2017
DOI: 10.1101/173278
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Chemosensory proteins in the CSP4 clade evolved as plant immunity suppressors before two suborders of plant-feeding hemipteran insects diverged

Abstract: Chemosensory proteins (CSPs) are small globular proteins with hydrophobic binding pockets that have a role in detection of chemicals, regulation of development and growth and host seeking behaviour and feeding of arthropods. Here, we show that a CSP has evolved to modulate plant immune responses. Firstly, we found that the green peach aphid Myzus persicae CSP Mp10, which is delivered into the cytoplasm of plant cells, suppresses the reactive oxygen species (ROS) bursts to both aphid and bacterial elicitors in … Show more

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Cited by 15 publications
(24 citation statements)
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“…New insights into the evolution of the Mp10 effector of the green peach aphid points to marked differences with microbial pathogen effectors. Whereas the majority of plant pathogen effectors have rapidly diversified with little sequence and functional conservation , Mp10 is relatively conserved across hemipteran insects and belongs to the widespread chemosensory protein 4 clade (CSP4) (Drurey et al 2017). Remarkably, the immunosuppression activity of Mp10 evolved via gain-of-function mutations over 250 million years ago, prior to the divergence of plantsucking insect species (Drurey et al 2017).…”
Section: Figure 3 Pathogen Mutations Associated With Host Jumps (A)mentioning
confidence: 99%
See 1 more Smart Citation
“…New insights into the evolution of the Mp10 effector of the green peach aphid points to marked differences with microbial pathogen effectors. Whereas the majority of plant pathogen effectors have rapidly diversified with little sequence and functional conservation , Mp10 is relatively conserved across hemipteran insects and belongs to the widespread chemosensory protein 4 clade (CSP4) (Drurey et al 2017). Remarkably, the immunosuppression activity of Mp10 evolved via gain-of-function mutations over 250 million years ago, prior to the divergence of plantsucking insect species (Drurey et al 2017).…”
Section: Figure 3 Pathogen Mutations Associated With Host Jumps (A)mentioning
confidence: 99%
“…Whereas the majority of plant pathogen effectors have rapidly diversified with little sequence and functional conservation , Mp10 is relatively conserved across hemipteran insects and belongs to the widespread chemosensory protein 4 clade (CSP4) (Drurey et al 2017). Remarkably, the immunosuppression activity of Mp10 evolved via gain-of-function mutations over 250 million years ago, prior to the divergence of plantsucking insect species (Drurey et al 2017). As more effectors are discovered in aphids and other plant parasitic insects, it will be interesting to determine whether they would exhibit similar evolutionary trends.…”
Section: Figure 3 Pathogen Mutations Associated With Host Jumps (A)mentioning
confidence: 99%
“…For example, the M. persicae Mp10 effector suppressed flg22-induced but not chitininduced ROS production (Bos et al, 2010). Furthermore, Mp10 was shown to act in the BAK1 pathway (Drurey et al, 2017). Myzus persicae Mp1 promoted aphid virulence by targeting a vacuolar sorting protein (VSP52) from its preferred host plants Arabidopis and potato, but not with VSP52 from poor-host barley and M. truncaluta (Rodriguez et al, 2017).…”
Section: Arthropod-derived Effectorsmentioning
confidence: 99%
“…New insights into the evolution of the Mp10 effector of the green peach aphid points to marked differences with microbial pathogen effectors. Whereas the majority of plant pathogen effectors have rapidly diversified with little sequence and functional conservation [34], Mp10 is relatively conserved across hemipteran insects and belongs to the widespread chemosensory protein 4 clade (CSP4) [35]. Remarkably, the immunosuppression activity of Mp10 evolved via gain-of-function mutations over 250 million years ago, prior to the divergence of plant-sucking insect species [35].…”
Section: Pathogen Adaptationsmentioning
confidence: 99%
“…Whereas the majority of plant pathogen effectors have rapidly diversified with little sequence and functional conservation [34], Mp10 is relatively conserved across hemipteran insects and belongs to the widespread chemosensory protein 4 clade (CSP4) [35]. Remarkably, the immunosuppression activity of Mp10 evolved via gain-of-function mutations over 250 million years ago, prior to the divergence of plant-sucking insect species [35]. As more effectors are discovered in aphids and other plant parasitic insects, it will be interesting to determine whether they would exhibit similar evolutionary trends.…”
Section: Pathogen Adaptationsmentioning
confidence: 99%