Abstract
Aphids are phloem sap-feeding insects common as pests in various crops. Here we review 62 omics studies of aphid/plant interactions to search for indications of how aphids may manipulate the plants to make them more suitable as hosts, i.e. more susceptible. Our aim is to try to reveal host plant susceptibility (S) genes, knowledge which can be exploited for making a plant more resistant to its pest by using new plant breeding techniques to knock out or down such S genes. S genes may be of two types, those that are involved in reducing functional plant defense and those involved in further increasing plant factors that are positive to the aphid, such as facilitated access to food or improved nutritional quality. Approximately 40% of the omics studies we have reviewed indicate how aphids may modify their host to their advantage. To exploit knowledge obtained so far, we suggest knocking out/down candidate aphid S genes using CRISPR/Cas9 or RNAi techniques in crops to evaluate if this will be sufficient to keep the aphid pest at economically viable levels without severe pleiotropic effects. As a complement, we also propose functional studies of recessively inherited resistance previously discovered in some aphid–crop combinations, to potentially identify new types of S genes that later could be knocked out or down also in other crops to improve their resistance to aphids.
Highlights
Aphids are phloem sap-feeding insects and most cultivated plant species are hosts of one or more aphid species
Aphids induced various sugars 72 h sugar symporter (SUS): Upregulation of aquaporin genes might increase access to nutrients in phloem 48 h Systemic response in phloem tissue analyzed SUS: Thiamine biosynthesis gene strongly upregulated, cell wall and water channel genes regulated for control of turgor pressure 3, 7 days SUS: Temporal gene regulation patterns ruled by the aphid, abscisic acid (ABA)-related genes upregulated to maintain water potential, oxylipin genes up-regulated to provide lipid nutrients, cytokininrelated genes downregulated to promote senescence to release amino acids 2, 4, 8, 24, 48, 96 h SUS: genes regulated to increase sugar and amino acid concentration in phloem, to advance senescence, to hinder sieve tube clogging and to suppress ET defense pathway 2, 24 h Systemically induced leaves investigated
There are so far only few candidate genes for induced plant susceptibility to aphid attack which might be exploited for improving crop resistance to aphids
Summary
Aphids are phloem sap-feeding insects and most cultivated plant species are hosts of one or more aphid species. Crops are invaded by alate aphids which give rise to successive apterous generations parthenogenetically (Blackman and Eastop, 1984). Aphids in these clonal colonies are sedentary if weather conditions are favorable, if host plant quality is high and if there is minimal disturbance by natural enemies. Insects with this life style have evolved so that they can modify their host plants locally to their own benefit (Walling, 2008; Giordanengo et al, 2010; Zust and Agrawal, 2016). We review such evidence of host manipulation and suggest how this knowledge can be used to breed plants which are less suitable as aphid hosts
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