Plant-mediated RNAi of a gap gene-enhanced tobacco tolerance against the Myzus persicae

Plant-mediated RNAi has been developed as a powerful weapon in the fight against agricultural insect pests. The gap gene hunchback (hb) is of crucial importance in insect axial patterning and knockdown of hb is deforming and lethal to the next generation. The peach potato aphid, Myzus persicae (Sulzer), has many host plants and can be found throughout the world. To investigate the effect of plant-mediated RNAi on control of this insect, the hb gene in M. persicae was cloned, plant RNAi vector was constructed, and transgenic tobacco expressing Mphb dsRNA was developed. Transgenic tobacco had a different integration pattern of the transgene. Bioassays were performed by applying neonate aphids to homozygous transgenic plants in the T2 generation. Results revealed that continuous feeding of transgenic diet reduced Mphb mRNA level in the fed aphids and inhibited insect reproduction, indicating successful knockdown of the target gene in M. persicae by plant-mediated RNAi.     

Transformation of Tobacco with Genes Encoding Helianthus Tuberosus Agglutinin (HTA) Confers Resistance to Peach-Potato Aphid (Myzus persicae)

The effects of the hta gene encoding Helianthus tuberosus agglutinin (HTA) on an insect in the order Homoptera were investigated. Homologous cDNAs of hta-a, hta-b, hta-c and hta-d with CaMV35S as promoter were introduced into tobacco via Agrobacterium tumefaciens. Southern blot results showed that the exogenous hta gene was inserted into the genome of host plants, and northern blot analysis confirmed that hta was expressed in transgenic plants. A bioassay with peach-potato aphid (Myzus persicae) demonstrated that transgenic plants had deleterious effects on the insect. The average population of aphids fed on transgenic T₀ plants during an 11-day assay decreased by 70%, compared controls. In transgenic plants of T₁ generation, aphid fecundity inhibitions were 53.0%(hta-b) and 64.6% (hta-c), respectively. The development of aphids was notably retarded. We conclude that hta could be a novel and promising candidate for plant transgenic engineering against homopteran insect pests.     

Partial purification and characterization of an extracellular protease from<Emphasis Type="Italic">Xenorhabdus nematophilus</Emphasis>, a symbiotic bacterium isolated from an entomopathogenic nematode,<Emphasis Type="Italic">Steinernema glaseri</Emphasis>

Entomopathogenic nematodes are used for insect control. Herein, an extracellular protease was partially purified from a culture supernatant ofXenorhabdus nematophilus, a symbiotic bacterium of an entomopathogenic nematode,Steinernema glaseri, using precipitation with 80% v/v isopropyl alcohol followed by gel permeation chromatography with a packed Sephacryl S-300 HR media. The partially purified protease exhibited maximal activity at pH 7 in the presence of 1 mM CaCl₂. The protease was identified as a metallo-protease based on the inhibition of its activity by the metal chelating agent, EDTA.     

Induction of aphid resistance in tobacco by the cucumber mosaic virus CMV∆2b mutant is jasmonate-dependent

Cucumber mosaic virus (CMV) is vectored by aphids, including Myzus persicae. Tobacco (Nicotiana tabacum ‘Xanthi’) plants infected with a mutant of the Fny strain of CMV (Fny-CMVΔ2b, which cannot express the CMV 2b protein) exhibit strong resistance against M. persicae, which is manifested by decreased survival and reproduction of aphids confined on the plants. Previously, we found that the Fny-CMV 1a replication protein elicits aphid resistance in plants infected with Fny-CMVΔ2b, whereas in plants infected with wild-type Fny-CMV this is counteracted by the CMV 2b protein, a counterdefence protein that, among other things, inhibits jasmonic acid (JA)-dependent immune signalling. We noted that in nontransformed cv. Petit Havana SR1 tobacco plants aphid resistance was not induced by Fny-CMVΔ2b, suggesting that not all tobacco varieties possess the factor(s) with which the 1a protein interacts. To determine if 1a protein-induced aphid resistance is JA-dependent in Xanthi tobacco, transgenic plants were made that expressed an RNA silencing construct to diminish expression of the JA co-receptor CORONATINE-INSENSITIVE 1. Fny-CMVΔ2b did not induce resistance to M. persicae in these transgenic plants. Thus, aphid resistance induction by the 1a protein requires JA-dependent defensive signalling, which is countered by the CMV 2b protein.     

Identification and Characterization of a Symbiotic Bacterium Associated with Steinernema carpocapsae in Korea

A symbiotic bacterium was identified from the entomopathogenic nematode, Steinernema carpocapsae, collected in Korea and its biological significance was examined for insecticidal and antibiotic effects. The symbiotic bacterium was isolated from the nematode-infected hemolymph of the fifth instar larvae of Spodoptera exigua. The intra-hemocoelic injection of the bacterial isolates killed the insect hosts within 24h. Several biochemical and morphological characters of the bacterium were identical to those of Xenorhabdus nematophilus. The bacterial growth was not inhibited on the media containing 4,000 ppm of streptomycin sulfate or 2,000 ppm of penicillin. They showed antibacterial effects on Escherichia coli, Ralstonia solanacearum and Pseudomonas aeruginosa, but not on Pseudomonas putida and Pseudomonas fluorescens.     

Expression of the <Emphasis Type="Italic">zga</Emphasis> agglutinin gene in tobacco can enhance its anti-pest ability for peach-potato aphid (<Emphasis Type="Italic">Myzus persica</Emphasis>)

The effect of introduction of the Zephyranthes grandiflora agglutinin gene (zga) to tobacco on its anti-pest ability for peach-potato aphids was investigated. PCR analysis confirmed that the zga gene was integrated into the plant genome. The results from semi-quantitative RT-PCR and real-time PCR assays revealed that the zga gene was expressed at various levels in the transgenic plants. A bioassay with aphids indicated that transgenic plants conferred enhanced resistance to aphids. Compared with the controls, the average number of aphids fed with transgenic plants during a 20-day assay evidently decreased by 70.4% in leaf disc bioassay and 77.9% in whole plant bioassay. The average number of nymph was significantly reduced by 36.4% on zga-expressing plants in leaf disc bioassay and 35.6% in whole plant bioassay. The report indicated that the introduction of zga gene to tobacco plants is a useful method to improve its anti-pest ability for aphids.     

Host Generated siRNAs Attenuate Expression of Serine Protease Gene in Myzus persicae

Background

Sap sucking hemipteran aphids damage diverse crop species. Although delivery of ds-RNA or siRNA through microinjection/feeding has been demonstrated, the efficacy of host-mediated delivery of aphid-specific dsRNA in developing aphid resistance has been far from being elucidated.

Methodology/Principal Findings

Transgenic Arabidopsis expressing ds-RNA of Myzus persicae serine protease (MySP) was developed that triggered the generation of corresponding siRNAs amenable for delivery to the feeding aphids. M. persicae when fed on the transgenic plants for different time intervals under controlled growth conditions resulted in a significant attenuation of the expression of MySP and a commensurate decline in gut protease activity. Although the survivability of these aphids was not affected, there was a noticeable decline in their fecundity resulting in a significant reduction in parthenogenetic population.

Conclusions/Significance

The study highlighted the feasibility of developing host based RNAi-mediated resistance against hemipteran pest aphids.     

Can plants use an entomopathogenic virus as a defense against herbivores?

It is by now well established that plants use various strategies to defend themselves against herbivores. Besides conventional weapons such as spines and stinging hairs and sophisticated chemical defenses, plants can also involve the enemies of the herbivores in their defense. It has been suggested that plants could even use entomopathogens as part of their defense strategies. In this paper, we show that Brassica oleraceae plants that are attacked by Myzus persicae aphids infected with an entomopathogenic parvovirus (M. persicae densovirus) transport the virus through the phloem locally and systematically. Moreover, healthy aphids that fed on the same leaf, but separated from infected aphids were infected via the plant. Hence, this is proof of the principle that plants can be vectors of an insect virus and can possibly use this virus as a defense against herbivores.     

Expression of snowdrop lectin in transgenic tobacco plants results in added protection against aphids

The range of sap-sucking insect pests to which GNA, (the mannose specific lectin from snowdrops (Galanthus nivalis) has been shown to be insecticidal in artificial diets has been extended to include the peach potato aphid (Myzus persicae). A gene construct for constitutive expression of GNA from the CaMV35S gene promoter has been introduced into tobacco plants. A transgenic tobacco line which expresses high levels of GNA has been shown to have enhanced resistance toM. persicae in leaf disc and whole plant bioassays,demonstrating the potential for extending transgenic plant technology to the control of sap-sucking insect pests.     

Use of the rice sucrose synthase-1 promoter to direct phloem-specific expression of {beta}-glucuronidase and snowdrop lectin genes in transgenic tobacco plants

The promoter region from the rice sucrose synthase-1 gene (RSs1)was fused with coding sequences for ß-glucuronidase(GUS) and snowdrop (Galanthus nivalis) lectin (GNA). Tobaccoplants were transformed with these chimaenc genes in order todetermine the expression pattern directed by the RSs1 promoter.Histochemical and immunochemical assays demonstrated that theexpression of both GUS and GNA was restricted to phloem tissue,and was not observed in any other tissues. This phloem-specificexpression pattern was consistent in stem, leaf and root, andin different transgenic plants. Chimaeric genes of RSs 1-GUSand RSs1 GNA were stably inherited in T1 plants. In addition,GNA was detected by immunological assay in the honeydew producedby peach potato aphids (Myzus persicae) feeding on RSs1-GNAtransgenic tobacco plants. This provided direct evidence thatGNA was not only expressed in the phloem tissue, but was alsopresent in the phloem sap of transgenic tobacco plants. TheRSs1 promoter can thus be used to direct expression of an insecticidalprotein, such as GNA, in transgenic plants to control phloemsap-feeding insect pests. Key words: Rice sucrose synthase-1 promoter, phloemspecific, transgenic plants, ß-glucuronidase, Galanthus nivalis agglutinin, gene expression     

Effect of insect host age and diet on the fitness of the entomopathogenic nematode-bacteria mutualism

Insect host age and diet were evaluated as potential factors that could affect the fitness of the entomopathogenic nematode-bacterium mutualistic partnership. Two nematode species were considered: Steinernema carpocapsae and Heterorhabditis sonorensis, together with their symbionts Xenorhabdus nematophila and Photorhabdus luminescens, respectively. The tobacco hornworm, Manduca sexta, was used as the insect host. Insect developmental stage was a factor that impacted nematode virulence. Non-wandering 5th instar M. sexta were found to be more susceptible to nematode infection compared to wandering 5th instars. This was more noticeable for S. carpocapsae than for H. sonorensis. The nutritional status of the host also had an effect on the fitness of the two nematode species tested. In general, insects fed with the reduced diet content were less susceptible to nematode parasitism. The least observed mortality (0.5 %) was in those M. sexta larvae exposed to the low H. sonorensis dose. Host diet also had an effect on the production of IJ progeny in the insect cadavers. For both nematode species tested, the highest yield of emerging IJs was observed from those insect hosts fed with the low nutrient diet and exposed to the highest nematode inoculum. However, for both nematode species tested, the nutritional status of the host did not significantly affect time of emergence of IJ progeny or the reassociation with their bacterial symbionts (expressed as cfu/IJ). This is the first study on the effect of insect host physiology on both EPN and their symbiotic bacteria fitness.     

Plant-Generated Artificial Small RNAs Mediated Aphid Resistance

Background

RNA silencing is an important mechanism for regulation of endogenous gene expression and defense against genomic intruders in plants. This natural defense system was adopted to generate virus-resistant plants even before the mechanism of RNA silencing was unveiled. With the clarification of that mechanism, transgenic antiviral plants were developed that expressed artificial virus-specific hairpin RNAs (hpRNAs) or microRNAs (amiRNAs) in host plants. Previous works also showed that plant-mediated RNA silencing technology could be a practical method for constructing insect-resistant plants by expressing hpRNAs targeting essential genes of insects.

Methodology/Principal findings

In this study, we chose aphid Myzus persicae of order Hemiptera as a target insect. To screen for aphid genes vulnerable to attack by plant-mediated RNA silencing to establish plant aphid resistance, we selected nine genes of M. persicae as silencing targets, and constructed their hpRNA-expressing vectors. For the acetylcholinesterase 2 coding gene (MpAChE2), two amiRNA-expressing vectors were also constructed. The vectors were transformed into tobacco plants (Nicotiana tabacum cv. Xanti). Insect challenge assays showed that most of the transgenic plants gained aphid resistance, among which those expressing hpRNAs targeting V-type proton ATPase subunit E-like (V-ATPaseE) or tubulin folding cofactor D (TBCD) genes displayed stronger aphicidal activity. The transgenic plants expressing amiRNAs targeting two different sites in the MpAChE2 gene exhibited better aphid resistance than the plants expressing MpAChE2-specific hpRNA.

Conclusions/Significance

Our results indicated that plant-mediated insect-RNA silencing might be an effective way to develop plants resistant to insects with piercing-sucking mouthparts, and both the selection of vulnerable target genes and the biogenetic type of the small RNAs were crucial for the effectiveness of aphid control. The expression of insect-specific amiRNA is a promising and preferable approach to engineer plants resistant to aphids and, possibly, to other plant-infesting insects.     

Overexpression of sense and antisense ced-9 in tobacco plants confers resistance to Meloidogyne incognita

Transgenic tobacco plants expressing the Caenorhabditis elegans programmed cell death gene ced-9, in both sense and antisense orientations, were produced using Agrobacterium tumefaciens-mediated transformation. The generated transgenic tobacco plants were tested for resistance to the root-knot nematode Meloidogyne incognita by measuring gall formation, size of galls generated, and the ability of juvenile-2 (J2) to hatch. Results showed that expression of ced-9 gene in either sense (ced-9F) or antisense (ced-9R) orientation in hemizygous transgenic tobacco plants induced prevention of M. incognita proliferation (as measured by gall number reduction) and J2 hatching. Furthermore, the results also showed that ced-9R in homozygous transgenic tobacco plants prevented J2 hatching, whereas ced-9F homozygous transgenic tobacco plants lost nematicidal function. Although our study demonstrates that expression of either ced-9R or ced-9F genes in tobacco plants significantly reduces infection by M. incognita, further investigation is required to understand the specific mechanisms involved for this control. It is possible that the nematode resistance seen with both sense (ced-9F) and antisense (ced-9R) sequences is the result of two independent mechanisms, one acting on invading nematodes and the other acting during embryogenesis of M. incognita, ultimately resulting in plant protection.     

Activity of promoters of carnation etched ring virus and dahlia mosaic virus in tobacco protoplasts and transgenic plants

Promoters of carnation etched ring virus (CERV) and dahlia mosaic virus (DMV) were cloned into binary vectors pCambia 1304, pCambia 1281Z, and pCambia 1291Z with reporter GFP and GUS genes. Activities of these promoters in tobacco protoplasts and transgenic plants were determined using these constructs. Histochemical GUS analysis demonstrated the absence of tissue-specificity in transgenic plants transformed with these promoters. The quantitative analysis of these promoter activities in transgenic tobacco plants, using 4-methylumbelliferone as a substrate, showed that 35S CaMV, CERV, and DMV promoters displayed approximately similar activities in transgenic tobacco plants.     

The bacterium associated with the entomopathogenic nematode Steinernema abbasi (Nematoda: Steinernematidae) isolated from Taiwan

A symbiotic bacterium of the entomopathogenic nematode, Steinernema abbasi, isolated from Taiwan, determined to be a species of Xenorhabdus based on its physiological and biochemical characteristics has been determined to be similar to Xenorhabdus indica of S. abbasi Oman isolate as based on sequence analyses of 16S rDNA.     

Comparative study of the entomopathogenic nematode, Steinernema carpocapsae, reared on mutant and wild-type Xenorhabdus nematophila

The symbiotic interaction between Steinernema carpocapsae and Xenorhabdus nematophila was investigated by comparing the reproduction, morphology, longevity, behavior, and efficacy of the infective juvenile (IJ) from nematodes reared on mutant or wild-type bacterium. Nematodes reared on the mutant X. nematophila HGB151, in which an insertion of the bacterial gene, rpoS, eliminates the retention of the bacterium in the intestinal vesicle of the nematode, produced IJs without their symbiotic bacterium. Nematodes reared on the wild-type bacterium (HGB007) produced IJs with their symbiotic bacterium. One or the other bacterial strain injected into Galleria mellonella larvae followed by exposing the larvae to IJs that were initially symbiotic bacterium free produced progeny IJs with or without their Xenorhabdus-symbiotic bacterium. The two bacterial strains were not significantly different in their effect on IJ production, sex ratio, or IJ morphology. IJ longevity in storage was not influenced by the presence or absence of the bacterial symbiont at 5 and 15 °C, but IJs without their bacterium had greater longevity than IJs with their bacterium at 25 and 30 °C, suggesting that there was a negative cost to the nematode for maintaining the bacterial symbiont at these temperatures. IJs with or without their symbiotic bacterium were equally infectious to Spodoptera exigua larvae in laboratory and greenhouse and across a range of soil moistures, but the absence of the bacterial symbiont inhibited nematodes from producing IJ progeny within the host cadavers. In some situations, such as where no establishment of an alien entomopathogenic nematode is desired in the environment, the use of S. carpocapsae IJs without their symbiotic bacterium may be used to control some soil insect pests.