Your search keyword '"Nymph enzymology"' showing total 71 results

1. Identification and functional characterization of the chitinase and chitinase-like gene family in Myzus persicae (Sulzer) during molting.

Author

Zhang C, He L, Ding B, and Yang H

Subjects

Animals, Multigene Family, Nymph growth & development, Nymph genetics, Nymph enzymology, Nymph physiology, Nymph drug effects, Chitinases genetics, Chitinases metabolism, Aphids genetics, Aphids enzymology, Aphids growth & development, Aphids physiology, Molting genetics, Phylogeny, Insect Proteins genetics, Insect Proteins metabolism

Abstract

Background: The crucial role of insect chitinase in molting, pupation, and emergence renders it a promising target for pest control strategies. Despite the extensive investigation of chitinase genes in various pests, there is still a lack of systematic identification and functional analysis related to aphid chitinase., Results: We systematically identified a total of nine chitinase/chitinase-like genes and one ENGase gene, which included eight Cht genes, one IDGF gene, and one ENGase gene. Through phylogenetic analysis, the chitinase proteins were classified into nine distinct groups (I, II, III, V, VI, VIII, X, other, and ENGase). The expression profile revealed that the epidermis exhibited relatively high expression levels for three chitinase genes: MpCht5, MpCht7, and MpCht10. Furthermore, transcriptional levels of nine chitinase genes were up-regulated following treatment with 20-hydroxyecdysone (20E) hormone. Silencing MpCht3, MpCht5, MpCht7, MpCht10, and MpCht11-2 via RNA interference (RNAi) during the molting stage resulted in nymph shrinking, hindering normal molting and leading to death. Additionally, it was observed that silencing of MpIDGF induced the body color of the aphids to change from reddish brown to colorless after molting, culminating in eventual mortality., Conclusion: Our findings suggest that chitinase/chitinase-like genes play a crucial role in the molting process of Myzus persicae. Utilizing RNAi technology, we aimed to elucidate the precise function of MpCht genes in the molting mechanism of M. persicae, this discovery establishes a significant theoretical foundation for future research on aphid control, with chitinase as the target. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2025

2. Identification and RNAi-based function analysis of trehalase family genes in Frankliniella occidentalis (Pergande).

Author

Zheng X, Yuan J, Qian K, Tang Y, Wang J, Zhang Y, Feng J, Cao H, Xu B, Zhang Y, Liang P, and Wu Q

Subjects

Animals, Nymph genetics, Nymph growth & development, Nymph enzymology, Nymph metabolism, Trehalase genetics, Trehalase metabolism, RNA Interference, Insect Proteins genetics, Insect Proteins metabolism

Abstract

Background: Insects utilize trehalases (TREs) to regulate energy metabolism and chitin biosynthesis, which are essential for their growth, development, and reproduction. TREs can therefore be used as potential targets for future insecticide development. However, the roles of TREs in Frankliniella occidentalis (Pergande), a serious widespread agricultural pest, remain unclear., Results: Three TRE genes were identified in F. occidentalis and cloned, and their functions were then investigated via feeding RNA interference (RNAi) and virus-induced gene silencing (VIGS) assays. The results showed that silencing FoTRE1-1 or FoTRE1-2 significantly decreased expression levels of FoGFAT, FoPGM, FoUAP, and FoCHS, which are members of the chitin biosynthesis pathway. Silencing FoTRE1-1 or FoTRE2 significantly down-regulated FoPFK and FoPK, which are members of the energy metabolism pathway. These changes resulted in 2-fold decreases in glucose and glycogen content, 2-fold increases in trehalose content, and 1.5- to 2.0-fold decreases in chitinase activity. Furthermore, knocking down FoTRE1-1 or FoTRE1-2 resulted in deformed nymphs and pupae as a result of hindered molting. The VIGS assay for the three FoTREs revealed that FoTRE1-1 or FoTRE2 caused shortened ovarioles, and reduced egg-laying and hatching rates., Conclusion: The results suggest that FoTRE1-1 and FoTRE1-2 play important roles in the growth and development of F. occidentalis, while FoTRE1-1 and FoTRE2 are essential for its reproduction. These three genes could be candidate targets for RNAi-based management and control of this destructive agricultural pest. © 2024 Society of Chemical Industry., (© 2024 Society of Chemical Industry.)

Published

2024

3. Genetic analysis and molecular detection of resistance to chlorpyrifos mediated by the A216S substitution in acetylcholinesterase-1 in the plant bug Apolygus lucorum.

Author

Zuo KR, Yang YH, Wu YD, and Wu SW

Subjects

Acetylcholinesterase metabolism, Animals, Female, Heteroptera drug effects, Heteroptera enzymology, Heteroptera growth & development, Insect Proteins metabolism, Male, Nymph drug effects, Nymph enzymology, Nymph genetics, Nymph growth & development, Acetylcholinesterase genetics, Amino Acid Substitution, Chlorpyrifos pharmacology, Heteroptera genetics, Insect Proteins genetics, Insecticide Resistance genetics, Insecticides pharmacology

Abstract

The green plant bug Apolygus lucorum is a major pest of Bacillus thuringiensis cotton in China. Previously, we reported that chlorpyrifos resistance in a laboratory-selected strain of A. lucorum (BZ-R) is associated with the homozygosis of an allele in the ace-1 gene encoding an alanine to serine substitution at position 216 of acetylcholinesterase-1. Here we describe the results of crosses between the resistant BZ-R strain (41-fold to chlorpyrifos) and the unselected susceptible BZ-S strain homozygous for the wild type alanine allele at position 216. Resistance to chlorpyrifos was inherited as a semi-dominant trait mainly controlled by a single autosomal gene and co-segregates strongly but not completely with the serine substitution in ace-1. Synergism bioassays and enzyme assays showed that minor contributions to resistance are also made by enhanced cytochrome P450 and carboxylesterase activities. A survey of 25 field populations from five Chinese provinces showed strong positive correlations between 50% lethal concentration against chlorpyrifos and S216 allele and genotype frequencies, although the most tolerant populations still only show 40%-50% S216 allele frequencies. The results above provide important information for designing effective resistance monitoring and management strategies for A. lucorum in China., (© 2019 The Authors. Insect Science published by John Wiley & Sons Australia, Ltd on behalf of Institute of Zoology, Chinese Academy of Sciences.)

Published

2020

4. Determination of insecticides' lethal concentrations and metabolic enzyme levels in Triatoma dimidiata.

Author

Acero-Sandoval A, Penilla-Navarro RP, López-Ordóñez T, Rodríguez MH, Ordóñez-González JG, Solís-Santoyo F, and Rodríguez AD

Subjects

Acetylcholinesterase analysis, Animals, Cytochrome P-450 Enzyme System analysis, Esterases analysis, Feasibility Studies, Glutathione Transferase analysis, Lethal Dose 50, Mixed Function Oxygenases analysis, Nymph drug effects, Nymph enzymology, Triatoma enzymology, World Health Organization, Insecticide Resistance, Insecticides toxicity, Malathion toxicity, Nitriles toxicity, Propoxur toxicity, Pyrethrins toxicity, Triatoma drug effects

Abstract

Objective: The feasibility of the use of WHO impregnated paper and biochemical assays to determine lethal concentrations (LC50 and LC99) and insecticide metabolic enzyme levels of Triatoma dimidiata., Materials and Methods: LC50 and LC99 were calculated with WHO papers impregnated at different concentrations of malathion, propoxur and deltamethrin; the percentage of insensitive acetylcholinesterase (iAChE); and the levels of esterases, glutathione S-transferases, and monooxygenases in laboratory nymphs of the first stage (5 to 7 days), were undertaken using the WHO biochemical assays., Results: Respectively the LC50 and LC99 μg/cm2 obtained for malathion were 43.83 and 114.38, propoxur 4.71 and 19.29, and deltamethrin 5.80 and 40.46. A 30% of the population had an iAChE, and only a few individuals had high P450 and β-eterase levels., Conclusions: Impregnated papers and biochemical tests developed by WHO for other insects, proved to be feasible methods in monitoring insecticide resistance and metabolic enzymes involved in T. dimidiata., Competing Interests: Declaration of conflict of interests. The authors declare that they have no conflict of interests.

Published

2020

5. Cimex lectularius Linnaeus, 1758 (Hemiptera: Cimicidae) in Costa Rica: First Case Report Confirmed by Molecular Methods in Central America.

Author

Cambronero-Heinrichs JC, Sánchez-Portilla LS, Calderón-Arguedas Ó, and Troyo A

Subjects

Animals, Bedbugs enzymology, Bedbugs genetics, Costa Rica, Electron Transport Complex IV analysis, Female, Insect Proteins analysis, Male, Nymph enzymology, Nymph genetics, Nymph physiology, RNA, Ribosomal, 16S analysis, Tourism, Animal Distribution, Bedbugs physiology

Abstract

Cimex lectularius and Cimex hemipterus are the most common species of bedbugs that infest homes. Although case reports decreased substantially by the end of the 20th century, bed bugs, and especially C. lectularius, are currently suffering a resurgence mostly attributed to insecticide resistance, inadequate pest control, and increased travel. Here, we report, to the best of our knowledge, the first molecular confirmation of C. lectularius in Central America. Specimens were obtained from an apartment located in Heredia, Costa Rica. These specimens were identified morphologically as C. lectularius. The species identification was confirmed by amplifying and sequencing fragments of the cytochrome oxidase subunit I (COI) and the 16S rRNA (16S) genes. The phylogenetic analysis showed that the sequences obtained were more closely related to a C. lectularius mitochondrial complete genome sequence from China, with similarities of 98.84% (686/694) for COI and 98.97% (387/391) for 16S. The finding of C. lectularius in Costa Rica will require further investigation in order to determine the extent of current infestations and the susceptibility to insecticides, especially due to the impact that this species can have in human health, as well as the tourism industry in the region., (© The Author(s) 2020. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

6. Insecticide Resistance Mechanisms in Triatoma infestans (Reduviidae: Triatominae): The Putative Role of Enhanced Detoxification and Knockdown Resistance (kdr) Allele in a Resistant Hotspot From the Argentine Chaco.

Author

Fronza G, Roca-Acevedo G, Mougabure-Cueto GA, Sierra I, Capriotti N, and Toloza AC

Subjects

Alleles, Animals, Argentina, Inactivation, Metabolic physiology, Insect Proteins metabolism, Nymph drug effects, Nymph enzymology, Nymph genetics, Nymph growth & development, Triatoma drug effects, Triatoma enzymology, Triatoma growth & development, Insect Proteins genetics, Insecticide Resistance genetics, Insecticides pharmacology, Nitriles pharmacology, Pyrethrins pharmacology, Triatoma genetics

Abstract

Chagas disease affects around 6 million people in the world, and in Latin America, it is mainly transmitted by the kissing bug. Chemical control of the vector with pyrethroid insecticides has been the most frequently used tool to reduce the disease incidence. Failures of field control have been detected in areas of the Argentinian Gran Chaco that correlate with high levels of insecticide resistance. Here, we provide evidence of the mechanisms involved in the resistance to insecticides of field populations of T. infestans from General Güemes Department (Chaco Province, Argentina). The biochemical analysis suggests the increase in the activity of the degradative enzymes P450 oxidases and esterases as a minor contributive mechanism in low-resistance populations. The molecular study revealed high frequencies of the kdr L925I mutation at the voltage-gated sodium channel as responsible for the high resistance ratios detected. This knowledge contributes to the generation of comprehensive vector control strategies that reduce the incidence of the disease., (© The Author(s) 2020. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2020

7. Growth Performance and Enzymatic Response of the Grasshopper, Calliptamus abbreviatus (Orthoptera: Acrididae), to Six Plant-Derived Compounds.

Author

Wang Y, Huang X, Chang BH, and Zhang Z

Subjects

Animals, Female, Nymph enzymology, Nymph growth & development, Random Allocation, Diet, Grasshoppers enzymology, Grasshoppers growth & development, Insecticides classification

Abstract

Plant-derived compounds are sources of biopesticides for the control of insect pests. We compared the growth performance and enzymatic response of the grasshopper Calliptamus abbreviatus Ikonn to six plant-derived compounds (rutin, quercetin, nicotine, matrine, azadirachtin, and rotenone) in laboratory and field trials. When exposed to the six compounds, C. abbreviatus had significantly reduced growth and survival. All the compounds significantly induced an elevated level of reactive oxygen species, indicating oxidative damage. The activity of detoxifying enzymes, including cytochrome P450s, carboxylesterase, glutathione-S-transferase, and UDP-glucuronosyltransferase, and the antioxidant enzymes, including superoxide dismutase, catalase, and peroxidase, all significantly increased after exposure to the six compounds. These data suggest that the six plant-derived compounds had negative effects on C. abbreviatus. Of the six compounds, matrine, azadirachtin, and rotenone were more toxic to C. abbreviatus, followed by nicotine, quercetin, and rutin. These results show the potential of these compounds as botanical pesticides, which can be applied for the biological control of the grasshopper C. abbreviatus., (© The Author(s) 2020. Published by Oxford University Press on behalf of Entomological Society of America.)

Published

2020

8. Assessing the toxicant effect of spontaneously volatilized 4-vinylcyclohexane exposure in nymphs of the lobster cockroach nauphoeta cinerea.

Author

Waczuk EP, Wagner R, Klein B, da Rocha JBT, Ardisson-Araújo DMP, and Barbosa NV

Subjects

Administration, Inhalation, Animals, Cockroaches enzymology, Fat Body drug effects, Fat Body enzymology, Glutathione Transferase metabolism, Nymph enzymology, Volatilization, Cockroaches drug effects, Cyclohexenes toxicity, Nymph drug effects

Abstract

Vinylcyclohexene (VCH) is an environmental contaminant well known for its ovotoxicant effects in several organisms. However, the mechanisms underlying the toxicity of VCH as well as its harmful effects toward other organs are until unclear. In this work, we assess some endpoint signals of toxicity induced by volatilized VCH exposure using nymphs of the lobster cockroach Nauphoeta cinerea. Nymphs were exposed to VCH via inhalation for 70 days. The levels of volatilized VCH were quantified by headspace gas chromatography and the concentration varied between 3.41 and 7.03 nmol/μl. VCH inhalation caused a reduction of 35% in the survival rate of the exposed animals. Nymphs exposed to volatilized VCH for 35 and 70 days had a reduction in the body weight gain of 1.8- and 2.6-fold, respectively with a reduction in dissected head, fat body, and maturing reproductive organs. The exposure did not change water consumption, excepting on the 20th day (with a 3-fold change) and decreased the food intake significantly. Regarding biochemical markers, we found that the activity of GST from the dissected organs was increased by volatilized VCH after both 35 and 70 days of exposure. The fat body presented the most prominent GST activity especially after 35 days of exposure with 1.6-fold higher than the control group. Exposure also caused an increase in RS levels in the fat body of 1.35-fold and 1.47-fold after 35 and 70 days, respectively and did not affect the activity of the AChE from the head. Our findings support the harmful impact of volatilized VCH inhalation, highlighting the cockroach N.cinerea as a valuable insect model to investigate environmental toxicants., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

9. Proteases and nucleases across midgut tissues of Nezara viridula (Hemiptera:Pentatomidae) display distinct activity profiles that are conserved through life stages.

Author

Cantón PE and Bonning BC

Subjects

Animals, Deoxyribonucleases metabolism, Gastrointestinal Tract physiology, Heteroptera growth & development, Heteroptera physiology, Nymph enzymology, Nymph growth & development, Nymph physiology, Peptide Hydrolases metabolism, Ribonucleases metabolism, Transcriptome, Gastrointestinal Tract enzymology, Heteroptera enzymology, Salivary Glands enzymology

Abstract

The southern green stink bug, Nezara viridula is a polyphagous pest of commercially important crops during both nymph and adult stages. This insect has recently transitioned from a secondary agricultural pest to one of primary concern. Novel management solutions are needed due to the limited effectiveness of current control strategies. We performed biochemical and transcriptomic analyses to characterize digestive enzymes in the salivary glands and along midgut tissues of N. viridula nymphs and adults fed on sweet corn. The digestive profiles were more distinct between midgut regions (M1 to M3) than between life stages. Aminopeptidase and chymotrypsin activities declined from the M1 (anterior) toward the M3 midgut region. Cysteine protease activity was higher in the M2 and M3 regions than in M1. Differences in sensitivity to chymotrypsin inhibitors between midgut regions suggest that distinct genes or isoforms are expressed in different regions of the gut. In nymphs, DNA and RNA degradation was higher in M1 than in M3. Adult nuclease activity was low across all midgut regions, but high in salivary glands. The differences in protease activities are reflected by transcriptomic data and functional enrichment of GO terms. Together, our results show that different regions of the digestive tract of N. viridula have specific and distinct digestive properties, and increase our understanding of the physiology of this organism., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

10. Nuclear receptor hormone receptor 39 is required for locust moulting by regulating the chitinase and carboxypeptidase genes.

Author

Zhao XM, Qin ZY, Zhang J, Yang Y, Jia P, Yang Q, Ma EB, and Zhang JZ

Subjects

Amino Acid Sequence, Animals, Carboxypeptidases genetics, Chitinases genetics, Insect Proteins chemistry, Insect Proteins metabolism, Locusta migratoria enzymology, Locusta migratoria growth & development, Locusta migratoria metabolism, Nymph enzymology, Nymph genetics, Nymph growth & development, Nymph metabolism, Phylogeny, Receptors, Cytoplasmic and Nuclear chemistry, Receptors, Cytoplasmic and Nuclear metabolism, Sequence Alignment, Gene Expression Regulation, Developmental, Insect Proteins genetics, Locusta migratoria genetics, Molting genetics, Receptors, Cytoplasmic and Nuclear genetics

Abstract

The nuclear receptor-mediated 20-hydroxyecdysone (20E) signalling pathway plays crucial roles in insects by initiating and regulating moulting and metamorphosis. In the present study, we identified and characterized a cDNA encoding a putative nuclear receptor protein (Locusta migratoria hormone receptor 39, LmHR39) based on L. migratoria transcriptomics data. Reverse-transcription quantitative PCR (RT-qPCR) revealed that LmHR39 shows low-level expression in the early days of fifth-instar nymphs, and peak expression occurs on day 5, which is followed by a decrease before ecdysis. LmHR39 transcription could be induced by 20E in vivo and was significantly suppressed by knocking down the expression of the L. migratoria ecdysone receptor gene and early-late gene LmHR3. After RNA interference of LmHR39 with double-stranded RNA (dsRNA), 85% of the insects showed abnormal morphology, with curly wings after moulting and delayed eclosion time. Haematoxylin and eosin staining indicated that apolysis of the integument and wing pad cuticle in the dsLmHR39-treated insects was delayed compared to that in the dsRNA for green fluorescent protein-injected control. Furthermore, RNA-sequencing and RT-qPCR analysis showed the expression level of carboxypeptidase genes (Carboxypeptidase A (CPA) and Carboxypeptidase M (CPM)) and chitin degrading genes (LmChitinase5 (LmCHT5) and LmChitinase10 (LmCHT10)) dramatically declined in the dsLmHR39-treated insects, implying that the LmHR39-mediated 20E signalling pathway is involved in the regulation of carboxypeptidase genes (CPA and CPM) and chitinase genes (LmCHT5 and LmCHT10), and participated in apolysis of the integument and wing pads during locust moulting., (© 2019 The Royal Entomological Society.)

Published

2019

11. The functional difference of eight chitinase genes between male and female of the cotton mealybug, Phenacoccus solenopsis.

Author

Omar MAA, Ao Y, Li M, He K, Xu L, Tong H, Jiang M, and Li F

Subjects

Amino Acid Sequence, Animals, Chitinases chemistry, Chitinases metabolism, Female, Hemiptera enzymology, Hemiptera growth & development, Hemiptera metabolism, Insect Proteins chemistry, Insect Proteins metabolism, Male, Nymph enzymology, Nymph genetics, Nymph growth & development, Nymph metabolism, Phylogeny, Sequence Alignment, Sex Characteristics, Sex Factors, Chitinases genetics, Hemiptera genetics, Insect Proteins genetics, Molting genetics, Transcriptome

Abstract

The cotton mealybug Phenacoccus solenopsis Tinsley (Hemiptera: Pseudococcidae) is a polyphagous insect that attacks tens of plant and causes substantial economic loss. Insect chitinases are required to remove the old cuticle to allow for continued growth and development. Though insect chitinases have been well studied in tens of insects, their functions in mealybug are still not addressed. Here, we sequenced the transcriptomes of adult males and females, from which eight chitinase genes were identified. We then used the method of rapid amplification of cDNA ends to amplify their full length. Phylogenetic analysis indicated that these genes clustered into five subgroups. Among which, group II PsCht2 had the longest transcript and was highly expressed at second instar nymph. PsCht10, PsCht3-3 and PsIDGF were highly expressed in the adult females, whereas PsCht4 and PsCht4-1 were significantly expressed at the male pupa and adult male. Next, we knocked down all eight chitinase genes by feeding the double-stranded RNA. Knockdown of PsCht4 or PsCht4-1 led to the failure of moult and, silencing PsCht5 resulted in pupation defect, while silencing PsCht10 led to small body size, suggesting these genes have essential roles in development and can be used as a potential target for pest control., (© 2019 The Royal Entomological Society.)

Published

2019

12. The Fat Body of the Hematophagous Insect, Panstrongylus megistus (Hemiptera: Reduviidae): Histological Features and Participation of the β-Chain of ATP Synthase in the Lipophorin-Mediated Lipid Transfer.

Author

Fruttero LL, Leyria J, Moyetta NR, Ramos FO, Settembrini BP, and Canavoso LE

Subjects

Animals, Fat Body enzymology, Nymph cytology, Nymph enzymology, Panstrongylus enzymology, Panstrongylus growth & development, ATP Synthetase Complexes metabolism, Fat Body cytology, Insect Proteins metabolism, Lipid Metabolism, Lipoproteins metabolism, Panstrongylus cytology

Abstract

In insects, lipid transfer to the tissues is mediated by lipophorin, the major circulating lipoprotein, mainly through a nonendocytic pathway involving docking receptors. Currently, the role of such receptors in lipid metabolism remains poorly understood. In this work, we performed a histological characterization of the fat body of the Chagas' disease vector, Panstrongylus megistus (Burmeister), subjected to different nutritional conditions. In addition, we addressed the role of the β-chain of ATP synthase (β-ATPase) in the process of lipid transfer from lipophorin to the fat body. Fifth-instar nymphs in either fasting or fed condition were employed in the assays. Histological examination revealed that the fat body was composed by diverse trophocyte phenotypes. In the fasting condition, the cells were smaller and presented a homogeneous cytoplasmic content. The fat body of fed insects increased in size mainly due to the enlargement of lipid stores. In this condition, trophocytes contained abundant lipid droplets, and the rough endoplasmic reticulum was highly developed and mitochondria appeared elongated. Immunofluorescence assays showed that the β-ATPase, a putative lipophorin receptor, was located on the surface of fat body cells colocalizing partially with lipophorin, which suggests their interaction. No changes in β-ATPase expression were found in fasting and fed insects. Blocking the lipophorin-β-ATPase interaction impaired the lipophorin-mediated lipid transfer to the fat body. The results showed that the nutritional status of the insect influenced the morphohistological features of the tissue. Besides, these findings suggest that β-ATPase functions as a lipophorin docking receptor in the fat body., (© The Author(s) 2019. Published by Oxford University Press on behalf of Entomological Society of America.)

Published

2019

13. Both farnesyl diphosphate synthase genes are involved in the production of alarm pheromone in the green peach aphid Myzus persicae.

Author

Cheng YJ and Li ZX

Subjects

Animals, Aphids enzymology, Aphids growth & development, Aphids metabolism, Geranyltranstransferase metabolism, Insect Proteins metabolism, Nymph enzymology, Nymph genetics, Nymph growth & development, Nymph metabolism, Aphids genetics, Geranyltranstransferase genetics, Insect Proteins genetics, Pheromones biosynthesis

Abstract

Farnesyl diphosphate synthase (FPPS) catalyzes the formation of FPP, providing the precursor for the biosynthesis of (E)-β-farnesene (EβF) in plants, but it is unknown if FPPS supplies the precursor for the biosynthesis of EβF, the major component of aphid alarm pheromone, though our previous studies support the hypothesis that EβF is synthesized by the aphid itself. Here, we used two cohorts of the green peach aphid Myzus persicae separately, reared on pepper plant and artificial diet to test the correlations among droplet emission, EβF quantity, and FPPS gene expression. It was found that the proportion of aphids emitting cornicle droplets and the quantity of EβF per milligram of aphid were both significantly different between the two cohorts, which were positively correlated with the expression of the two FPPS genes ( MpFPPS1/ 2) in M. persicae. These results were further confirmed by RNAi-mediated knockdown of MpFPPS1/ 2. Specifically, knockdown of MpFPPS1/ 2 imposed no significant cost on the survival of aphid but remarkably increased the number of offspring per aphid; most importantly, knockdown of MpFPPS1/ 2 significantly reduced the proportion of aphids emitting droplets and the quantity of EβF calculated as per the weight of aphid. Our results suggest that both FPPS genes are involved in the production of EβF in M. persicae and cornicle droplet emission is closely associated with the EβF release in the aphid., (© 2018 Wiley Periodicals, Inc.)

Published

2019

14. Cloning and Expression Profile of Glyceraldehyde-3-Phosphate Dehydrogenase in Haemaphysalis flava (Acari: Ixodidae).

Author

Xu L, Liu And L, and Cheng TY

Subjects

Amino Acid Sequence, Animals, Arthropod Proteins genetics, Arthropod Proteins metabolism, Base Sequence, Female, Glyceraldehyde-3-Phosphate Dehydrogenases genetics, Larva enzymology, Male, Nymph enzymology, Glyceraldehyde-3-Phosphate Dehydrogenases metabolism, Ixodidae enzymology

Abstract

Haemaphysalis flava (Acari: Ixodidae) harbors pathogenic microorganisms and transfers these to hosts during blood feeding. Proteomic analysis in the midgut contents of H. flava detected glyceraldehyde-3-phosphate dehydrogenase (GAPDH) and contig 1683 was retrieved as a GAPDH gene fragment by searching our previous transcriptomic library. In the study, the 5' and 3' ends of contig 1683 were cloned by rapid amplification of cDNA ends (RACE) and a full length, 1340 bp cDNA of Hf-GAPDH was obtained. The open-reading frame had 999 bp and coded for 333 amino acids. Hf-GAPDH was predicted to have an N-terminal NAD binding domain and a C-terminal glyceraldehyde dehydrogenase catalytic domain. The molecular structure of Hf-GAPDH was analyzed and the evolutionary relationship also established. The GAPDH protein sequence was conserved among ticks. The expression pattern of Hf-GAPDH, analyzed by real-time PCR, significantly differed among life phases, feeding stages, and tissues. As the ticks grew, the expression level of Hf-GAPDH was up-regulated. The expression levels of Hf-GAPDH in salivary glands and midguts from half-engorged ticks were lower than the same tissues from engorged ticks. This study will provide reference data for the follow-up verification of the GAPDH-related function and the feasibility as a potential anti-tick vaccine., (© The Author(s) 2018. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2019

15. Silencing of sucrose hydrolase causes nymph mortality and disturbs adult osmotic homeostasis in Diaphorina citri (Hemiptera: Liviidae).

Author

Santos-Ortega Y and Killiny N

Subjects

Amino Acid Sequence, Animals, Fructose metabolism, Gas Chromatography-Mass Spectrometry, Gene Expression, Glucose metabolism, Hemiptera classification, Hemiptera enzymology, Hemiptera growth & development, Homeostasis, Insect Proteins antagonists & inhibitors, Insect Proteins metabolism, Longevity genetics, Metabolome, Models, Molecular, Nymph enzymology, Nymph growth & development, Phylogeny, RNA Interference, RNA, Double-Stranded genetics, RNA, Double-Stranded metabolism, Sequence Alignment, Sequence Homology, Amino Acid, Sucrase antagonists & inhibitors, Sucrase metabolism, Sucrose metabolism, Trehalose metabolism, Hemiptera genetics, Insect Proteins genetics, Nymph genetics, Osmoregulation genetics, Sucrase genetics, Water metabolism

Abstract

Plant piercing sucking insects mainly feed on phloem sap containing a high amount of sucrose. To enhance the absorption of sucrose from the midgut, sucrose hydrolase digests sucrose into glucose and fructose. In this study, a sucrose hydrolase homolog (DcSuh) was identified and targeted in Diaphorina citri, the vector of huanglongbing (HLB), by RNA interference (RNAi). In silico analysis revealed the presence of an Aamy domain in the DcSUH protein, which is characteristic of the glycoside hydrolase family 13 (GH13). Phylogenetic analysis showed DcSuh was closely related to the sucrose hydrolase of other Hemiptera members. The highest gene expression levels of DcSuh was found in the 4th and 5th instar nymphs. dsRNA-mediated RNAi of DcSuh was achieved through topical feeding. Our results showed that application of 0.2 μL of 500 ng μL -1 (100 ng) dsRNA-DcSuh was sufficient to repress the expression of the targeted gene and cause nymph mortality and reduce adult lifespan. The reduction in gene expression, mortality, and lifespan was dose-dependent. In agreement with the gene expression results, treatment with dsRNA-DcSuh significantly reduced sucrose hydrolase activity in treated nymphs and emerged adults from treated nymphs. Interestingly, some emerged adults from treated nymphs showed a swollen abdomen phenotype, indicating that these insects were under osmotic stress. Although the percentage of swollen abdomens was low, their incidence was significantly correlated with the concentration of applied dsRNA-DcSuh. Metabolomic analyses using GC-MS showed an accumulation of sucrose and a reduction in fructose, glucose and trehalose in treated nymphs, confirming the inhibition of sucrose hydrolase activity. Additionally, most of the secondary metabolites were reduced in the treated nymphs, indicating a reduction in the biological activities in D. citri and that they are under stress. Our findings indicate that sucrose hydrolase might be a potential target for effective RNAi control of D. citri., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

16. LmCht5-1 promotes pro-nymphal molting during locust embryonic development.

Author

Zhang T, Liu W, Li D, Gao L, Ma E, Zhu KY, Moussian B, Li S, and Zhang J

Subjects

Animals, Chitin chemistry, Chitinases antagonists & inhibitors, Chitinases metabolism, Embryo, Nonmammalian, Hydrolysis, Insect Proteins antagonists & inhibitors, Insect Proteins metabolism, Locusta migratoria genetics, Locusta migratoria growth & development, Microinjections, Nymph enzymology, Nymph genetics, Nymph growth & development, RNA, Double-Stranded genetics, RNA, Double-Stranded metabolism, RNA, Messenger antagonists & inhibitors, RNA, Messenger genetics, RNA, Messenger metabolism, Chitinases genetics, Embryonic Development genetics, Gene Expression Regulation, Developmental, Insect Proteins genetics, Locusta migratoria enzymology, Molting genetics

Abstract

Chitinases, key enzymes involved in degradation of chitin, have been repeatedly shown to play an indispensable role during insect post-embryonic molting processes at stage transitions. However, how chitinases affect insect embryonic development remains to be analyzed. In this study, we investigated the role of chitinase 5-1 (LmCht5-1) during embryonic development of the hemimetabolous insect Locusta migratoria. LmCht5-1 transcript levels were high in pro-nymphs during late embryogenesis. The respective protein localized to both the pro-nymphal and, to a much lesser extent, the newly formed nymphal cuticle. After injection of double stranded RNA against LmCht5-1 into 8 days old embryos, LmCht5-1 transcripts were strongly reduced. Most of dsLmCht5-1-injected pro-nymphs failed to develop to first-instar nymphs and died at or before hatching. Histological analyzes showed that degradation of the pro-nymph cuticle was blocked in these animals. At the ultra-structural level, we found that LmCht5-1 was needed for the degradation of the lamellar procuticle, while the separation of the procuticle from the epicuticle and epidermis (apolysis) was independent of LmCht5-1 function. Taken together, our results indicate that LmCht5-1 and other yet unknown degrading enzymes act in parallel at distinct positions of the cuticle during molting of the pro-nymph to the first-instar nymph during locust embryogenesis., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

17. Comparisons of microsomal cytochrome P450 content and enzymatic activity towards selected model substrates and insecticides in different tissues from the migratory locust (Locusta migratoria).

Author

Liu J, Zhang X, Wu H, Gao Y, Silver K, Ma E, Zhang J, and Zhu KY

Subjects

Animals, Carbaryl metabolism, Chlorpyrifos metabolism, Cytochrome P-450 Enzyme System metabolism, Locusta migratoria metabolism, Malathion metabolism, Nitriles, Nymph enzymology, Nymph metabolism, Pyrethrins, Tissue Distribution, Xenobiotics metabolism, Cytochrome P-450 Enzyme System analysis, Insecticides metabolism, Locusta migratoria enzymology

Abstract

Cytochrome P450 monooxygenases (P450s) are important enzymes for biotransformations of various endogenous and xenobiotic substances in various organisms. In this study, we examined microsomal P450 protein content and enzymatic activity in four major detoxification tissues dissected from fifth-instar nymphs of the migratory locust (Locusta migratoria). The highest microsomal P450 protein content was found in the gastric caeca (a part of the midgut), followed by the midgut, Malpighian tubules and fat bodies. Microsomal P450s showed the highest aromatic hydroxylation, O-dealkylation and O-dearylation activities towards six of the seven model substrates examined in the fat bodies. Although the gastric caeca showed the highest P450 protein content, the enzymatic activities towards six of the seven model substrates were the lowest in this tissue. Further, the midgut, gastric caeca and fat bodies showed significant metabolic activities towards two pyrethroid insecticides (deltamethrin and fluvalinate), but no significant activities towards the other four insecticides (malathion, chlorpyrifos, carbaryl and methoprene). These results support our conclusions: 1) total P450 protein content alone cannot be reliably used to predict its enzymatic activity, and 2) insect P450 enzymatic activity is both tissue and substrate dependent., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

18. Brummer-dependent lipid mobilization regulates starvation resistance in Nilaparvata lugens.

Author

Zhou J, Chen X, Yan J, You K, Yuan Z, Zhou Q, and Lu K

Subjects

Animals, Female, Food Deprivation, Hemiptera enzymology, Hemiptera growth & development, Insect Proteins metabolism, Lipase metabolism, Nymph enzymology, Nymph growth & development, Nymph physiology, RNA Interference, RNA, Double-Stranded genetics, RNA, Double-Stranded metabolism, Energy Metabolism, Hemiptera physiology, Insect Proteins genetics, Lipase genetics, Lipid Mobilization

Abstract

Energy homeostasis is an essential characteristic of all organisms, requiring fluctuation in energy accumulation, mobilization, and exchange with the external environment. In insects, energy mobilization is under control of the lipase brummer (bmm), which regulates nutritional status by hydrolyzing the ester bonds in triacylglycerol (TAG). In the present study, we investigated the role of bmm in the lipid mobilization and starvation resistance in the brown planthopper (BPH; Nilaparvata lugens), which is economically one of the most important rice pests in Asia. A severe decrease in TAG and glyceride contents was observed in the starved BPHs, while there was a partial rescue after refeeding. The starvation condition caused a significant increase in the expression levels of Nlbmm, and supplement of food after starvation dramatically reduced the Nlbmm expression. Sucrose rescue after starvation significantly suppressed the expression of Nlbmm, while caused an accumulation of TAG and glyceride. Knockdown of Nlbmm by double-stranded RNA treatment extended the lifespan to starvation, whereas it increased the level of TAG and glyceride in the BPHs. The decreased lipolysis rate by dsNlbmm-treated BPHs eventually resulted in increase of starvation resistance. These data demonstrated that the regulation of energy homeostasis by Nlbmm affects starvation resistance, probably through lipid mobilization control in N. lugens., (© 2018 Wiley Periodicals, Inc.)

Published

2018

19. Effects of Trypanosoma cruzi on the phenoloxidase and prophenoloxidase activity in the vector Meccus pallidipennis (Hemiptera: Reduviidae).

Author

Favila-Ruiz G, Jiménez-Cortés JG, Córdoba-Aguilar A, Salazar-Schettino PM, Gutiérrez-Cabrera AE, Pérez-Torres A, De Fuentes-Vicente JA, Vences-Blanco MO, Bucio-Torres MI, Flores-Villegas AL, and Cabrera-Bravo M

Subjects

Animals, Catechol Oxidase genetics, Chagas Disease transmission, Enzyme Precursors genetics, Gene Expression Regulation, Enzymologic, Host-Parasite Interactions, Humans, Insect Vectors enzymology, Mice, Monophenol Monooxygenase genetics, Nymph enzymology, Nymph parasitology, Catechol Oxidase metabolism, Enzyme Precursors metabolism, Insect Vectors parasitology, Monophenol Monooxygenase metabolism, Reduviidae enzymology, Reduviidae parasitology, Trypanosoma cruzi physiology

Abstract

Background: Triatomine insects are vectors of Trypanosoma cruzi, the causal agent of Chagas disease. The insect-parasite interaction has been studied in relation to the transmission and prevalence of this disease. For most triatomines, however, several crucial aspects of the insect immune response are still unknown. For example, only for Rhodnius prolixus and Triatoma infestans has the activity of phenoloxidase (PO) and its zymogen prophenoloxidase (proPO) been reported in relation to the hemolymph and anterior midgut (AM). The aim of this study was to gain insight into the immune response to T. cruzi infection of an important triatomine in Mexico, Meccus pallidipennis., Methods: Parasites were quantified in the rectal contents of infected M. pallidipennis groups. We examined some key factors in disease transmission, including the systemic (hemolymph) and local (gut) immune response., Results: Parasites were present in the rectal contents at 4 days post-infection (pi) and reached their maximum density on day 7 pi. At 7 and 9 days pi mainly metacyclic trypomastigotes occurred. Compared to the control, the infected insects exhibited diminished PO activity in the hemolymph on days 9, 16 and 20 pi, and in the AM only on day 9. Additionally, infected insects displayed lower proPO activity in the hemolymph on day 1, but greater activity in the AM on day 28., Conclusions: The parasite strain originating from M. pallidipennis rapidly colonized the rectum of nymphs of this triatomine and developed high numbers of metacyclic trypomastigotes. Neither the changes of concentrations of PO and proPO in the hemolymph nor in the AM correlated with the changes in the population of T. cruzi.

Published

2018

20. Molecular characterization and allergenicity potential of triosephosphate isomerase from Sarcoptes scabiei.

Author

He R, Zhang H, Shen N, Guo C, Ren Y, Xie Y, Gu X, Lai W, Peng X, and Yang G

Subjects

Allergens genetics, Amino Acid Sequence, Animals, Arthropod Proteins chemistry, Arthropod Proteins metabolism, Female, Gene Expression Profiling veterinary, Larva enzymology, Larva genetics, Larva growth & development, Larva physiology, Nymph enzymology, Nymph genetics, Nymph growth & development, Nymph physiology, Phylogeny, Rabbits, Sarcoptes scabiei enzymology, Sarcoptes scabiei growth & development, Sarcoptes scabiei physiology, Scabies parasitology, Sequence Alignment veterinary, Skin immunology, Triose-Phosphate Isomerase chemistry, Triose-Phosphate Isomerase metabolism, Allergens immunology, Arthropod Proteins genetics, Sarcoptes scabiei genetics, Scabies immunology, Triose-Phosphate Isomerase genetics

Abstract

Scabies is an allergic skin disease that affects millions of mammals worldwide, including humans. It is a neglected tropical disease that represents a significant public health threat, particularly in economically disadvantaged populations. An effective vaccine is not currently available, and the exact mode of pathogenesis remains unclear. Herein, we identified, cloned and recombinantly expressed triosephosphate isomerase from Sarcoptes scabiei (S. scabiei). Immunohistochemical analyses showed that S. scabiei triosephosphate isomerase (Ss-TIM) is localized in the legs and chewing mouthparts of mites, and in infected rabbit skin (keratinized skin and embedded mites). Intradermal skin tests of rabbits injected with recombinant S. scabiei triosephosphate isomerase (rSs-TIM) revealed a flare, erythema and wheal reaction. These findings suggest that Ss-TIM may contribute to host invasion and induce an allergic response in the host., (Copyright © 2018. Published by Elsevier B.V.)

Published

2018

21. Identification of LmUAP1 as a 20-hydroxyecdysone response gene in the chitin biosynthesis pathway from the migratory locust, Locusta migratoria.

Author

Liu XJ, Sun YW, Li DQ, Li S, Ma EB, and Zhang JZ

Subjects

Animals, Chitin biosynthesis, Chitin Synthase genetics, Female, Hemolymph metabolism, Insect Proteins genetics, Insect Proteins metabolism, Locusta migratoria genetics, Locusta migratoria growth & development, Male, Nucleotidyltransferases genetics, Nymph enzymology, Chitin Synthase metabolism, Ecdysterone metabolism, Gene Expression Regulation, Locusta migratoria metabolism, Nucleotidyltransferases metabolism

Abstract

In Locusta migratoria, we found that two chitin biosynthesis genes, UDP N-acetylglucosamine pyrophosphorylase gene LmUAP1 and chitin synthase gene LmCHS1, are expressed mainly in the integument and are responsible for cuticle formation. However, whether these genes are regulated by 20-hydroxyecdysone (20E) is still largely unclear. Here, we showed the developmental expression pattern of LmUAP1, LmCHS1 and the corresponding 20E titer during the last instar nymph stage of locust. RNA interference (RNAi) directed toward a common region of the two isoforms of LmEcR (LmEcRcom) reduced the expression level of LmUAP1, while there was no difference in the expression of LmCHS1. Meantime, injection of 20E in vivo induced the expression of LmUAP1 but not LmCHS1. Further, we found injection-based RNAi of LmEcRcom resulted in 100% mortality. The locusts failed to molt with no apolysis, and maintained in the nymph stage until death. In conclusion, our preliminary results indicated that LmUAP1 in the chitin biosynthesis pathway is a 20E late-response gene and LmEcR plays an essential role in locust growth and development, which could be a good potential target for RNAi-based pest control., (© 2016 Institute of Zoology, Chinese Academy of Sciences.)

Published

2018

22. Knockdown of NADPH-cytochrome P450 reductase increases the susceptibility to carbaryl in the migratory locust, Locusta migratoria.

Author

Zhang X, Wang J, Liu J, Li Y, Liu X, Wu H, Ma E, and Zhang J

Subjects

Amino Acid Sequence, Animals, Gene Knockdown Techniques, Inactivation, Metabolic genetics, Insecticide Resistance genetics, Locusta migratoria enzymology, Nymph enzymology, Nymph genetics, Phylogeny, Carbaryl pharmacology, Insecticide Resistance drug effects, Insecticides pharmacology, Locusta migratoria drug effects, NADPH-Ferrihemoprotein Reductase genetics

Abstract

Background: NADPH-cytochrome P450 reductase (CPR) plays important roles in cytochrome P450-mediated metabolism of endogenous and exogenous compounds, and participates in cytochrome P450-related detoxification of insecticides. However, the CPR from Locusta migratoria has not been well characterized and its function is still undescribed., Results: The full-length of CPR gene from Locusta migratoria (LmCPR) was cloned by RT-PCR based on transcriptome information. The membrane anchor region, and 3 conserved domains (FMN binding domain, connecting domain, FAD/NADPH binding domain) were analyzed by bioinformatics analysis. Phylogenetic analysis showed that LmCPR was grouped in the Orthoptera branch and was more closely related to the CPRs from hemimetabolous insects. The LmCPR gene was ubiquitously expressed at all developmental stages and was the most abundant in the fourth-instar nymphs and the lowest in the egg stage. Tissue-specific expression analysis showed that LmCPR was higher expressed in ovary, hindgut, and integument. The CPR activity was relatively higher in Malpighian tubules and integument. Silencing of LmCPR obviously reduced the enzymatic activity of LmCPR, and enhanced the susceptibility of Locusta migratoria to carbaryl., Conclusion: These results suggest that LmCPR contributes to the susceptibility of L. migratoria to carbaryl and could be considered as a novel target for pest control., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

23. Identification and functional analysis of chitinase 7 gene in white-backed planthopper, Sogatella furcifera.

Author

Chen C, Yang H, Tang B, Yang WJ, and Jin DC

Subjects

Amino Acid Sequence, Animals, Base Sequence, Chitinases genetics, Cloning, Molecular, Gene Expression Regulation, Developmental, Hemiptera genetics, Hemiptera growth & development, Insect Proteins genetics, Nymph genetics, Nymph growth & development, Phylogeny, Wings, Animal growth & development, Chitinases metabolism, Hemiptera enzymology, Insect Proteins metabolism, Nymph enzymology, Wings, Animal enzymology

Abstract

Chitinase is used to degrade chitin in insect cuticles and the peritrophic matrix. In this study, the full-length cDNA sequence of a Cht gene (SfCht7) was identified and characterized from the white-black planthopper, Sogatella furcifera. The SfCht7 cDNA was 3148bp, contained an open reading frame of 2877bp and encoded 958 amino acids with a predicted molecular weight of 107.9kDa. Homology analysis indicated that SfCht7 has typical chitinase features include a chitin-binding domain, two catalytic domains and a signal peptide region. Phylogenetic analysis suggested that SfCht7 belonged to the group III chitinases. Quantitative real-time PCR analyses showed that SfCht7 was highly expressed before molting. After injecting SfCht7 double-stranded RNA in the nymph stage, insects exhibited phenotypes of difficulty in molting and wing development. A lethal phenotype was that nymph bodies exuviated from the head but the old cuticle did not detach completely from the body. Another lethal phenotype was that elongated distal wing pads of fifth-instar nymphs with junctions between the thorax and abdomen in the treatment group that were thinner than in the control group, giving a "wasp-waisted" appearance. In another phenotype that was not lethal, nymphs exuviated and old cuticles detached completely from the body, but the wings of adults did not stretch normally., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2017

24. Functional analysis of two polygalacturonase genes in Apolygus lucorum associated with eliciting plant injury using RNA interference.

Author

Zhang W, Liu B, Lu Y, and Liang G

Subjects

Animals, China, Feeding Behavior, Nymph enzymology, Nymph genetics, RNA Interference, Saliva enzymology, Gossypium parasitology, Heteroptera enzymology, Heteroptera genetics, Polygalacturonase genetics

Abstract

Salivary enzymes of many piercing-sucking insects lead to host plant injury. The salivary enzymes, polygalacturonase (PGs), act in insect feeding. PG family genes have been cloned from the mirid bug Apolygus lucorum, a pest of cotton and other host crops in China. We investigated the function of two PG genes that are highly expressed in A. lucorum nymphs (PG3-4) and adults (PG3-5), using siRNA injection-based RNA interference (RNAi). Accumulation of mRNA encoding both genes and their cognate proteins was significantly reduced (>60%) in experimental compared control green fluorescent protein (GFP) siRNA-treated mirids at 48 h post injection. Injury levels of cotton buds were also significantly reduced after injecting saliva isolated from PG3-4 and PG3-5 siRNA-treated A. lucorum. These results demonstrate that these two PG act in A. lucorum elicitation of plant injury., (© 2017 Wiley Periodicals, Inc.)

Published

2017

25. Establishing the role of detoxifying enzymes in field-evolved resistance to various insecticides in the brown planthopper (Nilaparvata lugens) in South India.

Author

Malathi VM, Jalali SK, Gowda DK, Mohan M, and Venkatesan T

Subjects

Animals, Esterases metabolism, Glutathione Transferase metabolism, Inactivation, Metabolic, India, Mixed Function Oxygenases metabolism, Nymph enzymology, Oryza, Hemiptera enzymology, Insecticide Resistance, Insecticides

Abstract

The brown planthopper (BPH), Nilaparvata lugens (Stål), is one of the major pests of rice throughout Asia. Extensive use of insecticides for suppressing N. lugens has resulted in the development of insecticide resistance leading to frequent control failures in the field. The aim of the present study was to evaluate resistance in the field populations of N. lugens from major rice growing states of South India to various insecticides. We also determined the activity of detoxifying enzymes (esterases [ESTs], glutathione S-transferases [GSTs], and mixed-function oxidases [MFOs]). Moderate levels of resistance were detected in the field populations to acephate, thiamethoxam and buprofezin (resistance factors 1.05-20.92 fold, 4.52-14.99 fold, and 1.00-18.09 fold, respectively) as compared with susceptible strain while there were low levels of resistance to imidacloprid (resistance factor 1.23-6.70 fold) and complete sensitivity to etofenoprox (resistance factor 1.05-1.66 fold). EST activities in the field populations were 1.06 to 3.09 times higher than the susceptible strain while for GST and MFO the ratios varied from 1.29 to 3.41 and 1.03 to 1.76, respectively. The EST activity was found to be correlated to acephate resistance (r = 0.999, P ≥ 0.001). The high selection pressure of organophosphate, neonicotinoid, and insect growth regulator (IGR) in the field is likely to be contributing for resistance in BPH to multiple insecticides, leading to control failures. The results obtained will be beneficial to IPM recommendations for the use of effective insecticides against BPH., (© 2015 Institute of Zoology, Chinese Academy of Sciences.)

Published

2017

26. Rice Stripe Virus Infection Alters mRNA Levels of Sphingolipid-Metabolizing Enzymes and Sphingolipids Content in Laodelphax striatellus.

Author

Jiao WJ, Li FQ, Bai YL, Shi XX, Zhu MF, Zhang MJ, Mao CG, and Zhu ZR

Subjects

Animals, Chromatography, High Pressure Liquid, Female, Hemiptera enzymology, Hemiptera metabolism, Insect Proteins metabolism, Male, Nymph enzymology, Nymph genetics, Nymph metabolism, Nymph virology, RNA, Messenger genetics, RNA, Messenger metabolism, Sequence Analysis, RNA, Sphingolipids metabolism, Tandem Mass Spectrometry, Gene Expression Regulation, Hemiptera genetics, Hemiptera virology, Insect Proteins genetics, Sphingolipids genetics, Tenuivirus physiology

Abstract

Sphingolipids and their metabolites have been implicated in viral infection and replication in mammal cells but how their metabolizing enzymes in the host are regulated by viruses remains largely unknown. Here we report the identification of 12 sphingolipid genes and their regulation by Rice stripe virus in the small brown planthopper (Laodelphax striatellus Fallén), a serious pest of rice throughout eastern Asia. According to protein sequence similarity, we identified 12 sphingolipid enzyme genes in L. striatellus. By comparing their mRNA levels in viruliferous versus nonviruliferous L. striatellus at different life stages by qPCR, we found that RSV infection upregulated six genes (LsCGT1, LsNAGA1, LsSGPP, LsSMPD4, LsSMS, and LsSPT) in most stages of L. striatellus Especially, four genes (LsCGT1, LsSMPD2, LsNAGA1, and LsSMS) and another three genes (LsNAGA1, LsSGPP, and LsSMS) were significantly upregulated in viruliferous third-instar and fourth-instar nymphs, respectively. HPLC-MS/MS results showed that RSV infection increased the levels of various ceramides, such as Cer18:0, Cer20:0, and Cer22:0 species, in third and fourth instar L. striatellus nymphs. Together, these results demonstrate that RSV infection alters the transcript levels of various sphingolipid enzymes and the contents of sphingolipids in L. striatellus, indicating that sphingolipids may be important for RSV infection or replication in L. striatellus., (© The Author 2017. Published by Oxford University Press on behalf of the Entomological Society of America.)

Published

2017

27. Toxicological, Enzymatic, and Molecular Assessment of the Insecticide Susceptibility Profile of Triatoma infestans (Hemiptera: Reduviidae, Triatominae) Populations From Rural Communities of Santa Cruz, Bolivia.

Author

Santo-Orihuela PL, Vassena CV, Carvajal G, Clark E, Menacho S, Bozo R, Gilman RH, Bern C, and Marcet PL

Subjects

Animals, Bolivia, Cytochrome P-450 Enzyme System genetics, Cytochrome P-450 Enzyme System metabolism, Esterases genetics, Esterases metabolism, Humans, Insect Proteins metabolism, Nymph drug effects, Nymph enzymology, Nymph genetics, Nymph growth & development, Rural Population, Triatoma enzymology, Triatoma genetics, Triatoma growth & development, Voltage-Gated Sodium Channels genetics, Voltage-Gated Sodium Channels metabolism, Insect Proteins genetics, Insecticide Resistance, Insecticides pharmacology, Nitriles pharmacology, Pyrethrins pharmacology, Triatoma drug effects

Abstract

A wide range of insecticide resistance profiles has been reported across Bolivian domestic and sylvatic populations of Triatoma infestans (Klug, 1834) (Hemiptera, Reduviidae), including some with levels proven to be a threat for vector control. In this work, the insecticide profile of domestic T. infestans was studied with standardized toxicological bioassays, in an area that has not undergone consistent vector control. F1 first-instar nymphs hatched in laboratory from bugs captured in three communities from the Santa Cruz Department were evaluated with different insecticides. Moreover, the enzymatic activity of esterases and cytochrome P450 monooxygenases was measured in individual insects to evaluate the possible mechanism of metabolic resistance to pyrethroids. In addition, the DNA sequence of sodium channel gene (kdr) was screened for two point mutations associated with pyrethroid resistance previously reported in T. infestans.All populations showed reduced susceptibility to deltamethrin and α-cypermethrin, albeit the RR50 values varied significantly among them. Increased P450 monooxygenases and permethrate esterases suggest the contribution, as detoxifying mechanisms, to the observed resistance to deltamethrin in all studied populations. No individuals presented either mutation associated to resistance in the kdr gene. The level of susceptibility to α-cypermethrin, the insecticide used by the local vector control program, falls within an acceptable range to continue its use in these populations. However, the observed RR50 values evidence the possibility of selection for resistance to pyrethroids, especially to deltamethrin. Consequently, the use of pyrethroid insecticides should be closely monitored in these communities, which should be kept under entomological surveillance and sustained interventions., (© The Authors 2016. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2017

28. Levels of Salivary Enzymes of Apolygus Lucorum (Hemiptera: Miridae), From 1st Instar Nymph to Adult, and Their Potential Relation to Bug Feeding.

Author

Tan X, Xu X, Gao Y, Yang Q, Zhu Y, Wang J, Wan F, and Zhou H

Subjects

Amylases metabolism, Animals, Cellulase metabolism, Eating, Enzyme Assays, Hemiptera metabolism, Life Cycle Stages, Nymph enzymology, Nymph metabolism, Peptide Hydrolases metabolism, Polygalacturonase metabolism, Salivary Glands enzymology, Hemiptera enzymology, Hemiptera growth & development, Hydrolases metabolism

Abstract

In recent years, Apolygus lucorum has caused increasing damage to cotton and fruit trees in China. The salivary enzymes secreted by A. lucorum when sucking on host plants induce a series of biochemical reactions in plants, and the pre-oral digestion benefits the bug feeding. In this study, the food intake of A. lucorum from 1st instar nymphs to adults was measured, and the corresponding salivary activity of pectinase, amylase, cellulase, protease, polyphenol oxidase and peroxidase was determined. Daily food intake varied with developmental stage, peaking in 3rd and 4th instar nymphs. Pectinase, amylase, cellulase and protease were detected in both nymphal and adult saliva of A. lucorum, while neither polyphenol oxidase nor peroxidase was detected. Protease activity varied with food intake peaking at the 3rd-4th instar, and then slightly decreasing at the 5th instar. Levels of pectinase, amylase and cellulase increased significantly with the daily feeding level until the 3rd instar, corresponding with increasing damage to host plants. The activity of both cellulase and protease had a significant linear relationship with the average daily food intake. The increasing activity of enzymes in saliva explain stage-specific impacts of A. lucorum on the host plants, and suggest that optimal management of A. lucorum would be confined to its control threshold prior to the peak of daily feeding in the 3rd instar., Competing Interests: The authors have declared that no competing interests exist.

Published

2016

29. Sublethal Effects of Insecticide Exposure on Megacopta cribraria (Fabricius) Nymphs: Key Biological Traits and Acetylcholinesterase Activity.

Author

Miao J, Reisig DD, Li G, and Wu Y

Subjects

Acetylcholinesterase metabolism, Animals, Heteroptera enzymology, Heteroptera growth & development, Imidazoles pharmacology, Neonicotinoids, Nitro Compounds pharmacology, Nymph drug effects, Nymph enzymology, Nymph growth & development, Organothiophosphorus Compounds pharmacology, Phosphoramides pharmacology, Pyrethrins pharmacology, Acetylcholinesterase genetics, Heteroptera drug effects, Insecticides pharmacology

Abstract

Megacopta cribraria F. (Hemiptera: Plataspidae), the kudzu bug, is an invasive insect pest of U.S. soybean. At present, insecticide application is the primary and most effective control option for M. cribraria In this study, the potential effects of sublethal and low-lethal concentrations (LC10 and LC40) of three common insecticides on key biological traits and acetylcholinesterase (AChE) activity of the treated nymphal stage of insect were assessed. The results show that the sublethal concentration of imidacloprid significantly reduced adult emergence rate of M. cribraria A low-lethal concentration of imidacloprid significantly increased nymphal development time, but significantly decreased adult emergence rate and adult longevity. Both sublethal and low-lethal concentrations of acephate caused an increase in nymphal development time and a reduction in adult emergence rate and adult longevity. Fecundity of females was significantly reduced only by exposure to low-lethal concentrations of acephate. Sublethal and low-lethal concentrations of bifenthrin increased nymphal development time, but significantly decreased adult emergence rate. In addition, we found that the AChE activity of M. cribraria was significantly increased only by LC40 imidacloprid, but strongly inhibited by acephate., (© The Author 2016. Published by Oxford University Press on behalf of the Entomological Society of America.)

Published

2016

30. Cytochrome P450 gene, CYP4G51, modulates hydrocarbon production in the pea aphid, Acyrthosiphon pisum.

Author

Chen N, Fan YL, Bai Y, Li XD, Zhang ZF, and Liu TX

Subjects

Animals, Aphids enzymology, Aphids growth & development, Aphids metabolism, Cytochrome P-450 Enzyme System metabolism, Insect Proteins metabolism, Nymph enzymology, Nymph genetics, Nymph growth & development, Nymph metabolism, RNA, Double-Stranded genetics, RNA, Double-Stranded metabolism, Transcription, Genetic, Up-Regulation, Aphids genetics, Cytochrome P-450 Enzyme System genetics, Hydrocarbons metabolism, Insect Proteins genetics

Abstract

Terrestrial insects deposit a layer of hydrocarbons (HCs) as waterproofing agents on their epicuticle. The insect-specific CYP4G genes, subfamily members of P450, have been found in all insects with sequenced genomes to date. They are critical for HC biosynthesis in Drosophila; however, their functional roles in other insects including the piercing-sucking hemipterous aphids remain unknown. In this study, we presented the molecular characterization and a functional study of the CYP4G51 gene in the pea aphid, Acyrthosiphon pisum (Harris). CYP4G51 transcript was detectable across the whole life cycle of A. pisum, and was prominently expressed in the aphid head and abdominal cuticle. Up-regulation of CYP4G51 under desiccation stress was more significant in the third instar nymphs compared with the adults. Also, up-regulation of CYP4G51 was observed when the aphids fed on an artificial diet compared with those fed on the broad bean plant, and was positively correlated with a high level of cuticular HCs (CHCs). RNAi knockdown of CYP4G51 significantly reduced its expression and caused reductions in both internal and external HCs. A deficiency in CHCs resulted in aphids being more susceptible to desiccation, with increased mortality under desiccation stress. The current results confirm that CYP4G51 modulates HC biosynthesis to protect aphids from desiccation. Moreover, our data also indicate that saturated and straight-chain HCs play a major role in cuticular waterproofing in the pea aphid. A. pisum CYP4G51 could be considered as a novel RNAi target in the field of insect pest management., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

31. Identification, characterization and functional analysis of a chitin synthase gene in the brown citrus aphid, Toxoptera citricida (Hemiptera, Aphididae).

Author

Shang F, Xiong Y, Xia WK, Wei DD, Wei D, and Wang JJ

Subjects

Animals, Aphids drug effects, Aphids enzymology, Aphids growth & development, Diflubenzuron pharmacology, Juvenile Hormones pharmacology, Molting drug effects, Nymph enzymology, Nymph genetics, Nymph growth & development, Open Reading Frames, Phylogeny, RNA Interference, Sequence Analysis, DNA, Aphids genetics, Chitin Synthase genetics, Gene Expression drug effects, Insect Proteins genetics

Abstract

Chitin synthase (CHS) is a crucial enzyme involved in the final step of the insect chitin biosynthetic pathway. In this study, we cloned the full-length cDNA sequence of a chitin synthase gene (TCiCHS) from the brown citrus aphid, Toxoptera citricida, an important citrus pest and the main vector of citrus tristeza virus worldwide. TCiCHS was expressed during the entire lifecycle and in all insect tissues examined. Expression was highest in first-second-instar nymphs, nymph-adult transitions and in the abdomen (6.7-fold higher than head). Embryos had a higher expression level than the integument. Fourth-instar nymphs were exposed to 5 and 500 mg/l concentrations of the chitin synthesis inhibitor diflubenzuron (DFB) for 48 h and had the highest mortality at the 500 mg/l concentration. The mRNA expression levels of TCiCHS were significantly enhanced upon the exposure of nymphs to both low and high DFB concentrations. Silencing of TCiCHS occurred through plant-mediated double-stranded RNA (dsRNA) feeding. Most dsRNA-fed nymphs were unable to moult to the next stage, and the expression of TCiCHS decreased 48% compared with controls. These results demonstrate that TCiCHS plays an important role in nymph to adult development, is possibly help identify molecular targets for To. citricida control., (© 2016 The Royal Entomological Society.)

Published

2016

32. Effects of resistant and susceptible rubber germplasms on development, reproduction and protective enzyme activities of Eotetranychus sexmaculatus (Acari: Tetranychidae).

Author

Lu F, Chen Z, Lu H, Liang X, Zhang H, Li Q, Chen Q, Huang H, Hua Y, and Tian W

Subjects

Animals, Female, Hevea chemistry, Hevea genetics, Larva enzymology, Larva growth & development, Male, Nymph enzymology, Nymph growth & development, Pest Control, Biological, Plant Leaves chemistry, Plant Leaves physiology, Tetranychidae growth & development, Antibiosis, Hevea physiology, Tetranychidae enzymology

Abstract

Systematic research or technical support regarding rubber germplasm resistance against mites was not performed yet. To develop a preliminary understanding of the mite-resistance mechanisms of rubber germplasms, stably resistant rubber germplasms were obtained, the development and reproduction of Eotetranychus sexmaculatus that fed on leaves of resistant and susceptible rubber germplasms were examined in the laboratory, and the activities of protective enzymes in this mite species were also compared. The results indicated that: (1) among the 23 rubber core germplasms identified, five (IRCI12, Reyan87-6-5, IAN717, RRIM600 and RRIC52) steadily developed resistance to E. sexmaculatus; (2) E. sexmaculatus that fed on the highly resistant germplasm IRCI12 did not complete development and reproduction-the female adults laid only 4.90 eggs on average, and none of these eggs hatched; (3) the resistant germplasms extended the duration of each developmental stage, reduced the fecundity, egg hatchability, and female offspring percentage, and significantly decreased the offspring survival rate compared with the susceptible germplasms; and (4) during each developmental stage of the mites that fed on resistant rubber germplasms, decreased activities (by 0.25-fold to 0.63-fold times) of the protective enzymes peroxidase, ascorbate peroxidase, polyphenol oxidase, superoxide dismutase and catalase were observed compared with those in the mites that fed on susceptible rubber germplasms (P < 0.05). These findings may explain why E. sexmaculatus did not complete their development and reproduction on the resistant rubber germplasms. This study lays a foundation for elucidation of the mechanism of rubber resistance to mites and provides experimental material and technical support for the breeding of mite-resistant rubber plants.

Published

2016

33. MOLECULAR IDENTIFICATION OF CYSTEINE AND TRYPSIN PROTEASE, EFFECT OF DIFFERENT HOSTS ON PROTEASE EXPRESSION, AND RNAI MEDIATED SILENCING OF CYSTEINE PROTEASE GENE IN THE SUNN PEST.

Author

Amiri A, Bandani AR, and Alizadeh H

Subjects

Amino Acid Sequence, Animals, Cathepsin L genetics, Cathepsin L metabolism, Cysteine Proteases genetics, Cysteine Proteases metabolism, DNA, Complementary genetics, DNA, Complementary metabolism, Gastrointestinal Tract metabolism, Heteroptera enzymology, Heteroptera growth & development, Heteroptera metabolism, Insect Proteins metabolism, Nymph enzymology, Nymph genetics, Nymph growth & development, Nymph metabolism, Phylogeny, Salivary Glands metabolism, Sequence Alignment, Sequence Analysis, DNA, Serine Proteases genetics, Serine Proteases metabolism, Trypsin genetics, Trypsin metabolism, Gene Expression Regulation, Heteroptera genetics, Insect Proteins genetics, RNA Interference

Abstract

Sunn pest, Eurygaster integriceps, is a serious pest of cereals in the wide area of the globe from Near and Middle East to East and South Europe and North Africa. This study described for the first time, identification of E. integriceps trypsin serine protease and cathepsin-L cysteine, transcripts involved in digestion, which might serve as targets for pest control management. A total of 478 and 500 base pair long putative trypsin and cysteine gene sequences were characterized and named Tryp and Cys, respectively. In addition, the tissue-specific relative gene expression levels of these genes as well as gluten hydrolase (Gl) were determined under different host kernels feeding conditions. Result showed that mRNA expression of Cys, Tryp, and Gl was significantly affected after feeding on various host plant species. Transcript levels of these genes were most abundant in the wheat-fed E. integriceps larvae compared to other hosts. The Cys transcript was detected exclusively in the gut, whereas the Gl and Tryp transcripts were detectable in both salivary glands and gut. Also possibility of Sunn pest gene silencing was studied by topical application of cysteine double-stranded RNA (dsRNA). The results indicated that topically applied dsRNA on fifth nymphal stage can penetrate the cuticle of the insect and induce RNA interference. The Cys gene mRNA transcript in the gut was reduced to 83.8% 2 days posttreatment. Also, it was found that dsRNA of Cys gene affected fifth nymphal stage development suggesting the involvement of this protease in the insect growth, development, and molting., (© 2015 Wiley Periodicals, Inc.)

Published

2016

34. Ecdysone receptor isoform-B mediates soluble trehalase expression to regulate growth and development in the mirid bug, Apolygus lucorum (Meyer-Dür).

Author

Tan YA, Xiao LB, Zhao J, Xiao YF, Sun Y, and Bai LX

Subjects

Animals, Carbohydrate Metabolism, Ecdysterone pharmacology, Gene Expression Regulation, Developmental, Heteroptera genetics, Heteroptera growth & development, Insect Proteins genetics, Nymph enzymology, Nymph genetics, Nymph growth & development, Protein Isoforms genetics, Protein Isoforms metabolism, RNA Interference, RNA, Small Interfering genetics, Receptors, Steroid genetics, Trehalase genetics, Heteroptera enzymology, Insect Proteins metabolism, Receptors, Steroid metabolism, Trehalase metabolism

Abstract

Ecdysone receptor (EcR) is the hormonal receptor of ecdysteroids and strictly regulates growth and development in insects. However, the action mechanism of EcR is not very clear. In this study, the cDNA of EcR isoform-B was cloned from Apolygus lucorum (AlEcR-B) and its expression profile was investigated. We reduced AlEcR-B mRNA expression using systemic RNA interference in vivo, and obtained knockdown specimens. Examination of these specimens indicated that AlEcR-B is required for nymphal survival, and that reduced expression is associated with longer development time and lower nymphal weight. To investigate the underlying molecular mechanism of the observed suppression effects, we selected trehalase for a detailed study. Transcript encoding soluble trehalase (AlTre-1) was up-regulated by 20-hydroxyecdysone and in agreement with the mRNA expression of AlEcR-B. The expression profile of AlTre-1, soluble trehalase activity and translated protein level in the midgut of surviving nymphs were down-regulated, compared with controls, after the knockdown expression of AlEcR-B. By contrast, membrane-bound trehalase activity, the related gene expression and translated protein level remained at their initial levels. However, trehalose content significantly increased and the glucose content significantly decreased under the same conditions. We propose that AlEcR-B controls normal carbohydrate metabolism by mediating the expression of AlTre-1 to regulate the growth and development in A. lucorum, which provide an extended information into the functions of AlEcR-B., (© 2015 The Royal Entomological Society.)

Published

2015

35. Genomic and transcriptomic insights into the cytochrome P450 monooxygenase gene repertoire in the rice pest brown planthopper, Nilaparvata lugens.

Author

Lao SH, Huang XH, Huang HJ, Liu CW, Zhang CX, and Bao YY

Subjects

Animals, Cytochrome P-450 Enzyme System drug effects, Female, Genes, Insect, Genomics, Hemiptera drug effects, Hemiptera genetics, Imidazoles pharmacology, Male, Neonicotinoids, Nitriles pharmacology, Nitro Compounds pharmacology, Nymph enzymology, Nymph genetics, Organothiophosphates pharmacology, Pyrethrins pharmacology, Triazoles pharmacology, Cytochrome P-450 Enzyme System genetics, Gene Expression Profiling, Gene Expression Regulation, Hemiptera enzymology, Insecticides pharmacology

Abstract

The cytochrome P450 monooxygenase (P450) gene family is one of the most abundant eukaryotic gene families that encode detoxification enzymes. In this study, we identified an abundance of P450 gene repertoire through genome- and transcriptome-wide analysis in the brown planthopper (Nilaparvata lugens), the most destructive rice pest in Asia. Detailed gene information including the exon-intron organization, size, transcription orientation and distribution in the genome revealed that many P450 loci were closely situated on the same scaffold, indicating frequent occurrence of gene duplications. Insecticide-response expression profiling revealed that imidacloprid significantly increased NlCYP6CS1v2, NLCYP4CE1v2, NlCYP4DE1, NlCYP417A1v2 and NlCYP439A1 expression; while triazophos and deltamethrin notably enhanced NlCYP303A1 expression. Expression analysis at the developmental stage showed the egg-, nymph-, male- and female-specific expression patterns of N. lugens P450 genes. These novel findings will be helpful for clarifying the P450 functions in physiological processes including development, reproduction and insecticide resistance in this insect species., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

36. Identification and functional characterization of esterases in Euschistus heros (Hemiptera, Pentatomidae) and their relationship with thiamethoxam and lambda-cyhalothrin.

Author

Hegeto LA, Ronqui L, Lapenta AS, and Albuquerque FA

Subjects

Animals, Enzyme Inhibitors chemistry, Esterases antagonists & inhibitors, Esterases metabolism, Genes, Insect, Genetic Loci, Hemiptera drug effects, Insect Proteins antagonists & inhibitors, Insect Proteins metabolism, Isoenzymes antagonists & inhibitors, Isoenzymes genetics, Isoenzymes metabolism, Lethal Dose 50, Neonicotinoids, Nymph drug effects, Nymph enzymology, Pest Control, Substrate Specificity, Thiamethoxam, Esterases genetics, Hemiptera enzymology, Insect Proteins genetics, Insecticides pharmacology, Nitriles pharmacology, Nitro Compounds pharmacology, Oxazines pharmacology, Pyrethrins pharmacology, Thiazoles pharmacology

Abstract

The brown stink bug Euschistus heros is the most abundant species of the soybean-sucking bugs, and causes large economic losses. Applying different chemical groups of organosynthetic insecticides for its control increases the potential for resistance. Esterases are a group of enzymes that play a variety of roles in insects, and some of them are related to the metabolism of xenobiotics. The aim of this study was to analyze the esterase isoenzyme system of this species and investigate its response to Engeo™ Pleno (thiamethoxam and lambda-cyhalothrin), which is the most widely used pesticide in soybean crops. Two strains were analyzed: the EB strain, which had been free of insecticides for several generations; and the MA strain, which was collected in a location exposed to agrochemicals. By analyzing the polyacrylamide gel electrophoresis profile, seven different esterases in adults and nymphs of both strains were found. Eight gene loci were responsible for the synthesis of these enzymes. The differences in esterases between the two strains and enzyme changes in insects exposed to Engeo™ Pleno suggest that EST-2 and EST-4 are related to the metabolism of the agrochemical used and are mechanisms of resistance.

Published

2015

37. Two chitinase 5 genes from Locusta migratoria: molecular characteristics and functional differentiation.

Author

Li D, Zhang J, Wang Y, Liu X, Ma E, Sun Y, Li S, Zhu KY, and Zhang J

Subjects

Amino Acid Sequence, Animals, Chitinases chemistry, Ecdysone, Ecdysterone pharmacology, Gene Expression Regulation, Developmental, Locusta migratoria enzymology, Locusta migratoria growth & development, Molecular Sequence Data, Multigene Family, Nymph enzymology, Nymph genetics, Nymph growth & development, Phylogeny, RNA Interference, Receptors, Steroid genetics, Chitinases genetics, Locusta migratoria genetics, Molting

Abstract

The duplication of chitinase 5 (Cht5) into two to five different genes has been reported only in mosquito species to date. Here, we report the duplication of Cht5 genes (LmCht5-1 and LmCht5-2) in the migratory locust (Locusta migratoria). Both LmCht5-1 (505 aa) and LmCht5-2 (492 aa) possess a signal peptide and a catalytic domain with four conserved motifs, but only LmCht5-1 contains a chitin-binding domain. Structural and phylogenetic analyses suggest that LmCht5-1 is orthologous to other insect Cht5 genes, whereas LmCht5-2 might be newly duplicated. Both LmCht5 genes were expressed in all tested tissues with LmCht5-1 highly expressed in hindgut and LmCht5-2 highly expressed in integument, foregut, hindgut and fat bodies. From the fourth-instar nymphs to the adults, LmCht5-1 and LmCht5-2 showed similar developmental expression patterns with transcript peaks prior to each nymphal molting, suggesting that their expression levels are similarly regulated. Treatment with 20-hydroxyecdysone (20E; the most active molting hormone) and reducing expression of EcR (ecdysone receptor gene) by RNAi increased and decreased expression of both LmCht5 genes, respectively, indicating that both genes are responsive to 20E. Although transcript level of LmCht5-2 is generally 10-fold higher than that of LmCht5-1, RNAi-mediated suppression of LmCht5-1 transcript led to severe molting defects and lethality, but such effects were not seen with RNAi of LmCht5-2, suggesting that the newly duplicated LmCht5-2 is not essential for development and survivorship of the locust., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

38. Molecular characterization of soluble and membrane-bound trehalases in the cotton mirid bug, Apolygus lucorum.

Author

Tan Y, Xiao L, Sun Y, Zhao J, Bai L, and Xiao Y

Subjects

Amino Acid Sequence, Animals, Female, Heteroptera growth & development, Insect Proteins chemistry, Insect Proteins metabolism, Molecular Sequence Data, Nymph enzymology, Nymph genetics, Phylogeny, Sequence Alignment, Trehalase chemistry, Trehalase metabolism, Heteroptera enzymology, Heteroptera genetics, Insect Proteins genetics, Trehalase genetics

Abstract

Trehalose, a major hemolymph sugar in insects, is hydrolyzed by trehalase. We identified a soluble and a membrane-bound form of trehalase and isolated the corresponding mRNA, ALTre-1, and ALTre-2 in the cotton mirid bug, Apolygus lucorum. The deduced amino acid sequences of ALTre-1 and ALTre-2 revealed mature proteins with 643 and 617 amino acids, respectively. ALTre-1 and ALTre-2 contained trehalase signature motifs, and ALTre-2 contained a putative transmembrane domain near the C-terminus, suggesting that ALTre-1 and ALTre-2 encoded a soluble trehalase and a membrane-bound trehalase, respectively. Comparison of trehalase activity at different developmental stages and in six tissues indicated that soluble trehalase activity accounted for the majority of total trehalase activity in A. lucorum. ALTre-1 and ALTre-2 were expressed in all tissues and stages, with the highest expression of both in the second instar nymphs, ALTre-1 in the ovary and malpighian tubules, ALTre-2 in the flight muscles and fat body. Following the exposure of second instar nymph to 20-E, the soluble trehalase activity increased gradually while the membrane-bound trehalase activity remained at its initial level. Similarly, 20-E upregulated ALTre-1 expression but had no effect on ALTre-2 expression. These results suggest that an increase of this soluble trehalase activity was upregulated by ALTre-1 gene., (© 2014 Wiley Periodicals, Inc.)

Published

2014

39. Development of RNAi methods for Peregrinus maidis, the corn planthopper.

Author

Yao J, Rotenberg D, Afsharifar A, Barandoc-Alviar K, and Whitfield AE

Subjects

Animals, Female, Gene Expression Regulation, Enzymologic, Hemiptera enzymology, Hemiptera physiology, Injections, Insect Control methods, Insect Proteins metabolism, Insect Vectors virology, Insect Viruses physiology, Male, Nymph enzymology, Nymph genetics, Nymph physiology, Ovulation genetics, RNA, Double-Stranded administration & dosage, RNA, Double-Stranded genetics, Reverse Transcriptase Polymerase Chain Reaction, Rhabdoviridae physiology, Vacuolar Proton-Translocating ATPases metabolism, Zea mays parasitology, Zea mays virology, Hemiptera genetics, Insect Proteins genetics, RNA Interference, Vacuolar Proton-Translocating ATPases genetics

Abstract

The corn planthopper, Peregrinus maidis, is a major pest of agronomically-important crops. Peregrinus maidis has a large geographical distribution and transmits Maize mosaic rhabdovirus (MMV) and Maize stripe tenuivirus (MSpV). The objective of this study was to develop effective RNAi methods for P. maidis. Vacuolar-ATPase (V-ATPase) is an essential enzyme for hydrolysis of ATP and for transport of protons out of cells thereby maintaining membrane ion balance, and it has been demonstrated to be an efficacious target for RNAi in other insects. In this study, two genes encoding subunits of P. maidis V-ATPase (V-ATPase B and V-ATPase D) were chosen as RNAi target genes. The open reading frames of V-ATPase B and D were generated and used for constructing dsRNA fragments. Experiments were conducted using oral delivery and microinjection of V-ATPase B and V-ATPase D dsRNA to investigate the effectiveness of RNAi in P. maidis. Real-time quantitative reverse transcriptase-PCR (qRT-PCR) analysis indicated that microinjection of V-ATPase dsRNA led to a minimum reduction of 27-fold in the normalized abundance of V-ATPase transcripts two days post injection, while ingestion of dsRNA resulted in a two-fold reduction after six days of feeding. While both methods of dsRNA delivery resulted in knockdown of target transcripts, the injection method was more rapid and effective. The reduction in V-ATPase transcript abundance resulted in observable phenotypes. Specifically, the development of nymphs injected with 200 ng of either V-ATPase B or D dsRNA was impaired, resulting in higher mortality and lower fecundity than control insects injected with GFP dsRNA. Microscopic examination of these insects revealed that female reproductive organs did not develop normally. The successful development of RNAi in P. maidis to target specific genes will enable the development of new insect control strategies and functional analysis of vital genes and genes associated with interactions between P. maidis and MMV.

Published

2013

40. Maturation of the immune system of the male house cricket, Acheta domesticus.

Author

Piñera AV, Charles HM, Dinh TA, and Killian KA

Subjects

Animals, Foreign-Body Reaction, Gryllidae growth & development, Hemocytes, Hemolymph enzymology, Male, Muramidase metabolism, Nymph enzymology, Nymph immunology, Gryllidae immunology, Hemolymph cytology, Immunity, Innate, Monophenol Monooxygenase metabolism

Abstract

The immune system functions to counteract the wide range of pathogens an insect may encounter during its lifespan, ultimately maintaining fitness and increasing the likelihood of survival to reproductive maturity. In this study, we describe the maturation of the innate immune system of the male house cricket Acheta domesticus during the last two nymphal stages, and during early and late adulthood. Total hemolymph phenoloxidase enzyme activity, lysozyme-like enzyme activity, the number of circulating hemocytes, and encapsulation ability were all determined for each developmental stage or age examined. The number of circulating hemocytes and lysozyme-like enzyme activity were similar for all developmental stages examined. Nymphs and newly molted adult males, however, had significantly lower total phenoloxidase activity than later adult stages, yet nymphs were able to encapsulate a nylon thread just as well as adults. Encapsulation ability would thus appear to be independent of total phenoloxidase activity., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

41. Regulation of amylase, cellulase and chitinase secretion in the digestive tract of the two-spotted field cricket, Gryllus bimaculatus.

Author

Weidlich S, Müller S, Hoffmann KH, and Woodring J

Subjects

Aging, Animals, Feeding Behavior, Gastrointestinal Tract enzymology, Gryllidae growth & development, Metamorphosis, Biological, Nymph enzymology, Nymph growth & development, Photoperiod, Sex Characteristics, Amylases metabolism, Cellulase metabolism, Chitinases metabolism, Gryllidae enzymology

Abstract

The secretion of amylase and cellulase in Gryllus bimaculatus is determined by increased food intake, whereby shortly after molting food consumption increases. About half of the standing amylase concentration (activity) in the endothelial cells can be secreted within 30 min. The peak of amylase and cellulase secretion that occurs in the photophase is related to the feeding peak in the previous scotophase. The secretion of chitinase on the other hand is primarily controlled by the molting cycle. Only amylase secretion was affected by calcium in the incubation medium, suggesting an apocrine release mechanism. Refeeding experiments (after 5 days without food) suggest that the release of amylase in response to a nutrient in the lumen (glucose) is not due to simple stimulation of exocytosis, but rather a stimulation of synthesis., (© 2013 Wiley Periodicals, Inc.)

Published

2013

42. Glutathione S-transferase of brown planthoppers (Nilaparvata lugens) is essential for their adaptation to gramine-containing host plants.

Author

Sun XQ, Zhang MX, Yu JY, Jin Y, Ling B, Du JP, Li GH, Qin QM, and Cai QN

Subjects

Adaptation, Physiological, Animals, Gene Knockdown Techniques, Glutathione Transferase genetics, Herbivory, Indole Alkaloids, Insect Proteins genetics, Nymph enzymology, Pest Control, RNA Interference, RNA, Messenger genetics, RNA, Messenger metabolism, Weight Gain, Alkaloids metabolism, Glutathione Transferase metabolism, Hemiptera enzymology, Insect Proteins metabolism, Oryza metabolism

Abstract

Plants have evolved complex processes to ward off attacks by insects. In parallel, insects have evolved mechanisms to thwart these plant defenses. To gain insight into mechanisms that mediate this arms race between plants and herbivorous insects, we investigated the interactions between gramine, a toxin synthesized by plants of the family Gramineae, and glutathione S transferase (GST), an enzyme found in insects that is known to detoxify xenobiotics. Here, we demonstrate that rice (Oryza sativa), a hydrophytic plant, also produces gramine and that rice resistance to brown planthoppers (Nilaparvata lugens, BPHs) is highly associated with in planta gramine content. We also show that gramine is a toxicant that causes BPH mortality in vivo and that knockdown of BPH GST gene nlgst1-1 results in increased sensitivity to diets containing gramine. These results suggest that the knockdown of key detoxification genes in sap-sucking insects may provide an avenue for increasing their sensitivity to natural plant-associated defense mechanisms.

Published

2013

43. Identification and characterization of sialidase-like activity in the developmental stages of Amblyomma variegatum.

Author

Natala AJ, Balogun EO, Balogun JA, Inuwa HM, Nok AJ, Shiba T, Harada S, Kita K, Agbede RI, and Esievo KA

Subjects

Animals, Arthropod Vectors enzymology, Arthropod Vectors growth & development, Erythrocytes metabolism, Ixodidae growth & development, Kinetics, Larva enzymology, Metals metabolism, Neuraminidase isolation & purification, Nymph enzymology, Ruminants, Salivary Glands enzymology, Sialic Acids metabolism, Ixodidae enzymology, Neuraminidase metabolism

Abstract

Amblyomma variegatum F. are obligate hematophagous ectoparasites of livestock that serve as the vectors of Ehrlichia ruminantium (formerly known as Cowdria ruminantium), the causative agent of heartwater disease. In the light of the fact that they are blood-feeding, their salivary glands play prominent role in their acquisition of nutrients from the bloodmeal. Sialic acids are a major component of glycoprotein in mammalian blood fluid and cells. Sialome of hard ticks is still sparse. Here, for the first time, the possible expression of sialidase in A. variegatum was investigated. Our finding established the presence of type II sialidase-like activity in the three stages (larva, nymph, and adult) of the fed and unfed tick. There was no statistically significant difference in sialidase activity in the various stages of this ectoparasite (P > 0.05). The enzyme was purified by combination of salting out and ion exchange chromatography on DEAE--cellulose and hydroxylapatite columns. Characterization of the enzyme revealed that it is optimally active at 40 degrees C and pH 5.5, and is activated by bivalent cations Zn2+ or Fe2+. The enzyme has a Km of 0.023 mM and Vmax of 0.16 millimol/min with Fetuin as the substrate. To assess the susceptibility of some mammalian cells to the tick sialidase, we prepared erythrocyte ghost cells from different animals, which were incubated with the enzyme. Results revealed that the ruminant cells were better substrates. Our work and findings contribute to the preliminary characterization of the A. variegatum salivary proteome, and may pave way to the development of new acaricides.

Published

2013

44. [Effect of population density on enzymatic activity of antioxidative and phenol oxidase systems of imagoes and nymphs of the marble cockroach Nauphoeta cinerea].

Author

Murzagulov GS, Saltykova ES, Gaĭfullina LR, and Nikolenko AG

Subjects

Animals, Antioxidants metabolism, Antioxidants physiology, Hemolymph enzymology, Intestines enzymology, Nymph enzymology, Nymph physiology, Population Density, Catalase metabolism, Cockroaches enzymology, Cockroaches physiology, Monophenol Monooxygenase metabolism, Peroxidase metabolism

Abstract

The work deals with effect of density of population on functional activity of components pf protective system of adult individuals and nymphs of the marble cockroach. The resistance of individuals has been noted to decrease both at individual maintenance and under conditions of overpopulation. Changes in activities of enzymes of antioxidative and phenoloxidase systems are studied ion the insect hemolymph and intestine. Possible consequences of isolation and overpopulation are discussed both for stability and for individual development.

Published

2013

45. Effect of sesame leaf diet on detoxification activities of insects with different feeding behavior.

Author

Sintim HO, Tashiro T, and Motoyama N

Subjects

Animals, Larva enzymology, Nymph enzymology, Biotransformation, Feeding Behavior, Herbivory, Insecta enzymology, Sesamum

Abstract

Three diverse insects, a polyphagous "leaf chewer" (Atractomorpha lata), a polyphagous "sap feeder" (Myzus persicae), and a "restrictive feeder" (Plutella xylostella) responded differently when fed with eight cultivars of sesame either as whole leaf or via artificial diet. There was limited or no correlation in induction between detoxifying enzyme substrates (esterase, glutathione s-transferase [GST], and mixed function oxidase [MFO] activities) when activity toward various substrates α-naphthyl acetate, 1-chloro-2,4-dinitrobenzene, 1,2-dichloro-4-nitrobenzene, and p-nitroanisole (pNA), were compared although they were generally elevated in the tissues from insects on sesame than a reference fed with radish seedlings. In A. lata, esterase activity for the cultivar 11Pusan and 45Laos were three-fold higher compared to the reference, while other cultivars, 24Nanbu-twasaki and 56S-radiatum were--two- to three-fold lower than the reference. In M. persicae, the esterase activity was as much as five-fold higher than the reference in one test cultivar. GST activities of the sesame cultivars were generally higher (≈two-fold) than the reference in all insects and at variable ratios among the cultivars. The MFO activity toward pNA in grasshoppers feeding on these sesame cultivars was either highly expressed or nonexistent. These results indicate that although the cultivars belong to the same species, they might have undergone changes in secondary phytochemicals in response to varying biogeographical distribution. Each insect species is suspected to target a specific plant chemical burden that it tries to overcome in each cultivar through enzyme activation., (© 2012 Wiley Periodicals, Inc.)

Published

2012

46. Molecular and morphological characterization of mealybugs (Hemiptera: Pseudococcidae) from Chilean vineyards.

Author

Correa MC, Germain JF, Malausa T, and Zaviezo T

Subjects

Animals, Chile, DNA, Intergenic genetics, Electron Transport Complex IV genetics, Female, Hemiptera anatomy & histology, Hemiptera enzymology, Insect Control, Molecular Sequence Data, Nymph anatomy & histology, Nymph classification, Nymph enzymology, Nymph genetics, Polymerase Chain Reaction, Sequence Alignment, Sequence Analysis, DNA, Vitis growth & development, Hemiptera classification, Hemiptera genetics, Insect Proteins genetics

Abstract

Mealybugs are major pests of grapevines worldwide. They cause economic losses by lowering the cosmetic value of fruits, reducing yields, transmitting viruses and resulting in the quarantine or rejection of produce in international trade. Knowledge of the species present in a vineyard is important for the adjustment of management strategies. We surveyed and accurately characterized the mealybugs infesting vineyards in one of the main production areas of Chile; 164 mealybugs were sampled from 26 vineyards in four regions of Chile and identified by DNA sequencing for two markers (cytochrome oxidase I and internal transcribed spacer 2) and morphological examination. Pseudococcus viburni (Signoret) was the most common species, followed by Pseudococcus meridionalis Prado and Pseudococcus cribata González. Molecular variability at the COI and ITS2 loci was observed in both P. viburni and P. cribata. A comparison of haplotypes of P. viburni worldwide provides support for a recent hypothesis that this species is native to South America, a finding with direct consequences for management. Neither Pseudococcus longispinus (Targioni & Tozzetti) nor Planococcus ficus Signoret were found.

Published

2012

47. Biochemical basis of organophosphate and carbamate resistance in Asian citrus psyllid.

Author

Tiwari S, Stelinski LL, and Rogers ME

Subjects

Acetylcholinesterase metabolism, Animals, Citrus, Esterases metabolism, Florida, Glutathione Transferase metabolism, Insect Proteins metabolism, Nymph enzymology, Carbamates, Hemiptera enzymology, Insecticide Resistance, Insecticides, Organophosphorus Compounds

Abstract

The Asian citrus psyllid, Diaphorina citri Kuwayama, is a worldwide pest of citrus, which vectors the putative causal pathogen of huanglongbing. Current management practices warrant continuous monitoring of field populations for insecticide resistance. Baseline activities of acetylcholinesterase (AChE), general esterase, and glutathione S-transferase as well as sensitivity of AChE to selected organophosphate and carbamate insecticides were established for a susceptible laboratory strain (Lab) and compared with several field populations of D. citri from Florida. The specific activity of AChE in various D. citri populations ranged from 0.77 to 1.29 microM min(-1) mg of protein(-1); the Lab strain was characterized by the highest activity. Although reduced AChE sensitivity was observed in the Lab strain compared with field populations, overlap of 95% confidence intervals of I50 values (concentration required for 50% AChE activity inhibition) suggests no significant difference in AChE sensitivity among all populations tested for a given insecticide. There was no significant evidence of target site insensitivity in field populations that were exposed to the selected organophosphate and carbamate insecticides tested. The specific activity of general esterase and glutathione S-transferase was lowest in the Lab strain and was generally comparable to that of the field populations evaluated. The current data provide a mode-of-action specific baseline for future monitoring of resistance to organophosphate and carbamate insecticides in populations of D. citri.

Published

2012

48. Ontogenetic changes in immunity and susceptibility to fungal infection in Mormon crickets Anabrus simplex.

Author

Srygley RB

Subjects

Animals, Body Size, Female, Foreign-Body Reaction, Longevity, Male, Metarhizium, Monophenol Monooxygenase metabolism, Nymph enzymology, Nymph immunology, Orthoptera enzymology, Reproduction, Host-Pathogen Interactions, Orthoptera growth & development, Orthoptera immunology, Sex Characteristics

Abstract

Insects have innate immunity that may be weakened by resource allocation to growth. I measured enzymatic immunity, encapsulation response, and susceptibility to fungal infection in Mormon crickets of known age. Although the concentrations of circulating spontaneous and total phenoloxidase (PO) increased with age from the most recent molt in late instar nymphs (5th, 6th, and 7th) and 0-5 day old adults, mean values did not differ between stadia, indicating that circulating PO titers are knocked back with each molt. In contrast, encapsulation rate increased throughout nymphal development and adult maturation. No longer required to molt, adult PO titers increased steadily with age. Survivorship also increased with the age at which Metarhizium acridum fungus was applied to adults. I conclude that immunity relevant to defense against fungi continues to develop well into the adult stage. With each molt setting the insects back in circulating PO titers, very young adults are much like nymphs in enzymatic immunity., (Published by Elsevier Ltd.)

Published

2012

49. Age- and density-dependent prophylaxis in the migratory, cannibalistic Mormon cricket Anabrus simplex (Orthoptera: Tettigoniidae).

Author

Srygley RB

Subjects

Analysis of Variance, Animals, Catechol Oxidase blood, Crowding, Enzyme Precursors blood, Female, Insect Proteins blood, Male, Micrococcus physiology, Monophenol Monooxygenase blood, Montana, Nymph enzymology, Nymph growth & development, Nymph immunology, Orthoptera enzymology, Population Density, Sexual Maturation, Orthoptera growth & development, Orthoptera immunology

Abstract

As a result of the increased potential for disease transmission, insects are predicted to show an increased constitutive immunity when crowded. Cannibalistic aggressive interactions further increase the risk of wounding and pathogen transmission in crowds. Nymphal Mormon crickets Anabrus simplex Haldeman were collected in Montana and reared in the laboratory either solitarily or at densities similar to that experienced by Mormon crickets in migratory bands. As teneral adults, solitarily-reared Mormon crickets tended to have greater phenoloxidase activity than those reared in groups. Sampling enzyme activity a second time when the adults were nearing reproductive maturity, group-reared Mormon crickets had elevated levels of prophenoloxidase and encapsulated foreign objects faster than solitarily-reared insects. Rearing density did not have a significant effect on either the darkness of the cuticle or antibacterial activity. This is the first report of age-related responses of adult insect immunity to crowding.

Published

2012

50. Characterization of a chitin synthase encoding gene and effect of diflubenzuron in soybean aphid, Aphis glycines.

Author

Bansal R, Mian MA, Mittapalli O, and Michel AP

Subjects

Amino Acid Motifs, Animals, Aphids enzymology, Aphids growth & development, Chitin Synthase antagonists & inhibitors, Chitin Synthase chemistry, Chitin Synthase metabolism, Insect Control, Molecular Sequence Data, Nymph enzymology, Nymph genetics, Open Reading Frames, Phylogeny, RNA Interference, Sequence Alignment, Sequence Analysis, DNA, Sequence Analysis, Protein, Aphids genetics, Chitin Synthase genetics, Diflubenzuron, Enzyme Inhibitors, Insecticides

Abstract

Chitin synthases are critical enzymes for synthesis of chitin and thus for subsequent growth and development in insects. We identified the cDNA of chitin synthase gene (CHS) in Aphis glycines, the soybean aphid, which is a serious pest of soybean. The full-length cDNA of CHS in A. glycines (AyCHS) was 5802 bp long with an open reading frame of 4704 bp that encoded for a 1567 amino acid residues protein. The predicted AyCHS protein had a molecular mass of 180.05 kDa and its amino acid sequence contained all the signature motifs (EDR, QRRRW and TWGTR) of chitin synthases. The quantitative real-time PCR (qPCR) analysis revealed that AyCHS was expressed in all major tissues (gut, fat body and integument); however, it had the highest expression in integument (~3.5 fold compared to gut). Interestingly, the expression of AyCHS in developing embryos was nearly 7 fold higher compared to adult integument, which probably is a reflection of embryonic molts in hemimetabolus insects. Expression analysis in different developmental stages of A. glycines revealed a consistent AyCHS expression in all stages. Further, through leaf dip bioassay, we tested the effect of diflubenzuron (DFB, Dimilin ®), a chitin-synthesis inhibitor, on A. glycines' survival, fecundity and body weight. When fed with soybean leaves previously dipped in 50 ppm DFB solution, A. glycines nymphs suffered significantly higher mortality compared to control. A. glycines nymphs feeding on diflubenzuron treated leaves showed a slightly enhanced expression (1.67 fold) of AyCHS compared to nymphs on untreated leaves. We discussed the potential applications of the current study to develop novel management strategies using chitin-synthesis inhibitors and using RNAi by knocking down AyCHS expression.

Published

2012