S. Alves-carvalho, G. Aubert, S. Carrere, C. Cruaud, A. L. Brochot et al., Full-length de novo assembly of RNA-seq data in pea (Pisum sativum L.) provides a gene expression atlas and gives insights into root nodulation in this species, Plant J, vol.84, pp.1-19, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02631162

H. S. Atamian, R. Chaudhary, V. Dal-cin, E. Bao, T. Girke et al., In planta expression or delivery of potato aphid Macrosiphum euphorbiae effectors Me10 and Me23 enhances aphid fecundity, Mol. Plant Microbe Interact, vol.26, pp.67-74, 2013.

P. B. Bhaskar, M. Venkateshwaran, L. Wu, J. M. Ane, and J. M. Jiang, Agrobacterium-mediated transient gene expression and silencing: a rapid tool for functional gene assay in potato, PLoS ONE, vol.4, p.5812, 2009.

J. I. Bos, D. Prince, M. Pitino, M. E. Maffei, J. Win et al., A functional genomics approach identifies candidate effectors from the aphid species Myzus persicae (green peach aphid), PLoS Genet, vol.6, p.1001216, 2010.

J. Canonne, D. Marino, A. Jauneau, C. Pouzet, C. Briere et al., The Xanthomonas type III effector XopD targets the Arabidopsis transcription factor MYB30 to suppress plant defense, Plant Cell, vol.23, pp.3498-3511, 2011.
URL : https://hal.archives-ouvertes.fr/hal-02652403

J. C. Carolan, D. Caragea, K. T. Reardon, N. S. Mutti, N. Dittmer et al., Predicted effector molecules in the salivary secretome of the pea aphid (Acyrthosiphon pisum): a dual transcriptomic/proteomic approach, J. Proteome Res, vol.10, pp.1505-1518, 2011.
URL : https://hal.archives-ouvertes.fr/hal-02646917

R. Chaudhary, H. S. Atamian, Z. X. Shen, S. P. Brigg, and I. Kaloshian, GroEL from the endosymbiont Buchnera aphidicola betrays the aphid by triggering plant defense, Proc. Natl. Acad. Sci. U.S.A, vol.111, pp.8919-8924, 2014.

Q. Chen, M. Dent, J. Hurtado, J. Stahnke, A. Mcnulty et al., Transient protein expression by agroinfiltration in lettuce, Methods Mol. Biol, vol.1385, pp.55-67, 2016.

F. De-mendiburu, Agricolae: Statistical Procedures for Agricultural Research, 2014.

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

A. Desgroux, V. L'anthoene, M. Roux-duparque, J. P. Riviere, G. Aubert et al., Genome-wide association mapping of partial resistance to Aphanomyces euteiches in pea, BMC Genomics, vol.17, p.124, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01378597

M. Dres and J. Mallet, Host races in plant-feeding insects and their importance in sympatric speciation, Philos. Trans. R. Soc. B Biol. Sci, vol.357, pp.471-492, 2002.

D. A. Elzinga, M. De-vos, and G. Jander, Suppression of plant defenses by a Myzus persicae (green peach aphid) salivary effector protein, Mol. Plant Microbe Interact, vol.27, pp.747-756, 2014.

D. A. Elzinga and G. Jander, The role of protein effectors in plantaphid interactions, Curr. Opin. Plant Biol, vol.16, pp.451-456, 2013.

J. Ferrari, S. Via, and H. C. Godfray, Population differentiation and genetic variation in performance on eight hosts in the pea aphid complex, Evolution, vol.62, pp.2508-2524, 2008.

M. M. Goodin, D. Zaitlin, R. A. Naidu, and S. A. Lommel, Nicotiana benthamiana: its history and future as a model for plant-pathogen interactions, Mol. Plant Microbe Interact, vol.21, pp.1015-1026, 2008.

K. Guo, W. Wang, L. Luo, J. Chen, Y. Guo et al., Characterization of an aphid-specific, cysteine-rich protein enriched in salivary glands, Biophys. Chem, vol.189, pp.25-32, 2014.

C. Hamon, C. J. Coyne, R. J. Mcgee, A. Lesne, R. Esnault et al., QTL meta-analysis provides a comprehensive view of loci controlling partial resistance to Aphanomyces euteiches in four sources of resistance in pea, BMC Plant Biol, vol.13, p.45, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01208633

D. J. Hawthorne and S. Via, Genetic linkage of ecological specialization and reproductive isolation in pea aphids, Nature, vol.412, pp.904-907, 2001.

T. Hothorn, F. Bretz, and P. Westfall, Simultaneous inference in general parametric models, Biom. J, vol.50, pp.346-363, 2008.

, Genome sequence of the pea aphid Acyrthosiphon pisum, International Aphid Genomics Consortium, vol.8, p.1000313, 2010.

J. Jaquiery, S. Stoeckel, P. Nouhaud, L. Mieuzet, F. Maheo et al., Genome scans reveal candidate regions involved in the adaptation to host plant in the pea aphid complex, Mol. Ecol, vol.21, pp.5251-5264, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00753439

S. Jaubert-possamai, C. Rispe, S. Tanguy, K. Gordon, T. Walsh et al., Expansion of the miRNA pathway in the Hemipteran Insect Acyrthosiphon pisum, Mol. Biol. Evol, vol.27, pp.979-987, 2010.

R. A. Jefferson, Assaying chimeric genes in plants: the GUS Gene fusion system, Plant Mol. Biol. Rep, vol.5, pp.387-405, 1987.

S. Jin, T. Komari, M. P. Gordon, and E. W. Nester, Genes responsible for the supervirulence phenotype of Agrobacterium tumefaciens A281, J. Bacteriol, vol.169, pp.4417-4425, 1987.

I. Kaloshian and L. L. Walling, Hemipteran and dipteran pests: effectors and plant host immune regulators, J. Integr. Plant Biol, vol.58, pp.350-361, 2016.

S. Kanvil, C. M. Collins, G. Powell, and C. G. Turnbull, Cryptic virulence and avirulence alleles revealed by controlled sexual recombination in pea aphids, Genetics, vol.199, pp.581-593, 2015.

M. Karimi, D. Inze, and A. Depicker, GATEWAYTM vectors for Agrobacterium-mediated plant transformation, Trends Plant Sci, vol.7, pp.2251-2254, 2002.

J. L. King, J. J. Finer, and L. K. Mchale, Development and optimization of agroinfiltration for soybean, Plant Cell Rep, vol.34, pp.133-140, 2015.

I. Lejeune-henaut, E. Hanocq, L. Bethencourt, V. Fontaine, B. Delbreil et al., The flowering locus Hr colocalizes with a major QTL affecting winter frost tolerance in Pisum sativum L, Theor. Appl. Genet, vol.116, pp.1105-1116, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02660994

C. Meziadi, S. Blanchet, M. M. Richard, M. L. Pilet-nayel, V. Geffroy et al., Bean pod mottle virus: a new powerful tool for functional genomics studies in Pisum sativum, Plant Biotechnol. J, vol.14, pp.1777-1787, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01351521

N. S. Mutti, J. Louis, L. K. Pappan, K. Pappan, K. Begum et al., A protein from the salivary glands of the pea aphid, Acyrthosiphon pisum, is essential in feeding on a host plant, Proc. Natl. Acad. Sci. U.S.A, vol.105, pp.9965-9969, 2008.

N. S. Mutti, Y. Park, J. C. Reese, and G. R. Reeck, RNAi knockdown of a salivary transcript leading to lethality in the pea aphid, Acyrthosiphon pisum, J. Insect Sci, vol.6, pp.1-7, 2006.

E. Naessens, G. Dubreuil, P. Giordanengo, O. L. Baron, N. Minet-kebdani et al., A secreted MIF cytokine enables aphid feeding and represses plant immune responses, Curr. Biol, vol.25, pp.1898-1903, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01312804

T. Nakagawa, T. Suzuki, S. Murata, S. Nakamura, T. Hino et al., Improved gateway binary vectors: high-performance vectors for creation of fusion constructs in transgenic analysis of plants, Biosci. Biotechnol. Biochem, vol.71, pp.2095-2100, 2007.

Y. M. Pan, J. J. Zhu, L. Luo, L. Kang, and F. Cui, High expression of a unique aphid protein in the salivary glands of Acyrthosiphon pisum, Physiol. Mol.Plant Pathol, vol.92, pp.175-180, 2015.

J. Peccoud, M. De-la-huerta, J. Bonhomme, C. Laurence, Y. Outreman et al., Widespread host-dependent hybrid unfitness in the pea aphid species complex, Evolution, vol.68, pp.2983-2995, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01208754

J. Peccoud, F. Maheo, M. De-la-huerta, C. Laurence, and J. C. Simon, Genetic characterisation of new host-specialised biotypes and novel associations with bacterial symbionts in the pea aphid complex, Insect Conserv. Divers, vol.8, pp.484-492, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01252653

J. Peccoud, A. Ollivier, M. Plantegenest, and J. C. Simon, A continuum of genetic divergence from sympatric host races to species in the pea aphid complex, Proc. Natl. Acad. Sci. U.S.A, vol.106, pp.7495-7500, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00729934

K. Picard, R. Lee, R. Hellens, and R. Macknight, Transient gene expression in Medicago truncatula leaves via Agroinfiltration, Methods Mol. Biol, vol.1069, pp.215-226, 2013.

M. Pitino and S. A. Hogenhout, Aphid protein effectors promote aphid colonization in a plant species-specific manner, Mol. Plant Microbe Interact, vol.26, pp.130-139, 2013.

G. J. Pruss, E. W. Nester, and V. Vance, Infiltration with Agrobacterium tumefaciens induces host defense and development-dependent responses in the infiltrated zone, Mol. Plant Microbe Interact, vol.21, pp.1528-1538, 2008.

. R-core-team, A Language and Environment for Statistical Computing. Vienna: R Foundation for Statistical Computing, 2014.

C. Rispe, M. Kutsukake, V. Doublet, S. Hudaverdian, F. Legeai et al., Large gene family expansion and variable selective pressures for cathepsin B in aphids, Mol. Biol. Evol, vol.25, pp.5-17, 2008.
URL : https://hal.archives-ouvertes.fr/inria-00180087

S. Rivas, T. Romeis, and J. D. Jones, The Cf-9 disease resistance protein is present in an approximately 420-kilodalton heteromultimeric membraneassociated complex at one molecule per complex, Plant Cell, vol.14, pp.689-702, 2002.

P. A. Rodriguez and J. I. Bos, Toward understanding the role of aphid effectors in plant infestation, Mol. Plant Microbe Interact, vol.26, pp.25-30, 2013.

F. Sainsbury, E. C. Thuenemann, and G. P. Lomonossoff, pEAQ: versatile expression vectors for easy and quick transient expression of heterologous proteins in plants, Plant Biotechnol. J, vol.7, pp.682-693, 2009.

M. Santos-rosa, A. Poutaraud, D. Merdinoglu, and P. Mestre, Development of a transient expression system in grapevine via agro-infiltration, Plant Cell Rep, vol.27, pp.1053-1063, 2008.
URL : https://hal.archives-ouvertes.fr/hal-02661955

A. Schwarzkopf, D. Rosenberg, M. Niebergall, J. Gershenzon, and G. Kunert, To Feed or not to feed: plant factors located in the epidermis, mesophyll, and sieve elements influence pea aphid's ability to feed on legume species, PLoS ONE, vol.8, p.75298, 2013.

J. C. Simon, E. Alencon, E. Guy, E. Jacquin-joly, J. Jaquiery et al., Genomics of adaptation to host-plants in herbivorous insects, Brief. Funct. Genomics, vol.14, pp.413-423, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01132673

J. Stockhaus, J. Schell, and L. Willmitzer, Correlation of the expression of the nuclear photosynthetic gene ST-LS1 with the presence of chloroplasts, EMBO J, vol.8, pp.2445-2451, 1989.

L. Svabova, P. Smykal, M. Griga, and V. Ondrej, Agrobacterium-mediated transformation of Pisum sativum in vitro and in vivo, Biol. Plant, vol.49, pp.361-370, 2005.

T. Tsuchida, R. Koga, and T. Fukatsu, Host plant specialization governed by facultative symbiont, Science, vol.303, 1989.

G. Vancanneyt, R. Schmidt, A. O'connor-sanchez, L. Willmitzer, and M. Rocha-sosa, Construction of an intron-containing marker gene: splicing of the intron in transgenic plants and its use in monitoring early events in Agrobacterium-mediated plant transformation, Mol. Gen. Genet, vol.220, pp.245-250, 1990.

S. Via, G. Conte, C. Mason-foley, and K. Mills, Localizing F(ST) outliers on a QTL map reveals evidence for large genomic regions of reduced gene exchange during speciation-with-gene-flow, Mol. Ecol, vol.21, pp.5546-5560, 2012.

W. Wang, H. E. Dai, Y. Zhang, R. Chandrasekar, L. Luo et al., Armet is an effector protein mediating aphid-plant interactions, Faseb J, vol.29, pp.2032-2045, 2015.

W. Wang, L. Luo, H. Lu, S. L. Chen, L. Kang et al., Angiotensinconverting enzymes modulate aphid-plant interactions, Sci. Rep, vol.5, p.8885, 2015.

T. Will, W. F. Tjallingii, A. Thonnessen, and A. J. Van-bel, Molecular sabotage of plant defense by aphid saliva, Proc. Natl. Acad. Sci. U.S.A, vol.104, pp.10536-10541, 2007.

C. P. Witte, L. D. Noël, J. Gielbert, J. E. Parker, and T. Romeis, Rapid onestep protein purification from plant material using the eight-amino acid StrepII epitope, Plant Mol. Biol, vol.55, pp.135-147, 2004.

T. Wroblewski, A. Tomczak, and R. Michelmore, Optimization of Agrobacterium-mediated transient assays of gene expression in lettuce, tomato and Arabidopsis, Plant Biotechnol. J, vol.3, pp.259-273, 2005.