Comparative assessment of the efficacy of entomopathogenic nematode species at reducing western corn rootworm larvae and root damage in maize

The western corn rootworm (Diabrotica virgifera virgifera LeConte, Coleoptera: Chrysomelidae) is an invasive maize (Zea mays L.) pest in Europe. Crop yield is significantly impacted by the feeding of all three larval instars on maize roots, making them prime targets for control measures. Therefore, the control efficacy of three entomopathogenic nematodes (EPNs), Steinernema feltiae (Filipjev), Heterorhabditis bacteriophora Poinar, and H. megidis Poinar, Jackson and Klein (Nematoda: Rhabditida), was studied in four field plot experiments in southern Hungary in 2005 and 2006. All EPN species significantly reduced D. v. virgifera independently, whether applied as a row spray with a solid stream into the soil at sowing or onto the soil along maize rows in June. When applied at maize sowing, H. bacteriophora was more effective at reducing D. v. virgifera (81%) than H. megidis (49%) and S. feltiae (36%). When applied in June, H. bacteriophora and H. megidis were more effective at reducing D. v. virgifera (around 70%) than S. feltiae (32%). All tested EPN species significantly reduced damage on maize roots independently, whether they were applied at sowing or in June. Damage, however, was not totally prevented. The use of H. bacteriophora for the development of a biological control product for inundative releases against D. v. virgifera larvae is suggested.     

The influence of weather on western corn rootworm flight activity at the borders of a soybean field in east central Illinois

The evolution of a new strain of western corn rootworm (WCR) beetle (Diabrotica virgifera virgifera) that has adapted to crop rotation by flying from host cornfields to nearby soybean fields to lay eggs is presenting new challenges to farmers in the U.S.A. Corn Belt. Development of effective management tools for the WCR that display this new behavior require knowledge of atmospheric factors that influence their interfield movement. In this study, WCR movement into a soybean field is related to solar radiation, wind speed and direction, air temperature, and precipitation with consideration of biological factors that also influence flight. WCR flight activity and meteorological variables were measured above the canopy of a 1.64 ha soybean field in east-central Illinois between late July and early September, 1997. On 14 days, insect traps were sampled at 30-min intervals. Interfield movement of WCR occurred over a wide range of solar irradiances, air temperatures, and wind speeds. Darkness, air temperatures below 15 °C or above 31 °C, and wind speeds in excess of 2.0 m s^{- 1} prohibited aerial movement of WCR. Within these limits, atmospheric factors had only little influence on the biologically-driven temporal patterns of seasonal and daily WCR flight activity. Atmospheric conditions were conducive to WCR flight 62% of the time during the growing season when WCR were active. Weather conditions substantially reduced interfield WCR movement throughout about one-third of the days when female WCR beetles were abundant at the study site in 1997.     

Suppression of larval Colorado potato beetle growth and development by digestive proteinase inhibitors

Evidence is presented that the Colorado potato beetle (CPB) (Leptinotarsa decemlineata (Say)) depends, at least partially, on cysteine proteinases for protein digestion. Midgut homogenates of CPB larvae have a mildly acidic pH and exhibit major proteolytic activity in the mildly acidic pH range. This proteolytic activity is activated by reducing agents, is inhibited by E-64 (a specific cysteine proteinase inhibitor), and is not inhibited by serine proteinase inhibitors. In addition, consumption of E-64 treated potato leaves by CPB larvae at rates as low as 0.8 g/cm² of leaf tissue has a deleterious effect on larval growth and development.

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Résumé Les protéinases intestinales des larves de Leptinotarsa decemlineata sont en partie caractérisées par les pH limitant leur activité, et par l'effet d'inhibiteurs de protéinases de spécificités connues. Les protéinases ont été testées avec la méthémoglobine tritiée comme substrat et nous avons déterminé les taux relatifs de peptides radioactives TCA solubles, libérées, dans des conditions précises, pour des pH compris entre 2,0 et 12,0. Le taux le plus élevé d'activité protéolytique a été observé pour des pH 5,0 à 6,0, bien qu'il y ait eu une activité appréciable aux pH 4,0 et 8,0. Parmi les inhibiteurs examinés, le E-64, inhibiteur protéinase cystéine très sélectif, a été le plus efficace sur l'activité protéinase. La pepstatine, inhibiteur protéinase aspartique, a été actif, mais seulement dans une gamme plus moin de pH. Les inhibiteurs protéinase sérine, ont été pratiquement inactifs sur l'activité protéinase.Chez des larves de doryphores nourries de feuilles de pommes de terre traitées avec différentes concentrations de E-64 ou de pepstatine, la consommation de E-64 a retardé fortement la croissance larvaire et le développement, la pepstatine a provoqué un retard du développement plus limitée.Nos résultats suggèrent que le doryphore dépend, tout au moins partiellement, des protéinases cystéine pour l'assimilation des protéines.

     

Assessment of fitness costs in Cry3Bb1‐resistant and susceptible western corn rootworm (Coleoptera: Chrysomelidae) laboratory colonies

Abstract Maize production in the United States is dominated by plants genetically modified with transgenes from Bacillus thuringiensis (Bt). Cry3Bb delta endotoxins expressed by Bt maize specifically target corn rootworms (genus Diabrotica) and have proven highly efficacious. However, development of resistance to Bt maize, especially among western corn rootworm (Diabrotica virgifera virgifera) populations, poses a significant threat to the future viability of this pest control biotechnology. The structured refuge insect resistance management (IRM) strategy implemented in the United States for Bt maize adopts a conservative approach to managing resistance by assuming no fitness costs of Bt resistance, even though these trade‐offs strongly influence the dynamics of Bt resistance within numerous agricultural pest species. To investigate the effects of Bt resistance on fitness components of western corn rootworm, we compared survivorship, fecundity and viability of five Bt‐resistant laboratory lines reared on MON863 (YieldGard Rootworm), a Bt maize product that expresses Cry3Bb1 delta endotoxin, and on its non‐transgenic isoline. Analysis of performance on the isoline maize demonstrated no fitness costs associated with Bt resistance. In fact, resistant lines emerged approximately 2–3 days earlier than control lines when reared on both MON863 and the isoline, indicating that selection for Bt resistance resulted in a general increase in the rate of larval development. In addition, resistant lines reared on Bt maize displayed higher fecundity than those reared on the isoline, which may have significant management implications. These data will be valuable for formulating improved IRM strategies for a principal agricultural pest of maize.     

Development and economic evaluation of spatial sampling plans for corn rootworm Diabrotica spp. (Col., Chrysomelidae) adults

Abstract  To develop spatial sampling plans for corn rootworm ( Diabrotica spp.) adults, their spatial distributions were characterized and economics of sampling plans were evaluated by comparing sampling costs between spatial and conventional (non-spatial) sampling plans. Semivariogram modelling and spatial by with distance indices showed that corn rootworm adults were significantly (P < 0.05) aggregated at peak population densities and any two samples were spatially correlated within approximately 45 m, with 39–90% of the variability explained by spatial dependence. Sampling costs for spatial sampling plans linearly increased as the sampling distance decreased and exponentially increased as the field size increased. Although sampling costs for non-spatial sampling plans were generally lower, spatial sampling plans could be more economical when the mean insect density became lower and the field size became smaller. This study demonstrated that spatial sampling plans could be optimized to minimize the sampling costs and maximize the spatial resolution.     

Effect of chronic ingestion of the cysteine proteinase inhibitor, E-64, on Colorado potato beetle gut proteinases

Chronic ingestion of the highly active, specific cysteine proteinase inhibitor, E-64, has a profound effect on Colorado potato beetle (CPB) larval growth, development and survival, as well as on adult fecundity. However, the number of insects surviving to the adult stage did not decrease below 26% with increasing E-64 concentration above 1.5 g E-64 cm^–2 leaf surface. The development time to the pupal stage was increased from 13 days, when larvae were reared on control leaves, to 21 days at a concentration of 1.5 g E-64 cm^–2 . The most significant effect of dietary E-64 was on adult fecundity, with mated females reared on untreated leaves laying an average 62 ± 5.7 eggs daily in the first 10 days, and those maintained on 0.5 g E-64 cm^–2, laying only 16 ± 2.4 eggs day^–1. Females given 1 g E-64 cm^–2 laid few if any eggs, but started producing egg masses as large as control insects about 5 days after being switched to control leaves. These effects on the insect life cycle were directly related to the degree of inhibition of cysteine proteinase activity in gut extracts. The general proteinase activity in control extracts was 6.5 ± 0.16 units min^–1 mg gut^–1, which decreased to 1.9 ± 0.16 in guts of insects reared on 1 g E-64 cm^–2. The proportion of proteinase activity inhibitable by E-64 decreased from 66% in control guts to 10-15% in guts from larvae reared on 1 g E-64 cm^–2. The aspartate proteinase inhibitor, pepstatin, decreased proteinase activity by 35% in control guts. There was no induction of pepstatin-inhibitable proteinases in response to inhibition by E-64, and no inhibition of gut enzyme activity by soybean trypsin inhibitor from larvae fed any of the E-64 concentrations. This study demonstrates that proteinase levels must be significantly reduced to have a pronounced effect on larval growth and survival, while fecundity of mated females is affected by lower concentrations of inhibitor. It also suggests that the CPB may be a difficult pest to control using a more specific, plant-derived cysteine proteinase inhibitor, such as oryzacystatin.     

Tracking predation of subterranean pests: digestion of corn rootworm DNA by a generalist mite

qPCR is a useful tool for understanding predator–prey relationships. We investigated rootworm DNA digestion by male and female predatory mites. Males and females initially consumed comparable amounts of DNA, which was digested at similar rates. Field-collected mites need to be preserved quickly for best qPCR results.     

Biochemical characterization of Acacia schweinfurthii serine proteinase inhibitor

Abstract

One of the many control mechanisms of serine proteinases is their specific inhibition by protein proteinase inhibitors. An extract of Acacia schweinfurthii was screened for potential serine proteinase inhibition. It was successfully purified to homogeneity by precipitating with 80% (v/v) acetone and sequential chromatographic steps, including ion-exchange, affinity purification and reversed-phase high performance liquid chromatography. Reducing sodium dodecyl sulphate polyacrylamide gel electrophoresis conditions revealed an inhibitor (ASTI) consisting of two polypeptide chains A and B of approximate molecular weights of 16 and 10?kDa, respectively, and under non-reducing conditions, 26?kDa was observed. The inhibitor was shown to inhibit bovine trypsin (K_i of 3.45?nM) at an approximate molar ratio of inhibitor:trypsin (1:1). The A- and B-chains revealed complete sequences of 140 and 40 amino acid residues, respectively. Sequence similarity (70%) was reported between ASTI A-chain and ACTI A-chain (Acacia confusa) using ClustalW. The B-chain produced a 76% sequence similarity between ASTI and Leucaena leucocephala trypsin inhibitor.     

Characterization of midgut proteinase activities of white grubs: Lepidiota noxia,Lepidiota negatoria,and Antitrogus consanguineus (scarabaeidae,melolonthini)

The proteinases in the midguts of three scarab white grub species, Lepidiota noxia, L. negatoria, and Antitrogus consanguineus, were investigated to classify the proteinases present and to determine the most effective proteinase inhibitor for potential use as an insect control agent. pH activity profiles indicated the presence of serine proteinases and the absence of cysteine proteinases. This was confirmed by the lack of inhibition by specific cysteine proteinase inhibitors. Trypsin, chymotrypsin, elastase, and leucine aminopeptidase activities were detected by using specific synthetic substrates. A screen of 32 proteinase inhibitors produced 9 inhibitors of trypsin, chymotrypsin, and elastase which reduced proteolytic activity by greater than 75%. © 1995 Wiley-Liss, Inc.     

Serine proteinase inhibitors in seeds of Cycas siamensis and other gymnosperms

Seeds of 32 species selected from two of the four major groups of gymnosperms, the ancient Cycadales and the economically important Coniferales, were analysed for inhibitors (I) of the serine proteinases trypsin (T), chymotrypsin (C), subtilisin (S) and elastase (E) using isoelectric focusing (IEF) combined with gelatin replicas. Subtilisin inhibitors were detected in 17 species, being particularly active in the Cycadales. Several species of the genera Cephalotaxus, Pseudotsuga and Cycas contained inhibitors active against elastase while strong CSTIs and CSIs were also present in Cycas pectinata and C. siamensis. No inhibitors were detected in seeds of Chamaecyparis, Thuja, Abies, Larix, Picea and Pinus spp. Serine proteinase inhibitors were purified from seeds of C. siamensis by affinity chromatography using trypsin and chymotrypsin, IEF and SDS-PAGE. Several CSTI components with M_r ranging from 4000 to 18,000 were partially sequenced using Edman degradation and mass spectrometry. Most of the sequences were similar to a hypothetical protein encoded by an mRNA from sporophylls of C. rumphii which in turn was similar to Kunitz-type proteinase inhibitors from flowering plants. Analysis of expressed sequence tag (EST) databases confirmed the presence of mRNAs encoding Kunitz-type inhibitors in the Cycadales and Coniferales and also demonstrated their presence in a third major group of gymnosperms, the Ginkgoales. This is the first report of Kunitz-type serine proteinase inhibitors from plants other than Angiosperms.     

Midgut proteinase activities of three keratinolytic larvae,Hofmannophila pseudospretella,Tineola bisselliella,and Anthrenocerus australis,and the effect of proteinase inhibitors on proteolysis

The midgut proteinase activities were characterized from the keratinolytic larvae of two lepidopterans, Hofmannophila pseudospretella (Stainton) (Oecophoridae) and Tineola bisselliella (Hummel) (Tineidae), and one coleopteran, Anthrenocerus australis (Hope) (Dermestidae). The major endopeptidase activities, characterized using specific enzyme inhibitors, were serine proteinases with hydrolytic activity against N-benzoyl-DL-arginine-p-nitroanilide and against N-succinyl-L-alanyl-L-alanyl-L-prolyl-L-leucine-p-nitroanilide. No significant levels of metalloendopeptidase or cysteine endopeptidase activities were detected. Aminopeptidase activity was present in all larvae. The enzyme levels and properties of the two moth larvae were similar to each other and to those of phytophagous lepidopteran larvae but different from those of the beetle larva. Whereas only a limited number of serine proteinase inhibitors inhibited the midgut proteolysis of the lepidopteran larvae, most inhibitors inhibited the midgut proteolysis of the beetle larva. © 1994 Wiley-Liss, Inc.     

The release of proteinase inhibitors from legume seeds during germination

The seeds of twelve common species of legumes were examined for the release of proteinase inhibitor activity during germination. All species released inhibitory activity against bovine trypsin (EC 3.4.21.4), ranging from 1.0 unit per g dry wt. of seed in 24 hr for soybean (Glycine max), to 0.07 unit per g for broad beans (Vicia faba) and sugar pod peas (Pisum sativum). This release corresponds to approximately 1–13 % of the total trypsin inhibitory activity of the seed, with lentils (Lens culinaris) releasing the greatest percentage, and the scarlet runner bean (Phaseolus coccineus) the least. In most species the amount of inhibitor released increases until 24–48 hr of germination, and then remains roughly the same or decreases slightly by 72 hr of germination. Five species of legumes were also examined for the release of inhibitory activity against bovine chymotrypsin (EC 3.4.21.1). In each case chymotryptic inhibitory activity was released in a manner similar to the trypsin inhibitor.     

Effectiveness of recombinant soybean cysteine proteinase inhibitors against selected crop pests

Three recombinant soybean cysteine proteinase inhibitors (rSCPIs), L1, R1 and N2, were assessed for their potential to inhibit the growth and development of three major agricultural crop pests known to utilize digestive cysteine proteinases: Western corn rootworm (Diabrotica virgifera virgifera, WCR), Colorado potato beetle (Leptinotarsa decemlineata, CPB) and cowpea weevil (Callosobruchus maculatus, CW). In vitro experiments showed that cysteine proteinase activities in the crude gut extracts of the WCR, CPB, and CW were inhibited to various degrees by the three rSCPIs. Of the three rSCPIs tested, N2 was most effective in inhibiting the crude gut extract of WCR, CPB, and CW (50% inhibition at 5 x 10(-8), 5 x 10(-8), and 3 x 10(-7) M, respectively). The L1 was the least potent of the three CPIs tested, with 50% inhibition at 5 x 10(-6) M of the crude gut extracts of WCR. Results of in vivo experiments conducted to assess the effect of the three rSCPIs on the vital growth parameters of WCR, CPB and CW were consistent with results of the in vitro experiments.     

The effect of two proteinase inhibitors, E-64 and the Bowman-Birk inhibitor, on the developmental time and mortality of Acanthoscelides obtectus

An artificial bean seed system was used to evaluate the effects of a cysteine proteinase inhibitor (E-64) and a serine proteinase inhibitor (Bowman-Birk inhibitor) on the developmental time and mortality of the common bean weevil, Acanthoscelides obtectus (Say). These inhibitors were incorporated into artificial bean seeds on which the insect fed. To better understand the mode of action of these inhibitors, free amino acids were also added to the seeds, alone and in combination with the inhibitors. E-64 was found to be highly effective in delaying development and increasing mortality of the insect. Both effects were directly related to the concentration of E-64. Bowman-Birk inhibitor had little effect on these parameters. Assays of gut proteolytic activity of insects reared on artificial seeds with various levels of E-64 demonstrated a direct relationship between E-64 concentration in the diet and reduction of gut proteolytic activity. Free amino acid supplementation to the diet did not prevent inhibition of gut proteolytic activity by E-64, but did reverse its effects on developmental time and mortality, strengthening the hypothesis that E-64 operates by inhibition of essential digestive proteinase activity.

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Résumé Des grains artificiels de haricot ont été utilisés pour évaluer les effets sur la durée de développement et la mortalité d' Acanthoscelides obtectus. Say d'inhibiteurs de la protéinase de la cystéine (E-64) et de la protéinase de la sérine (l'inhibiteur de Bowman-Birk). Ces inhibiteurs avaient été incorporés dans les grains artificiels. Pour mieux comprendre leur voie d'action, des acides aminés libres étaient ajoutés à ces graines, seuls ou combinés aux inhibiteurs. E-64 a très efficacement retardé le développement et accru la mortalité; ces 2 effets étaient liés à sa concentration. L'inhibiteur de Bowman-Birk a eu peu d'effets sur ces paramètres. Des expériences sur l'activité protéolytique du tube digestif d'insectes élevés sur des graines artificielles avec différentes concentrations de E-64 ont montré une relation directe entre la concentration en E-64 et la réduction de l'activité protéolytique. L'addition d'acides aminés libres dans l'aliment n'a pas empêché l'inhibition de l'activité protéolytique par E-64, mais a inversé ses effets sur la durée de développement et la mortalité, renforçant l'hypothèse que E-64 agit en inhibant l'activité protéinase digestive essentielle.

     

Regeneration of Populus nigra transgenic plants expressing a Kunitz proteinase inhibitor (KTi3) gene

Transgenic poplar (Populus nigra, cv. Jean Pourtet) plants were recovered as a result of Agrobacterium tumefaciens-mediated transformation performed with EHA105 pBI-KUN strain. Plasmid pBI-KUN contains a 650 bp insert derived from the soybean (Glycine max L.) KTi₃, gene, coding for a Kunitz trypsin proteinase inhibitor. A total of 58 independent transgenic lines were obtained from 200 co-cultivated leaf explants. Southern blot hybridization analysis demonstrated the presence of KTi₃ gene in the poplar genome. Northern blot analysis of different kanamycin-resistant plantlets confirmed the accumulation of KTi₃ mRNA and revealed different levels of expression. The trypsin inhibitory activity was determined in poplar transgenic tissues by means of specific assay. Moreover, the trypsin-like digestive proteinases of the polyphagous moth Lymantria dispar (Lepidoptera, Lymantriidae) and Clostera anastomosis (Lepidoptera, Notodontidae) were detected and inhibited in vitro by Kunitz proteinase inhibitor from selected transgenic plants. Two insect bioassays were performed on P. nigra transgenic plant lines, using larvae of the above mentioned insects. In both cases larval mortality and growth as well as pupal weight were not significantly affected when the insects were fed on transgenic leaves and control leaves, respectively.     

How to measure the food utilization of subterranean insects: a case study with the western corn rootworm (Diabrotica virgifera virgifera)

To date, nutritional studies on subterranean insects have focused on qualitative aspects due to experimental limitations. We have developed a method of studying insect–plant interactions quantitatively in subterranean environments. The initial and final weights of larvae of Diabrotica virgifera virgifera LeConte (Chrysomelidae, Galeruncinae) and those of maize roots, which served as food items were determined. The difference between initial and final weight of larvae and roots allowed for the calculation of the food conversion efficiency. This can be used to portray differences in food quality and its impact on larval performance and development.     

Characterizing laboratory colonies of western corn rootworm (Coleoptera: Chrysomelidae) selected for survival on maize containing event DAS-59122-7

Event DAS‐59122‐7 is a novel transgenic trait designed to protect the roots and yield potential of maize from the insect pest corn rootworm Diabrotica spp. (Col.: Chrysomelidae). The increased pest status of corn rootworm, exceptional efficacy of this trait, and anticipated increases in farm efficiency and grower and environmental safety will drive adoption of this trait. Strong grower acceptance of this trait highlights the importance of science‐based and practical resistance management strategies. A non‐diapause trait was introgressed into two laboratory colonies of Diabrotica virgifera virgifera collected from geographically distinct locations: Rochelle, IL and York, NE. Both colonies were divided and each reared on maize containing event DAS‐59122‐7 or its near isoline. Selected and unselected colonies were evaluated for phenotypic change in larval development, injury potential and survival to adulthood during 10 and 11 generations. The F1 generation of both selected colonies displayed increased larval development, survivorship and measurable, but economically insignificant increases in injury potential on DAS‐59122‐7 maize. Survival rates of 0.4 and 1.3% in F1 generations of both selected colonies corroborate field estimates of survival on DAS‐59122‐7 maize. Over later generations, total phenotypic variation declined gradually and irregularly. Despite the absence of random mating, the tolerance trait could not be fixed in either population after 10 or 11 generations of selection. An allele conferring major resistance to DAS‐59122‐7 was not identified in either selected colony. The assessment also concluded that major resistance gene(s) are rare in populations of D. v. virgifera in the United States, and that a minor trait(s) conferring a low level of survival on DAS‐59122‐7 maize was present. The tolerance trait identified in this study was considered minor with respect to its impact on DAS‐59122‐7 maize efficacy, and the role this trait may play in total effective refuge for major resistance genes with recessive inheritance is the basis of future work.     

The thiol proteinase inhibitors,Z-Phe-PheCHN2 and Z-Phe-AlaCHN2, inhibit lysosomal protein degradation in isolated rat hepatocytes

The effects on protein metabolism of Z-Phe-PheCHN₂ and Z-Phe-AlaCHN₂ were examined in isolated rat hepatocytes. The two thiol proteinase inhibitors caused a drastic reduction in the degradation of both endogenous adn endocytosed (asialo-fetuin) protein. The inhibition was not additive to that of the lysosomotropic base methylamine, indicating that Z-Phe-PheCHN₂ and Z-Phe-AlaCHN₂ only affect lysosomal degradation. At high concentrations (0.1–1 mM) both inhibitors reduced protein synthesis strongly. This finding indicates non-specific/toxic effects, which may limit the usefulness of the inhibitors.     

Midgut proteinase activities in larvae of Anoplophora glabripennis (Coleoptera: Cerambycidae) and their interaction with proteinase inhibitors

The major proteinase activities in the larval midgut of a common poplar tree borer, Anoplophora glabripennis, were characterised. Overall digestive capacity, as measured by casein hydrolysis, showed a pH optimum between 10 and 11.5, suggestive of serine endopeptidase activity. Trypsin, chymotrypsin, and chymotrypsin-like activities were detected using specific p-nitroanilide synthetic substrates and by use of specific serine endopeptidase inhibitors. These activities also showed pH optima in the extreme alkaline range. The absence of cysteine, aspartic, and metallo-endopeptidases were confirmed using class specific proteinase inhibitors. The dominant exopeptidase in the midgut is leucine aminopeptidase with a pH optimum of 7–9. Carboxypeptidase a and b activity were barely detectable. A large range of serine endopeptidase inhibitors were screened and were found to vary widely in their ability to inhibit casein hydrolysis. Potato proteinase inhibitor 1 (a chymotrypsin inhibitor) and wheat-germ trypsin inhibitor 1 inhibited particularly effectively in tandem and represent possible candidates for gene transformation to produce plants tolerant to this pest. © 1996 Wiley-Liss, Inc.