Pine defense against eggs of an herbivorous sawfly is elicited by an annexin‐like protein present in egg‐associated secretion

Pine defense against eggs of an herbivorous sawfly is elicited by an annexin‐like protein present in egg‐associated secretion

Known elicitors of plant defenses against eggs of herbivorous insects are low‐molecular‐weight organic compounds associated with the eggs. However, previous studies provided evidence that also proteinaceous compounds present in secretion associated with eggs of the herbivorous sawfly Diprion pini ca...

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Veröffentlicht in:Plant, cell and environment cell and environment, 2022-04, Vol.45 (4), p.1033-1048
Hauptverfasser: Hundacker, Janik, Bittner, Norbert, Weise, Christoph, Bröhan, Gunnar, Varama, Martti, Hilker, Monika
Format: Artikel
Sprache:eng
Schlagworte:
Animals
annexin
Annexins - metabolism
Bioassays
Biosynthesis
Defense mechanisms
Diprion pini
Eggs
Electrophoresis
elicitor
Farnesene
Gel electrophoresis
Gene expression
Genes
Herbivory
Homeostasis
Hymenoptera - physiology
insect eggs
Insects
Mass spectrometry
Mass spectroscopy
Organic compounds
Oviposition
Pathogenesis
pine
Pine needles
Pine trees
Pinus - metabolism
Pinus sylvestris
plant defense
Proteins
Secretion
Ultrafiltration
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container_issue 4
container_start_page 1033
container_title Plant, cell and environment
container_volume 45
creator Hundacker, Janik
Bittner, Norbert
Weise, Christoph
Bröhan, Gunnar
Varama, Martti
Hilker, Monika
description Known elicitors of plant defenses against eggs of herbivorous insects are low‐molecular‐weight organic compounds associated with the eggs. However, previous studies provided evidence that also proteinaceous compounds present in secretion associated with eggs of the herbivorous sawfly Diprion pini can elicit defensive responses in  Pinus sylvestris. Pine responses induced by the proteinaceous secretion are known to result in enhanced emission of (E)‐β‐farnesene, which attracts egg parasitoids killing the eggs. Here, we aimed to identify the defense‐eliciting protein and elucidate its function. After isolating the defense‐eliciting protein from D. pini egg‐associated secretion by ultrafiltration and gel electrophoresis, we identified it by MALDI‐TOF mass spectrometry as an annexin‐like protein, which we named ‘diprionin’. Further GC‐MS analyses showed that pine needles treated with heterologously expressed diprionin released enhanced quantities of (E)‐β‐farnesene. Our bioassays confirmed attractiveness of diprionin‐treated pine to egg parasitoids. Expression of several pine candidate genes involved in terpene biosynthesis and regulation of ROS homeostasis was similarly affected by diprionin and natural sawfly egg deposition. However, the two treatments had different effects on expression of pathogenesis‐related genes (PR1, PR5). Diprionin is the first egg‐associated proteinaceous elicitor of indirect plant defense against insect eggs described so far. Summary statement Indirect defense of Pinus sylvestris against eggs of a herbivorous pine sawfly is elicited by an annexin‐like protein present in sawfly egg‐associated secretion. When expressed heterologously and applied onto pine needles, this novel type of egg‐associated defense elicitor induces pine odor attractive to egg parasitoids, which kill sawfly eggs.
doi_str_mv 10.1111/pce.14211
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However, previous studies provided evidence that also proteinaceous compounds present in secretion associated with eggs of the herbivorous sawfly Diprion pini can elicit defensive responses in  Pinus sylvestris. Pine responses induced by the proteinaceous secretion are known to result in enhanced emission of (E)‐β‐farnesene, which attracts egg parasitoids killing the eggs. Here, we aimed to identify the defense‐eliciting protein and elucidate its function. After isolating the defense‐eliciting protein from D. pini egg‐associated secretion by ultrafiltration and gel electrophoresis, we identified it by MALDI‐TOF mass spectrometry as an annexin‐like protein, which we named ‘diprionin’. Further GC‐MS analyses showed that pine needles treated with heterologously expressed diprionin released enhanced quantities of (E)‐β‐farnesene. Our bioassays confirmed attractiveness of diprionin‐treated pine to egg parasitoids. Expression of several pine candidate genes involved in terpene biosynthesis and regulation of ROS homeostasis was similarly affected by diprionin and natural sawfly egg deposition. However, the two treatments had different effects on expression of pathogenesis‐related genes (PR1, PR5). Diprionin is the first egg‐associated proteinaceous elicitor of indirect plant defense against insect eggs described so far. Summary statement Indirect defense of Pinus sylvestris against eggs of a herbivorous pine sawfly is elicited by an annexin‐like protein present in sawfly egg‐associated secretion. 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subjects Animals
annexin
Annexins - metabolism
Bioassays
Biosynthesis
Defense mechanisms
Diprion pini
Eggs
Electrophoresis
elicitor
Farnesene
Gel electrophoresis
Gene expression
Genes
Herbivory
Homeostasis
Hymenoptera - physiology
insect eggs
Insects
Mass spectrometry
Mass spectroscopy
Organic compounds
Oviposition
Pathogenesis
pine
Pine needles
Pine trees
Pinus - metabolism
Pinus sylvestris
plant defense
Proteins
Secretion
Ultrafiltration
title Pine defense against eggs of an herbivorous sawfly is elicited by an annexin‐like protein present in egg‐associated secretion
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