitic nematodes. We experimentally validate the functional significance of these observations by demonstrating that CLE peptides encoded by H. sacchari induce a short root phenotype in rice, whereas those from a related dicot parasite do not. These data provide a functional example of effector evolution that co-occurred with the transition from dicot-parasitic to a monocot-parasitic lifestyle.
Animals, Tylenchoidea, Peptide Hormones, Helminth Proteins, Plant Diseases, Host-Parasite Interactions, Transcriptome
External DOI: https://doi.org/10.1111/tpj.14910
This record's URL: https://www.repository.cam.ac.uk/handle/1810/308002
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