Su-Min Guo scite author profile

Aphids are a major family of plant insect pests. Medicago truncatula and Acyrthosiphon pisum (pea aphid, PA) are model species with a suite of resources available to help dissect the mechanism underlying plant–aphid interactions. A previous study focused on monogenic and relatively strong resistance in M. truncatula to PA and other aphid species. In this study a moderate resistance to PA was characterized in detail in the M. truncatula line A17 and compared with the highly susceptible line A20 and the more resistant line Jester. The results show that PA resistance in A17 involves both antibiosis and tolerance, and that resistance is phloem based. Quantitative trait locus (QTL) analysis using a recombinant inbred line (RIL) population (n=114) from a cross between A17 and A20 revealed that one locus, which co-segregated with AIN (Acyrthosiphon-induced necrosis) on chromosome 3, is responsible for the reduction of aphid biomass (indicator of antibiosis) for both PA and bluegreen aphid (BGA, A. kondoi), albeit to a lesser degree for PA than BGA. Interestingly, two independent loci on chromosomes 5 and 3 were identified for the plant biomass reduction (indicator of plant tolerance) by PA and BGA, respectively, demonstrating that the plant’s tolerance response to these two closely related aphid species is distinct. Together with previously identified major resistant (R) genes, the QTLs identified in this study are powerful tools to understand fully the spectrum of plant defence against sap-sucking insects and provide opportunities for breeders to generate effective and sustainable strategies for aphid control.

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Two independent resistance genes in theMedicago truncatulacultivar Jester confer resistance to two different aphid species of the genusAcyrthosiphon

Guo

Kamphuis

Gao

et al. 2009

Plant Signaling & Behavior

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In recent years the biology of resistance to aphids and other sap-sucking insects has been studied in detail, whereas the genetic basis underlying this resistance is still poorly understood. Genetic resistance to Acyrthosiphon kondoi Shinji (bluegreen aphid; BGA) has been identified in Medicago truncatula Gaertn and backcrossed into susceptible cultivars. One of these M. truncatula cultivars named Jester also has good resistance to an Australian biotype of pea aphid (PA; A. pisum Harris). Until now it has been unclear whether resistance to each aphid species of the genus Acyrthosiphon is conferred by distinct genes or the same gene termed AKR for A. kondoi resistance. Infestation of the progenitors of the cultivar Jester with both aphid species revealed that resistance to BGA came from a different donor than resistance to PA, demonstrating that resistance to these aphid species is mediated by different resistance genes. However, an interaction between these genes for resistance to Acyrthosiphon species remains a possibility, given that PA resistance was not one of the parameters selected for in the creation of Jester. The identification of resistance to the model aphid, PA, and a closely related aphid BGA in the same genetic background of the model legume M. truncatula makes this system an attractive model for the study of plant-aphid interactions, as well as R gene specificity and evolution.

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Characterization and genetic dissection of resistance to spotted alfalfa aphid (Therioaphis trifolii) in Medicago truncatula

Kamphuis

Lichtenzveig

Peng

et al. 2013

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Aphids cause significant yield losses in agricultural crops worldwide. Medicago truncatula, a model legume, cultivated pasture species in Australia and close relative of alfalfa (Medicago sativa), was used to study the defence response against Therioaphis trifolii f. maculate [spotted alfalfa aphid (SAA)]. Aphid performance and plant damage were compared among three accessions. A20 is highly susceptible, A17 has moderate resistance, and Jester is strongly resistant. Subsequent analyses using A17 and A20, reciprocal F1s and an A17×A20 recombinant inbred line (RIL) population revealed that this moderate resistance is phloem mediated and involves antibiosis and tolerance but not antixenosis. Electrical penetration graph analysis also identified a novel waveform termed extended potential drop, which occurred following SAA infestation of M. truncatula. Genetic dissection using the RIL population revealed three quantitative trait loci on chromosomes 3, 6, and 7 involved in distinct modes of aphid defence including antibiosis and tolerance. An antibiosis locus resides on linkage group 3 (LG3) and is derived from A17, whereas a plant tolerance and antibiosis locus resides on LG6 and is derived from A20, which exhibits strong temporary tolerance. The loci identified reside in regions harbouring classical resistance genes, and introgression of these loci in current medic cultivars may help provide durable resistance to SAA, while elucidation of their molecular mechanisms may provide valuable insight into other aphid–plant interactions.

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Su-Min Guo

Identification of distinct quantitative trait loci associated with defence against the closely related aphids Acyrthosiphon pisum and A. kondoi in Medicago truncatula

Two independent resistance genes in theMedicago truncatulacultivar Jester confer resistance to two different aphid species of the genusAcyrthosiphon

Characterization and genetic dissection of resistance to spotted alfalfa aphid (Therioaphis trifolii) in Medicago truncatula

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