Greenhouse Evaluation of Dose– and Time–Mortality Relationships of Two Nucleopolyhedroviruses for the Control of Beet Armyworm, Spodoptera exigua, on Chrysanthemum

Dose– and time–mortality relationships of baculoviruses in pest insects are important for the determination of effective spraying regimes. A series of experiments with Autographa californica multicapsid nucleopolyhedrovirus (AcMNPV) and Spodoptera exigua MNPV (SeMNPV) against synchronized populations of S. exigua larvae in greenhouse chrysanthemum was conducted. Dose– and time–mortality relationships of different virus concentrations and S. exigua target stages were determined and the area foliage consumption was measured. Crop injury was greatly reduced when S. exigua were controlled as second or third instar larvae, whereas virus applications against fourth instar larvae could not prevent considerable crop injury, even at high concentrations. SeMNPV was approximately 10 times as infectious as AcMNPV when applied on greenhouse chrysanthemum. The relative virulence of AcMNPV and SeMNPV corresponded reasonably well with previously published laboratory bioassay data. SeMNPV killed second and fourth instar S. exigua larvae approximately 12 h faster than did AcMNPV in chrysanthemum, but no difference in speed of action was found for third instar larvae. The relative speed of action of AcMNPV and SeMNPV determined in chrysanthemum and in laboratory bioassays did not correspond for third instar S. exigua larvae; laboratory bioassay data can therefore not simply be extrapolated to the crop level.     

Functional Expression of Dipeptidyl Peptidase I (Cathepsin C) of the Oriental Blood Fluke Schistosoma japonicum in Trichoplusia ni Insect Cells

Proenzyme dipeptidyl peptidase I (DPP I) of Schistosoma japonicum was expressed in a baculovirus expression system utilizing Trichoplusia ni BTI-5B1-4 (High Five) strain host insect cells. The recombinant enzyme was purified from cell culture supernatants by affinity chromatography on nickel–nitriloacetic acid resin, exploiting a polyhistidine tag fused to the COOH-terminus of the recombinant protease. The purified recombinant enzyme resolved in reducing SDS–PAGE gels as three forms, of 55, 39, and 38 kDa, all of which were reactive with antiserum raised against bacterially expressed S. japonicum DPP I. NH₂-terminal sequence analysis of the 55-kDa polypeptide revealed that it corresponded to residues −180 to −175, NH₂-SRXKXK, of the proregion peptide of S. japonicum DPP I. The 39- and 38-kDa polypeptides shared the NH₂-terminal sequence, LDXNQLY, corresponding to residues −73 to −67 of the proregion peptide and thus were generated by removal of 126 residues from the NH₂-terminus of the proenzyme. Following activation for 24 h at pH 7.0, 37°C under reducing conditions, the recombinant enzyme exhibited exopeptidase activity against synthetic peptidyl substrates diagnostic of DPP I. Specificity constants (k_cat/K_m) for the recombinant protease for the substrates H-Gly-Arg-NHMec and H-Gly-Phe-NHMec were found to be 14.4 and 10.7 mM⁻1 s⁻¹, respectively, at pH 7.0. Approximately 1 mg of affinity-purified schistosome DPP I was obtained per liter of insect cell culture supernatant, representing 2 × 10⁹ High Five cells.     

The role of juvenile hormone esterase in terminating larval feeding and initiating metamorphic development in Trichoplusia ni

This study shows, first, that when JH degradation by JHE is blocked with an inhibitor (EPPAT, O-ethyl-S-phenyl-phosphoramidothiolate), prothoracicotropic/ecdysone release/effects are postponed in the cabbage looper Trichoplusia ni (Hübner) (Noctuidae). Thus, JHE is an important component of JH degradation, implying that without normal degradation the JH titer will become abnormally high. Second, this accumulation of endogenous JH in EPPAT treated larvae results in an extra larval molt. Therefore, JHE is also important in the control of the nature of the molt, by controlling the JH titer. Third, this study demonstrates that EPPAT at proper doses is a viable probe for studying enzyme and hormone action in vivo without pharmacological artifacts.

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Résumé Cette étude indique d'abord que, lorsque la dégradation de l'hormone juvénile (JH) par la JHE est bloquée par un inhibiteur (EPPAT, O-éthyl-S-phényl-phosphoramidothiolate) les effets prothoracicotropiques—libération d'ecdysone—sont retardés chez Trichoplusia ni Hübner. Ainsi, la JHE est un élément important de la dégradation de JH, impliquant que sans une dégradation régulière, la teneur en JH deviendra anormalement élevée. Cette accumulation d'hormone juvénile endogène chez les larves traitées à l'EPPAT provoque de plus une mue larvaire supplémentaire. Par conséquent, JHE est importante aussi dans le contrôle de la nature de la mue, en déterminant la teneur en JH. Enfin, cette étude a montré que l'EPPAT à des doses appropriées est un moyen efficace pur étudier l'action hormonale in vivo sans artéfacts pharmaceutiques.

     

Midgut cysteine protease-inhibiting activity in Trichoplusia ni protects the peritrophic membrane from degradation by plant cysteine proteases

The action of plant cysteine proteases on the midgut peritrophic membrane (PM) of a polyphagous herbivorous lepidopteran, Trichoplusia ni, was studied. Proteins in PMs isolated from T. ni larvae were confirmed to be highly resistant to the serine proteinases trypsin and chymotrypsin, but were susceptible to degradation by plant cysteine proteases, which is consistent with the known molecular and biochemical characteristics of the T. ni PM proteins. However, the PM proteins were not degraded by plant cysteine proteases in larvae or in the presence of larval midgut fluid in vitro. With further biochemical analysis, cysteine protease-inhibiting activity was identified in the midgut fluid of T. ni larvae. The cysteine protease-inhibiting activity was heat resistant and active in the tested pH range from 6.0 to 10.0, but could be suppressed by thiol reducing reagents or reduced by treatment with catalase. In addition to T. ni, cysteine protease-inhibiting activity was also identified from two other polyphagous Lepidoptera species, Helicoverpa zea and Heliothis virescens. In conclusion, results from this study uncovered that herbivorous insects may counteract the attack of plant cysteine proteases on the PM by inhibiting the potentially insecticidal cysteine proteases from plants in the digestive tract. However, the biochemical identity of the cysteine protease-inhibiting activity in midgut fluid has yet to be identified.     

Effect of dietary selenium supplementation on resistance to baculovirus infection

We have examined the effects of dietary selenium (Se) supplementation on larval growth and immunocompetence of the lepidopteran pest, the cabbage looper, Trichoplusia ni. Supplementation of the diet of T. ni larvae with 10–20 ppm Se resulted in a 1 day delay in pupation. The effects of the addition and/or removal of dietary Se on total Se bioaccumulation and sequestration were determined by neutron activation analysis of pupae. Early penultimate instar larvae moved from selenium containing diet to basal diet lost total pupal Se content down to the level of those fed basal diet. Conversely, larvae moved from basal diet to diet containing additional Se rapidly attained pupal Se levels comparable to larvae fed Se throughout larval development. Therefore, dietary Se is rapidly accumulated or lost during larval development, but significant amounts are sequestered from diet into pupae. Larvae were reared on diet supplemented with 5 or 10 ppm Se until the onset of the penultimate instar then infected per os with increasing concentrations of the fatal baculovirus Autographa californica multiple nucleopolyhedrovirus (AcMNPV). Larvae fed Se in the penultimate and ultimate instars were more resistant to viral infection than larvae not fed Se in the final instars. This study indicates that dietary Se levels rapidly impact Se assimilation and sequestration and that tissue Se levels are an important factor in resistance to AcMNPV infection in larval T. ni.     

Signal Sequence and Promoter Effects on the Efficacy of Toxin-Expressing Baculoviruses as Biopesticides

Baculovirus recombinants expressing a neurotoxin gene,tox34,from the straw itch mitePyemotes triticihave been previously shown to paralyze or kill insects approximately 50% faster than wild-type. We constructed a series of recombinants of the baculovirusAutographa californicanucleopolyhedrovirus which expressedtox34with different signal sequences or were controlled by different promoters to evaluate their influence on toxin expression in cell culture and in insects. Heterologous signal sequences provided no significant increase in the overall levels of the maturetox34gene product, Tox34, secreted into the tissue culture media from infected cells and no improvement in the time required for paralysis of insect hosts. The time required for paralysis was promoter-dependent; the late 6.9K DNA binding protein gene promoter was generally the most effective promoter, although an insect HSP70 promoter was equally or more effective in one of the species.     

Baculovirus-mediated Expression of a Gene for Trehalase of the Mealworm Beetle, Tenebrio molitor, in Insect Cells, SF-9, and Larvae of the Cabbage Armyworm, Mamestra brassicae

It is of interest to understand what kinds of physiological and biochemical changes occur in insects if the homeostasis of trehalose in the hemolymph is disrupted by the infection with a recombinant baculovirus containing a secretory-trehalase gene. For this purpose, two recombinant non-occluded Autographa california multicapsid nucleopolyhedroviruses (AcMNPVs), vTREVL and vERTVL, containing a trehalase cDNA of the mealworm beetle, Tenebrio molitor, were constructed. The trehalase cDNA was inserted in the sense orientation downstream of the polyhedrin promoter for vTREVL, and in the anitsense orientation for vERTVL. The active trehelase of T. molitor was found outside of cells when SF-9 cells or larvae of the cabbage armyworm, Mamestra brassicae, were infected with vTREVL. In the hemolymph of vTREVL-infected larvae, expression of the active trehelase was followed by disappearance of trehalose and appearance of glucose. However, the mortality time of virus-infected 5th instar larvae increased in the following order: AcMNPV C6 (wild-type virus) ≤ vERTVL < vTREVL. The symptoms (the browning and liquefying of the host body) of NPV infection were moderated considerably in vTREVL-infected larvae.     

Persistence and Effects of Parasitic Genotypes in a Mixed Population of the Spodoptera exigua Nucleopolyhedrovirus

Spod-X, a commercialized bioinsecticide for the control of the pest Spodoptera exigua, is based on a nucleopolyhedrovirus (NPV) of S. exigua (SeMNPV) isolated in Florida (US2wt). This field isolate is made up of at least seven genotypic variants, of which two (US2C and US2E) have defective genomes and act as parasites, reducing the pathogenicity of the viral population. Upon co-infection of US2wt and a Spanish field isolate of the same virus (SP2wt), persistence of the defective variants (US2C, US2E) in the viral progeny was observed. This persistence diluted the presence of intact, self-infectious genotypes in the progeny, decreasing the pathogenicity of these viral inocula. Further passages of viral occlusion bodies produced after the co-infection revealed that the parasite US2C continued replicating and constituted up to 30% of the viral progeny in some samples. In addition, the presence of US2C within SP2wt significantly decreased the pathogenicity of contaminated inocula by 3.6-fold. The use of foreign virus field isolates containing defective genomes and their possible impact on the biological activity of native NPV populations may be a cause for concern where these viruses are used as agents for biological control.     

The establishment of new cell lines from Pseudaletia unipuncta with differential responses to baculovirus infection

Summary Six insect cell lines from Pseudaletia unipuncta embryos were established and characterized, and their susceptibility to Autographa californica multiple nuclear polyhedrosis virus (AcMNPV) infection was investigated. These embryonic P. unipuncta cell lines had characteristics distinct from each other in morphology and growth, and showed differential responses to AcMNPV infection. Among the six cell lines, two were highly susceptible to virus infection. One of these two cell lines, BTI-Pu-A7S, produced over 100 AcMNPV occlusion bodies per cell, on average. Three cell lines showed an apoptotic response following AcMNPV infection. One cell line did not support complete virus replication through the late phase of virus growth and did not exhibit apoptosis. The P. unipuncta cell lines could be distinguished from SF21 and BTI-Tn-5B1-4 cells by their isozyme markers.     

Comparison of oligosaccharide processing among various insect cell lines expressing a secreted glycoprotein

Summary The processing of the N-linked oligosaccharide modifying a secreted alkaline phosphatase glycoprotein (SEAP) expressed with a recombinantAutographa californica nuclear polyhedrosis virus was evaluated in insect cell lines established fromSpodoptera frugiperda, Trichoplusia ni, andMamestra brassicae. Studies with Endoglycosidase H (Endo H), which removes high-mannose oligosaccharides, revealed that 79% of the intracellular SEAP produced in theM. brassicae-derived MB0503 cell line was Endo H resistant. The commonly usedS. frugiperda Sf21 and Sf9 cell lines produced 44 and 21% Endo H-resistant intracellular SEAP, respectively. Detection of oligosaccharide moieties with lectins, which selectively recognize terminal sugars, identified only mannose residues on SEAP expressed in the six insect cell lines. However, the oligosaccharide moiety of SEAP expressed in a Chinese hamster ovary cell line contained sialic acid. Therefore, when expressed in mammalian cells, the oligosaccharide present on SEAP is processed into complex oligosaccharide, but in insect cells it is of the high-mannose type. Studies with inhibitors of the initial oligosaccharide processing steps demonstrated that all six cell lines possessed glycosidase I/II and mannosidase I activity and that glycosylation was required for secretion.     

Tissue specificity of a baculovirus-expressed, basement membrane-degrading protease in larvae of Heliothis virescens

ScathL is a cathepsin L-like cysteine protease from the flesh fly, Sarcophaga peregrina, which digests components of the basement membrane during insect metamorphosis. A recombinant baculovirus (AcMLF9.ScathL) expressing ScathL kills larvae of the tobacco budworm Heliothis virescens significantly faster than the wild type virus and triggers melanization and tissue fragmentation shortly before death. The tissue fragmentation was assumed to be a direct consequence of basement membrane degradation by ScathL. The goal of this study was to investigate the tissue specificity of ScathL when expressed by AcMLF9.ScathL using light, transmission and scanning electron microscopy. Baculovirus expression of ScathL resulted in damage to the basement membrane overlying the midgut, fat body and muscle fibers in larvae infected with AcMLF9.ScathL, but not in larvae infected with the control virus AcMLF9.ScathL.C146A or wild type virus AcMNPV C6. Injection of recombinant ScathL and high levels of baculovirus-mediated expression of ScathL resulted in complete loss of the gut. Extensive damage to the basement membrane mediated by ScathL likely resulted in loss of viability of the underlying tissue and subsequent death of the insect. These results confirm the conclusion of an earlier study (Philip, J.M.D., Fitches, E., Harrison, R.L., Bonning, B.C., Gatehouse, J.A., 2007. Characterisation of functional and insecticidal properties of a recombinant cathepsin L-like proteinase from flesh fly (Sarcophaga peregrina), which plays a role in differentiation of imaginal discs. Insect Biochem. Mol. Biol. 37, 589-600) of the remarkable specificity of this protease.     

Resistance to Spodoptera exigua in Apium prostratum

Two Apium accessions were compared with the commercial cultivar Tall Utah 52–70R (A. graveolens [L.]) for resistance to Spodoptera exigua (Hübner)(Lepidoptera: Noctuidae). Oviposition rate was not significantly different between the three genotypes. In all accessions, eggs were usually placed on the upper half of the plants. Implications of this oviposition pattern on S. exigua management in celery are discussed. The wild species A. prostratum ssp prostratum var filiform (A230) showed a significantly higher resistance to S. exigua than 52–70R. The levels of carcinogenic and mutagenic linear furanocoumarins in the commercial cultivar 52–70R (1.41 g/g in the petioles; 5.85 g/g in the leaves) and in the plant accession A. nodiflorum (5.40 g/g in the petioles; 2.99 g/g in the leaves) were far below the concentration reported to produce acute contact dermatitis (18.0 g/g). The levels of furanocoumarins in A. prostratum petioles (186.14 g/g) and leaves (326.45 g/g) were 10 and 18 times higher, respectively, than the concentration known to cause contact dermatitis. However, resistance in A. prostratum was primarily due to non-preference and the linear furanocoumarins did not induce non-preference. Therefore, the resistance shown by this plant accession does not appear to be furanocoumarin-based and may be suitable for transfer to commercial celery for use in S. exigua management.     

Comparative recombinant protein production of eight insect cell lines

Summary A recombinantAutographa californica baculovirus expressing secreted alkaline phosphatase (SEAP) gene was used to evaluate the expression of a secreted glycoprotein in eight insect cell lines derived fromSpodoptera frugiperda, Trichoplusia ni, Mamestra brassicae andEstigmene acrea. Because cell density was found to influence protein production, SEAP production was evaluated at optimal cell densities for each cell line on both a per cell and per milliliter basis. On a per cell basis, theT. ni-derived BTI-TN-5B1-4 cells produced a minimum of 20-fold more SEAP than theS. frugiperda-derived Sf9 or Sf21 cell lines and a minimum of 9-fold more than any of the other cell lines growing in serum-containing medium. On a per milliliter basis, BTI-TN-5B1-4 cells produced a minimum of fivefold more SEAP than any of the other cell lines tested. Using cell lines that were adapted to serum-free medium, SEAP yields were the same or better than their counterparts in serum-containing medium. At 3 days postinoculation, extracellular SEAP activity ranged from 59 to 85% of total SEAP activity with cell lines grown in serum-free and serum-containing media.     

Parasitoid–Pathogen–Pest Interactions of Chelonus insularis, Campoletis sonorensis, and a Nucleopolyhedrovirus in Spodoptera frugiperda Larvae

In this study we examined interactions between two solitary endoparasitoids, the braconid Chelonus insularis and the ichneumonid Campoletis sonorensis, and a multiple-enveloped nucleopolyhedrovirus infecting Spodoptera frugiperda larvae. We examined whether ovipositing females minimize interference by discriminating amongst hosts and examined the outcome of within-host competition between parasitoid species and between the parasitoids and the virus. The egg–larval parasitoid Ch. insularis did not discriminate between virus-contaminated and uncontaminated S. frugiperda eggs; all S. frugiperda larvae that emerged from surface-contaminated eggs died of viral infection prior to parasitoid emergence. The larval parasitoid C. sonorensis also failed to discriminate between healthy and virus-infected S. frugiperda larvae or between larvae unparasitized or parasitized by Ch. insularis. Host larvae parasitized in the egg stage by Ch. insularis were suitable for the development of C. sonorensis when they were multiparasitized by C. sonorensis as first, second, third, and fourth instars, whereas emergence of Ch. insularis was dramatically reduced (by 85 to 100%) in multiparasitized hosts. Nonspecific host mortality was significantly higher in multiparasitized hosts than in singly parasitized hosts. The development time and sex ratio of C. sonorensis in multiparasitized host larvae were unaffected by the presence of Ch. insularis larval stages. Both Ch. insularis parasitized and nonparasitized larvae of the same instar (second, third, or fourth instars) had a similar quantitative response to a challenge of virus inoculum. All host larvae that ingested a lethal dose of virus were unsuitable for Ch. insularis development. In contrast, C. sonorensis did not survive in hosts that ingested a lethal virus dose immediately after parasitism, but parasitoid survival was possible with a 2-day delay between parasitism and viral infection and the percentage of parasitoid emergence increased significantly as the interval between parasitism and viral infection increased. The development time of C. sonorensis was significantly reduced in virus-infected hosts compared to conspecifics that developed in healthy hosts. C. sonorensis females that oviposited in virus-infected hosts did not transmit the virus to healthy hosts that were parasitized subsequently. Field applications of virus for biocontrol of S. frugiperda may lead to substantial mortality of immature parasitoids, although field experiments have not yet demonstrated such an effect.     

Resistance in the wild crop relatives Avena macrostachya and Hordeum bogdani to the aphid Rhopalosiphum padi

In previous screening tests the two wild crop relatives Avena macrostachya (Bal., ex Coss. et Dur.) and Hordeum bogdani (Wil.) demonstrated a high degree of resistance to the aphid Rhopalosiphum padi (L.). In a choice situation using wild and cultivated oats and barley, alate aphids settled in lower numbers on the wild species. The results were, however, variable in the Avena combination. Nymph production was significantly higher, development time shorter and adult weight higher on the cultivated varieties. From the third instar and onwards the excretion of honeydew was significantly lower on the resistant plants. In general the honeydew contained less than 1% free amino acids although excreta from H. vulgare contained 3.5%. The percentage of free amino acids found in the honeydew was similar for all plant species (5.2–7.6%) except for H. vulgare, on which the aphids excreted 22% of the amounts ingested. Amino acids excreted in high proportions on all plants included asparagine, -aminobutyric acid, glutamic acid, and glycine. Tissue sectioning did not reveal any obvious mechanical barriers to stylet penetration. The potential use of these wild species as sources for aphid resistance breeding in oats and barley is considered.

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Résumè Lors d'examens systématiques antérieurs, Avena macrostachya (Bal. ex Coss. & Dur.) et Hordeum bogdani (Wil.) ont présenté une résistance élevée au puceron Rhopalosiphum padi (L.). Lorsqu'ils avaient un choix comprenant de l'avoine et de l'orge cultivés, les pucerons ailés ont atterri en nombres moins importants sur les espèces sauvages. Les résultats étaient cependant variables dans le complexe avoine. La production de nymphes et le poids des adultes étaient plus élevés sur espèces cultivées, ainsi que la durée du développement était plus longue sur les espèces sauvages. A partir du troisième stade, l'excrétion de miellat a été significativement plus faible sur les espèces résistantes. En général, le miellat y contenait moins de 1% d'acides aminés bien que sur H. vulgare il en contînt 3,5%. Les pourcentages d'acides aminés libres du miellat étaient semblables sur toutes les plantes (5,2–7,6%), à l'exception de H. vulgare sur lequel les pucerons excrétaient 22% des taux ingérés. Les acides aminés excrétés en fortes quantités sur les différentes plantes, comprenaient l'asparagine, l'acide -aminobutyrique, l'acide glutamique et la glycine. Des coupes de tissus n'ont révélé aucun obstacle mécanique clair à la pénétration des stylets. Les possibilités d'utiliser ces espèces sauvages comme source de résistance aux pucerons dans la sélection de l'avoine et de l'orge ont été examinées.

     

Intrastadial developmental resistance of third instar gypsy moths (Lymantria dispar L.) to L. dispar nucleopolyhedrovirus

Gypsy moth larvae become increasingly resistant to lethal infection by the Lymantria dispar M nucleopolyhedrovirus (LdMNPV) as they age within the fourth instar. Newly molted larvae are most sensitive to infection, mid-instars are least sensitive, and late-instars display intermediate sensitivity. This resistance occurs whether the virus is delivered orally or intrahemocoelically. The present study reveals a nearly identical pattern of resistance in third instar larvae. An LD₄₈ dose of polyhedra for newly molted third instars produced 18%, 10%, 8%, 25%, and 24% mortalities in larvae to which virus was orally administered at 12, 24, 48, 72, and 96 hours post-molt (hpm), respectively, which is a 6-fold reduction in mortality between newly molted larvae and mid-instars. An LD₄₄ dose of budded virus for newly molted third instars produced 33%, 23%, 17%, 31%, and 31% mortalities when injected into larvae that were 12, 24, 48, 72, and 96 hpm, respectively, which is a 2.6-fold reduction in mortality between newly molted larvae and mid-instars, indicating that approximately half of this resistance is midgut-based and half is systemically based. Doubling the viral dose did not overcome developmental resistance whether the virus was delivered orally or intrahemocoelically. In addition, time to death was significantly affected by the time post-molt at which the insect was inoculated with the virus. We suggest that intrastadial developmental resistance may affect both the ecology and management of the gypsy moth.     

Improving baculovirus resistance to UV inactivation: increased virulence resulting from expression of a DNA repair enzyme

The use of baculoviruses as biological control agents is hampered by their susceptibility to inactivation by ultraviolet (UV) light. In an attempt to reduce UV inactivation, an algal virus pyrimidine dimer-specific glycosylase, cv-PDG, was expressed in the baculovirus Autographa californica M nucleopolyhedrovirus (AcMNPV), and the infectivity of recombinant viruses expressing cv-PDG was measured after exposure to UV light. Expression of cv-PDG resulted in a 3-fold decrease in inactivation of budded virus by UV as measured by plaque assay in Spodoptera frugiperda Sf21 cells. However, occluded viruses expressing cv-PDG were not more resistant to UV inactivation than wild type AcMNPV when fed to either S. frugiperda or Trichoplusia ni neonate larvae. Surprisingly, however, viruses expressing cv-PDG showed a significant decrease in both the dose of occluded virus required for oral lethality and the time required for lethality compared to control virus, but these effects were only seen in S. frugiperda and not in T. ni larvae.     

Resistance in tomato to Xanthomonas campestris pv vesicatoria is determined by alleles of the pepper-specific avirulence gene avrBs3

Bacterial spot disease of tomato and pepper caused by Xanthomonas campestris pv vesicatoria is prevented by resistance genes in the plant that match genes for avirulence in the bacterium. Based on DNA homology to the avirulence gene avrBs3, which induces the resistance response on pepper, we have isolated another avirulence gene from X. c. vesicatoria, designated avrBs3-2. This gene differs in specificity from avrBs3 in inducing the hypersensitive response on tomato but not on pepper. Sequence analysis of the avrBs3-2 gene revealed a high degree of conservation: the 3480 by open reading frame contains an internal region of 17.5 nearly identical 102 bp repeat units that differ in their order from those present in the avrBs3 gene. The coding region is 97% identical to avrBs3 and expresses constitutively a 122 kDa protein, thus representing a natural allele of this gene. The previously isolated 1.7 kb avrBsP gene from X. c. vesicatoria is 100% identical to the corresponding avrBs3-2 sequence, indicating that these genes might be identical. Interestingly, derivatives of avrBs3-2 lacking the C-terminal region and part of the repetitive region are still able to confer incompatibility in tomato. The avrBs3-2 gene is compared with the sequence of avrBs3 derivatives generated by deletion of repeat units that also have avirulence activity on tomato. Both genes, avrBs3 and avrBs3-2, are flanked by a 62 by long inverted repeat, which prompts speculations about the origin of the members of the avrBs3 gene family.     

Plasmodium berghei K173: Selection of resistance to naphthoquine in a mouse model

Naphthoquine (NQ), as a component of ARCO® which composed of NQ and artemisinin, is a new 4-aminoquinoline antimalarial synthesized by our institute. Here, a naphthoquine-resistant line of rodent malaria parasite was selected through exposing Plasmodium berghei Keyberg 173 strain to progressively increased drug pressure. The selected strain showed a more than 200-fold decreased susceptibility to NQ with a stable resistance phenotype after 10 serial passages without drug pressure or when cryopreserved over a period of 12 months. In a cross-resistance assay, the susceptibility of NQ-resistant parasites to chloroquine was decreased by 14.5-fold. These findings imply NQ-resistant parasites might be selected by long-term usage of NQ in epidemic areas and the efficacy of NQ or ARCO® in chloroquine-resistant Plasmodium falciparum epidemic areas should be monitored closely.