publication . Article . 2017

The effect of co-infestation by conspecific and heterospecific aphids on the feeding behaviour of Nasonovia ribisnigri on resistant and susceptible lettuce cultivars

Broeke, ten, Cindy J.M.; Dicke, Marcel; Loon, van, Joop J.A.;
Open Access English
  • Published: 01 Jan 2017
Abstract
<p>Aphid saliva can suppress the blocking of sieve elements, a reaction that plants employ to inhibit aphid feeding, but aphid saliva can also elicit plant defence responses. Such plant responses might affect interactions between different aphid species and intraspecifically, e.g. among different biotypes. The objectives of our study were to investigate if feeding behaviour and performance of two biotypes of the lettuce aphid Nasonovia ribisnigri are affected by (1) feeding by the other biotype and (2) feeding by the green peach aphid Myzus persicae or the potato aphid Macrosiphum euphorbiae. Additionally the effect of feeding in a group was studied. All experim...
Subjects
mesheuropmc: food and beveragesbiochemical phenomena, metabolism, and nutrition
free text keywords: Virulence, 017-4044, Suppression, Lettuce, Co-infestation, Aphid
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Article . 2017
Provider: NARCIS
51 references, page 1 of 4

Atamian HS, Chaudhary R, Cin VD, Bao E, Girke T, Kaloshian I (2013) In planta expression or delivery of potato aphid Macrosiphum euphorbiae effectors Me10 and Me23 enhances aphid fecundity. Mol Plant Microbe Interact 26:67-74. doi:10. 1094/mpmi-06-12-0144-fi

Bos JIB, Prince D, Pitino M, Maffei ME, Win J, Hogenhout SA (2010) A functional genomics approach identifies candidate effectors from the aphid species Myzus persicae (green peach aphid). PLoS Genet 6:e1001216. doi:10.1371/journal.pgen. 1001216

Carolan JC, Fitzroy CIJ, Ashton PD, Douglas AE, Wilkinson TL (2009) The secreted salivary proteome of the pea aphid Acyrthosiphon pisum characterised by mass spectrometry. Proteomics 9:2457-2467 [OpenAIRE]

Carolan JC et al. (2011) Predicted effector molecules in the salivary secretome of the pea aphid (Acyrthosiphon pisum): a dual transcriptomic/proteomic approach. J Proteome Res 10:1505-1518 [OpenAIRE]

Chaudhary R, Atamian HS, Shen Z, Briggs SP, Kaloshian I (2014) GroEL from the endosymbiont Buchnera aphidicola betrays the aphid by triggering plant defense. Proc Natl Acad Sci 111:8919-8924 [OpenAIRE]

Chaudhary R, Atamian HS, Shen Z, Briggs SP, Kaloshian I (2015) Potato aphid salivary proteome: enhanced salivation using resorcinol and identification of aphid phosphoproteins. J Proteome Res 14:1762-1778 [OpenAIRE]

Cherqui A, Tjallingii WF (2000) Salivary proteins of aphids, a pilot study on identification, separation and immunolocalisation. J Insect Physiol 46:1177-1186 [OpenAIRE]

Civolani S et al (2010) Probing behaviour of Myzus persicae on tomato plants containing Mi gene or BTH-treated evaluated by electrical penetration graph. Bull Insect 63:265-271

De Vos M, Jander G (2009) Myzus persicae (green peach aphid) salivary components induce defence responses in Arabidopsis thaliana. Plant Cell Environ 32:1548-1560

De Vos M et al (2005) Signal signature and transcriptome changes of Arabidopsis during pathogen and insect attack. Mol Plant Microbe Interact 18:923-937. doi:10.1094/mpmi-18-0923

Dixon A, Wratten S (1971) Laboratory studies on aggregation, size and fecundity in the black bean aphid, Aphis fabae Scop. Bull Entomol Res 61:97-111

Dorschner KW, Ryan JD, Johnson RC, Eikenbary RD (1987) Modification of host nitrogen levels by the greenbug (Homoptera, Aphididae) SW- Its role in resistance of winter-wheat to aphids. Environ Entomol 16:1007-1011

Dugravot S, Brunissen L, Le´tocart E, Tjallingii WF, Vincent C, Giordanengo P, Cherqui A (2007) Local and systemic responses induced by aphids in Solanum tuberosum plants. Entomol Exp Appl 123:271-277. doi:10.1111/j.1570-7458.2007.00542.x [OpenAIRE]

Elzinga DA, De Vos M, Jander G (2014) Suppression of plant defenses by a Myzus persicae (green peach aphid) salivary effector protein. Mol Plant Microbe Interact 27:747-756. doi:10. 1094/mpmi-01-14-0018-r

Harmel N et al (2008) Identification of aphid salivary proteins: a proteomic investigation of Myzus persicae. Insect Mol Biol 17:165-174

51 references, page 1 of 4
Abstract
<p>Aphid saliva can suppress the blocking of sieve elements, a reaction that plants employ to inhibit aphid feeding, but aphid saliva can also elicit plant defence responses. Such plant responses might affect interactions between different aphid species and intraspecifically, e.g. among different biotypes. The objectives of our study were to investigate if feeding behaviour and performance of two biotypes of the lettuce aphid Nasonovia ribisnigri are affected by (1) feeding by the other biotype and (2) feeding by the green peach aphid Myzus persicae or the potato aphid Macrosiphum euphorbiae. Additionally the effect of feeding in a group was studied. All experim...
Subjects
mesheuropmc: food and beveragesbiochemical phenomena, metabolism, and nutrition
free text keywords: Virulence, 017-4044, Suppression, Lettuce, Co-infestation, Aphid
Download from
Wageningen Yield
Article . 2017
Provider: NARCIS
51 references, page 1 of 4

Atamian HS, Chaudhary R, Cin VD, Bao E, Girke T, Kaloshian I (2013) In planta expression or delivery of potato aphid Macrosiphum euphorbiae effectors Me10 and Me23 enhances aphid fecundity. Mol Plant Microbe Interact 26:67-74. doi:10. 1094/mpmi-06-12-0144-fi

Bos JIB, Prince D, Pitino M, Maffei ME, Win J, Hogenhout SA (2010) A functional genomics approach identifies candidate effectors from the aphid species Myzus persicae (green peach aphid). PLoS Genet 6:e1001216. doi:10.1371/journal.pgen. 1001216

Carolan JC, Fitzroy CIJ, Ashton PD, Douglas AE, Wilkinson TL (2009) The secreted salivary proteome of the pea aphid Acyrthosiphon pisum characterised by mass spectrometry. Proteomics 9:2457-2467 [OpenAIRE]

Carolan JC et al. (2011) Predicted effector molecules in the salivary secretome of the pea aphid (Acyrthosiphon pisum): a dual transcriptomic/proteomic approach. J Proteome Res 10:1505-1518 [OpenAIRE]

Chaudhary R, Atamian HS, Shen Z, Briggs SP, Kaloshian I (2014) GroEL from the endosymbiont Buchnera aphidicola betrays the aphid by triggering plant defense. Proc Natl Acad Sci 111:8919-8924 [OpenAIRE]

Chaudhary R, Atamian HS, Shen Z, Briggs SP, Kaloshian I (2015) Potato aphid salivary proteome: enhanced salivation using resorcinol and identification of aphid phosphoproteins. J Proteome Res 14:1762-1778 [OpenAIRE]

Cherqui A, Tjallingii WF (2000) Salivary proteins of aphids, a pilot study on identification, separation and immunolocalisation. J Insect Physiol 46:1177-1186 [OpenAIRE]

Civolani S et al (2010) Probing behaviour of Myzus persicae on tomato plants containing Mi gene or BTH-treated evaluated by electrical penetration graph. Bull Insect 63:265-271

De Vos M, Jander G (2009) Myzus persicae (green peach aphid) salivary components induce defence responses in Arabidopsis thaliana. Plant Cell Environ 32:1548-1560

De Vos M et al (2005) Signal signature and transcriptome changes of Arabidopsis during pathogen and insect attack. Mol Plant Microbe Interact 18:923-937. doi:10.1094/mpmi-18-0923

Dixon A, Wratten S (1971) Laboratory studies on aggregation, size and fecundity in the black bean aphid, Aphis fabae Scop. Bull Entomol Res 61:97-111

Dorschner KW, Ryan JD, Johnson RC, Eikenbary RD (1987) Modification of host nitrogen levels by the greenbug (Homoptera, Aphididae) SW- Its role in resistance of winter-wheat to aphids. Environ Entomol 16:1007-1011

Dugravot S, Brunissen L, Le´tocart E, Tjallingii WF, Vincent C, Giordanengo P, Cherqui A (2007) Local and systemic responses induced by aphids in Solanum tuberosum plants. Entomol Exp Appl 123:271-277. doi:10.1111/j.1570-7458.2007.00542.x [OpenAIRE]

Elzinga DA, De Vos M, Jander G (2014) Suppression of plant defenses by a Myzus persicae (green peach aphid) salivary effector protein. Mol Plant Microbe Interact 27:747-756. doi:10. 1094/mpmi-01-14-0018-r

Harmel N et al (2008) Identification of aphid salivary proteins: a proteomic investigation of Myzus persicae. Insect Mol Biol 17:165-174

51 references, page 1 of 4
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