Abstracts

Novel types of resistance of codling moth to Cydia pomonella granulovirus

by Annette Juliane Sauer




Institution: Technische Universitt Darmstadt
Department:
Year: 2017
Posted: 02/01/2018
Record ID: 2155010
Full text PDF: http://tuprints.ulb.tu-darmstadt.de/6210/


Abstract

The Cydia pomonella granulovirus (CpGV, Baculoviridae) is an important biological control agent to control codling moth (CM; Cydia pomonella, L.) in organic and integrated pome fruit and walnut production. The CpGV is highly host-specific and supremely virulent for early larval stages of CM, additionally safe for the environment and other animals and humans. Since 2005, resistance against the widely used Mexican isolate (CpGV-M) has been reported from different countries in Europe. Until now, over 40 apple orchards with resistance to CpGV-M based products were identified. For several CM field populations in Europe a Z-linked, monogenetic and dominant inheritance was proposed suggesting a highly similar mode of resistance, termed type I resistance. Type I resistance is targeted only against the isolate CpGV-M and specific the 24 bp insertion in its viral gene pe38. Some other CpGV isolates collected from infected larvae of different geographical regions, lacking this 24 bp repetitive insertion in their pe38 gene and caused virus infection in resistant larvae. Some of these isolates, e.g. CpGV-S, were eventually registered to re-establish the efficient control of CM larvae in the field. Recently, two CM field populations, called NRW-WE and SA-GO, with an untypically high resistance level against CpGV-M and other CpGV isolates, were identified and a novel resistance type II was proposed. This thesis focuses on the elucidation of their mode of inheritance and their cellular mechanism. For generating genetically homogenous resistant strains out of the field population NRW-WE, larvae were selected by repeated mass crosses and selection under virus pressure, using the two isolates CpGV-M and CpGV-S, respectively. The resulting strains CpR5M and CpR5S showed a clear cross-resistance to both CpGV-M and CpGV-S. By crossing and backcrossing experiments between CpR5M or CpR5S and susceptible CM strain (CpS) an autosomal dominant and monogenetic inheritance of resistance was elucidated. The autosomal inheritance mode supported the evidence of a second type (type II) of resistance. Initially, an interchromosomal rearrangement involving the Z chromosome was hypothesized to explain the translocation from a Z-chromosomal to an autosomal inheritance. This hypothesis, however, could be clearly ruled out because a highly conserved synteny of all probed Z-linked genes was observed for different resistant CM strains when fluorescence in situ hybridization with marker genes (BAC-FISH) was applied. Considering the cross-resistance in type II resistance, CM larvae were treated with single or mixtures of the isolates CpGV-M and CpGV-S. For these treatments no virus infection was observed but a recombinant of CpGV-M containing the pe38 gene of CpGV-S caused high mortality. The results indicated that beyond the known pe38 related mechanism of type I resistance against CpGV-M, a second mechanism seemed to exist in type II resistance. With CpR5M and CpS budded viruses injections, circumventing initial midgut infection, gave furtherAdvisors/Committee Members: Jehle, Johannes A. (advisor), Thiel, Gerhard (advisor).