Dionisio López-Abella

Structural Analysis of Tobacco Etch Potyvirus HC-Pro Oligomers Involved in Aphid Transmission

ABSTRACT Oligomeric forms of the HC-Pro protein of the tobacco etch potyvirus (TEV) have been analyzed by analytical ultracentrifugation and single-particle electron microscopy combined with three-dimensional (3D) reconstruction. Highly purified HC-Pro protein was obtained from plants infected with TEV by using a modified version of the virus that incorporates a histidine tag at the HC-Pro N terminus (hisHC-Pro). The purified protein retained a high biological activity in solution when tested for aphid transmission. Sedimentation equilibrium showed that the hisHC-Pro preparations were heterogenous in size. Sedimentation velocity confirmed the previous observation and revealed that the active protein solution contained several sedimenting species compatible with dimers, tetramers, hexamers, and octamers of the protein. Electron microscopy fields of purified protein showed particles of different sizes and shapes. The reconstructed 3D structures suggested that the observed particles could correspond to dimeric, tetrameric, and hexameric forms of the protein. A model of the interactions required for oligomerization of the HC-Pro of potyviruses is proposed.

Transmission by aphids of a naturally non-transmissible plum pox virus isolate with the aid of potato virus Y helper component.

Two Spanish plum pox virus (PPV) isolates, 5.15 and 3.3, were used in transmission experiments involving the aphid vector Myzus persicae, with woody and herbaceous host plants. These isolates differ in the size of their coat protein (CP) and sequence analysis revealed that isolate 3.3 has a 15 amino acid deletion near the N terminus of the CP, affecting the same positions as in a previously reported non-aphid-transmissible PPV isolate from Germany. Aphid transmission experiments showed that isolate 5.15 was transmitted from infected plants whereas isolate 3.3 was not. In contrast, both isolates were readily aphid-transmitted when acquired through artificial membranes from purified virus preparations supplemented with purified helper component (HC) obtained from potato virus Y-infected plants. This indicates that non-transmissibility of isolate 3.3 may be due to a defect in the HC rather than in the CP.

Detection of cauliflower mosaic virus (CaMV) in single aphids by the polymerase chain reaction (PCR)

The detection for the first time of a plant virus in a single aphid by the high sensitivity polymerase chain reaction (PCR) technology is reported. The application of PCR for the detection of viruses in their vectors will aid the understanding of the complex virus-vector relationship and therefore allow the development of new approaches for control of spread of plant virus diseases.

Comparison ofPotato Virus Y andPlum Pox Virus transmission by two aphid species in relation to their probing behavior

Two different aphid species,Myzus persicae (Sulzer) andHyalopterus pruni (Geoffroy) (Homoptera: Aphididae), were used to analyze their ability to transmit two different potyviruses,Potato virus Y (PVY) andPlum pox virus (PPV), to pepper (Capsicum annuum) andNicotiana benthamiana plants, respectively. In parallel experiments,M. persicae consistently transmitted both viruses with high efficiency, whereasH. pruni always failed to transmit either virus. This is in contrast to previous reports describingH. pruni as a vector of these potyviruses. Different aphid probing behavior among individual aphids of each species was obtained in electrical penetration graph (EPG) experiments performed on pepper plants. This suggested thatH. pruni did not transmit these potyviruses due to behavioral differences during probing that impeded virus acquisition and/or inoculation. It was found thatM. persicae usually makes its first probe within the first 2 min, whereasH. pruni individuals remained for more than 10 min on the plant before starting to probe. Furthermore,M. persicae individuals displayed their first intracellular puncture during the first minute of probing whereasH. pruni needed ∼ 15 min to penetrate the cell plasmalemma with their stylets. In addition, intracellular stylet punctures occurred very frequently forM. persicae but was a rare event, never exceeding a single one, forH. pruni. The relevance of these findings for the epidemiological spread of potyviruses by different aphid species is discussed.

Development and use of detection methods specific for Cucumber vein yellowing virus (CVYV)

Two methods for the detection of Cucumber vein yellowing virus (CVYV) on infected plants were developed, based on the information provided by cDNA clones covering the 3′-end of the genome of a Spanish isolate (CVYV-AILM). The sequenced portion of the CVYV-AILM genome showed a 96.6% aminoacid identity with that of a reported sequence of another CVYV isolate from Israel (Lecoq et al., 2000). The first detection method used a RNA specific probe for hybridization with nucleic acids extracted from infected plants. The probe was complementary to a portion of the CVYV genome including the C-terminal part of the NIb and most of the coat protein (CP) coding regions. The second detection method employed polyclonal antisera raised against recombinant viral CP expressed in bacteria. The specific antibodies were used to detect the presence of virus particles in plant extracts. Both procedures resulted in a highly specific detection of CVYV in plants infected with different isolates of the virus. No interference was observed with other cucurbit-infecting viruses. Sensitivities achieved were sufficient for routine diagnosis of the presence of the virus in plants.

Integrated Management Of Insect Borne Viruses By Means Of Transmission Interference As An Alternative To Pesticides

Viruses are important plant pathogens responsible of yield and quality losses in many crops. Most plant viruses are spread in nature surpassing plant defence barriers with the help of vector organisms, mainly insects. The application of pesticides is an insufficient strategy to stop virus dissemination and, in turn, it can cause important environmental damages. As a consequence, an active area of research is currently devoted to explore alternatives to the abuse of pesticides including, for instance, attempts to unravel the molecular mechanisms operating during insect transmission of plant viruses. All these efforts are aimed to design strategies of interference with the transmission process, which will eventually become part of Integrated Disease Management programmes for the control of virus pathogens. The present chapter reviews the available and potential means to interfere with transmission, and the prospects of such strategies.

Serological characterization of Hungarian plum pox virus isolates.

Abstract Three Hungarian (No.2, 4 and 9), and a Moldavian (K) plum pox virus isolates were compared with a characterized Spanish isolate (5.15) by RT-PCR, ELISA, dot-blot and Western blot analysis. Monoclonal antibodies prepared against the external, intermediate and internal sequences of the coat protein of the Spanish isolate were able to differentiate the four isolates. Hungarian isolate No. 2 proved to be serologically identical to the Spanish isolate, while No. 4 showed appreciable differences and No. 9 could be recognized only by the monoclonal antibodies representing the intermedial and internal parts of the coat protein. K isolate showed a more distant relationship to other isolates. Our experiment provided the first demonstration of the presence of D type isolates in Hungary.