Your search keyword '"Lepidopteran"' showing total 89 results

1. Insecticidal activities of two fig tree leaf extracts against the cotton pest Spodoptera litura (Fab.) and their impact on the non‐target red worm Eisenia foetida (Savigny).

Author

Vasantha‐Srinivasan, Prabhakaran, Shanmuga‐Priya, Sridhar, Han, Yeon Soo, Radhakrishnan, Narayanaswamy, Amala, Kesavan, Karthi, Sengodan, and Senthil‐Nathan, Sengottayan

Subjects

*SPODOPTERA littoralis, *EISENIA foetida, *FIG, *COTTON, *ACID phosphatase, *DIGESTIVE enzymes, *LACTATE dehydrogenase

Abstract

Extracts of botanical origin naturally contain a complex mixture of chemicals considered effective in managing lepidopteran pests. Chemical screening of the ethanolic leaf extracts of two fig tree species, Ficus lyrata and Ficus auriculata, delivered 12 and 15 phyto‐compounds with relatively high peak area percentages in phytol and flavone, respectively. Larvicidal activity against Spodoptera litura yielded higher mortality rates at maximum‐concentration treatment (600 ppm) with Ficus lyrata (91.3%) and Ficus auriculata (98.5%) extracts during the second instar. Sub‐lethal dosages (300 ppm) of both Ficus lyrata and Ficus auriculata extracts impeded the development and reproduction of lepidopteran pests. The enzyme‐inhibition activity of both fig extracts elicited a significant reduction in the major digestive enzymes alkaline phosphatase, acid phosphatase, and lactate dehydrogenase dose‐responsively. Mid‐gut histological screening of Ficus lyrata and Ficus auriculata extracts displayed gut lumen disruptions, shape alterations of columnar cells, and brush‐border membrane damage. Further, the non‐target toxicity of fig extracts against the red worm Eisenia foetida was minimal compared with that of the chemical temephos. Overall, the Ficus extracts proved to be eco‐friendly strategies for managing the polyphagous pest Spodoptera litura and are potentially more sustainable and less harmful to non‐target earthworms. Nonetheless, in silico predictions suggest that the active compounds in fig extracts are predominantly toxic against honeybees (16 compounds) and violate TICE rules (10 compounds). Therefore, the biological actions of fig extracts' individual novel chemistries need to be examined on target and non‐target species to develop better pest management strategies. [ABSTRACT FROM AUTHOR]

Published

2023

2. Lepidopteran

Author

Pant, AB

Published

2024

3. Impacts of Climatic Variability and Hurricanes on Caterpillar Diet Breadth and Plant-Herbivore Interaction Networks

Author

Boege, Karina, Delgado, Ivonne P., Zetina, Jazmin, del-Val, Ek, Marquis, Robert J., editor, and Koptur, Suzanne, editor

Published

2022

4. An insight to lepidopteran noctuidae pests of Nicotiana tabacum

Author

Das, Bratindra Krishna and Sarkar, Tapan

Published

2022

5. Distal-less and spalt are distal organisers of pierid wing patterns

Author

Jocelyn Liang Qi Wee, Tirtha Das Banerjee, Anupama Prakash, Kwi Shan Seah, and Antonia Monteiro

Subjects

Pieridae, Lepidopteran, Wing pattern, Distal-less, Spalt, Evolution, QH359-425

Abstract

Abstract Two genes, Distal-less (Dll) and spalt (sal), are known to be involved in establishing nymphalid butterfly wing patterns. They function in several ways: in the differentiation of the eyespot’s central signalling cells, or foci; in the differentiation of the surrounding black disc; in overall scale melanisation (Dll); and in elaborating marginal patterns, such as parafocal elements. However, little is known about the functions of these genes in the development of wing patterns in other butterfly families. Here, we study the expression and function of Dll and sal in the development of spots and other melanic wing patterns of the Indian cabbage white, Pieris canidia, a pierid butterfly. In P. canidia, both Dll and Sal proteins are expressed in the scale-building cells at the wing tips, in chevron patterns along the pupal wing margins, and in areas of future scale melanisation. Additionally, Sal alone is expressed in the future black spots. CRISPR knockouts of Dll and sal showed that each gene is required for the development of melanic wing pattern elements, and repressing pteridine granule formation, in the areas where they are expressed. We conclude that both genes likely play ancestral roles in organising distal butterfly wing patterns, across pierid and nymphalid butterflies, but are unlikely to be differentiating signalling centres in pierids black spots. The genetic and developmental mechanisms that set up the location of spots and eyespots are likely distinct in each lineage.

Published

2022

6. Landscape woody features, local management and vegetation composition shape moth communities in extensively managed grasslands.

Author

Kühne, Isabel, Arlettaz, Raphaël, and Humbert, Jean‐Yves

Subjects

*VEGETATION management, *COMMUNITIES, *GRASSLANDS, *MOTHS, *SPECIES diversity, *WOODY plants, *ECOSYSTEMS

Abstract

Agricultural intensification has led to a dramatic impoverishment of biodiversity. Moths are not an exception: rapid declines of common and widespread species have been reported and it is still not clear which conservation measures should be applied to restore their populations.We investigated how much of the variation in moth assemblages inhabiting extensively managed meadows in a region of high‐intensity agriculture is explained by surrounding woody landscape features, meadow management and vegetation composition, and which specific variables are the most influential.Results show that the percentage of forest and the length of hedgerows within a 250 m radius were especially important for forest macromoths, explaining 42% of variation in abundance and 23% of species richness, whereas meadow management played a relatively marginal role. The abundance of grassland macromoths was also positively influenced by the length of hedgerows in the landscape (combined with elevation it explained 10% of the variance), while it responded negatively to uncut refuge and to delayed mowing (7%). Regarding grassland macromoth species richness, the annual harvesting frequency was the main predictor (4%). In contrast, micromoth abundance was more influenced by meadow management, notably the date of the first cut (4%) and vegetation composition (8%, though not conclusive due to a single outlier), whereas landscape features explained nothing.Altogether, these results demonstrate the importance of both woody features within farmed landscapes and biodiversity‐friendly meadow management for the maintenance of integral moth communities. [ABSTRACT FROM AUTHOR]

Published

2022

7. Comparative in Silico Studies for the Molecular Basis of Lepidopteran Insect Pests Bio-Control Using Insect’s Own Enzymes

Author

Amardev Rajesh, V., Mamatha, D. M., Bhaskar, M., Tsihrintzis, George A., Series Editor, Virvou, Maria, Series Editor, Jain, Lakhmi C., Series Editor, Jyothi, S., editor, Mamatha, D. M., editor, Satapathy, Suresh Chandra, editor, Raju, K. Srujan, editor, and Favorskaya, Margarita N., editor

Published

2020

8. Distal-less and spalt are distal organisers of pierid wing patterns.

Author

Wee, Jocelyn Liang Qi, Das Banerjee, Tirtha, Prakash, Anupama, Seah, Kwi Shan, and Monteiro, Antonia

Subjects

CELL communication, BUTTERFLIES, PTERIDINES, CRISPRS

Abstract

Two genes, Distal-less (Dll) and spalt (sal), are known to be involved in establishing nymphalid butterfly wing patterns. They function in several ways: in the differentiation of the eyespot's central signalling cells, or foci; in the differentiation of the surrounding black disc; in overall scale melanisation (Dll); and in elaborating marginal patterns, such as parafocal elements. However, little is known about the functions of these genes in the development of wing patterns in other butterfly families. Here, we study the expression and function of Dll and sal in the development of spots and other melanic wing patterns of the Indian cabbage white, Pieris canidia, a pierid butterfly. In P. canidia, both Dll and Sal proteins are expressed in the scale-building cells at the wing tips, in chevron patterns along the pupal wing margins, and in areas of future scale melanisation. Additionally, Sal alone is expressed in the future black spots. CRISPR knockouts of Dll and sal showed that each gene is required for the development of melanic wing pattern elements, and repressing pteridine granule formation, in the areas where they are expressed. We conclude that both genes likely play ancestral roles in organising distal butterfly wing patterns, across pierid and nymphalid butterflies, but are unlikely to be differentiating signalling centres in pierids black spots. The genetic and developmental mechanisms that set up the location of spots and eyespots are likely distinct in each lineage. [ABSTRACT FROM AUTHOR]

Published

2022

9. Phytometabolites from coral jasmine flower extracts: Toxic effects on Spodoptera litura and enzyme inhibition in nontarget earthworm Eisenia fetida as an alternative approach.

Author

Dhivya, Muruhesan, Karthi, Sengodan, Amala, Kesavan, Vasantha-Srinivasan, Prabhakaran, Han, Yeon Soo, Obaid, Sami Al, Senthil-Nathan, Sengottayan, and Park, Ki Beom

Subjects

*POISONS, *EISENIA foetida, *SPODOPTERA littoralis, *EARTHWORMS, *NON-target organisms, *CYPERMETHRIN, *ENZYMES, *JASMINE, *PHYTOCHEMICALS

Abstract

Green pesticides, derived from natural sources, have gained wider attention as an alternative to synthetic pesticides for managing polyphagous pests, such as Spodoptera litura. In this study, the methanolic flower extract of Nyctanthes arbor-tristis (Mx-Na-t) was subjected to chemical screening, and 3-hydroxy-1,2-dimethyl-4(1H)-pyridone (3H-dp) and tyrosol (Ty-ol) were identified as the major derivatives. The toxic effects of Mx-Na-t (500 ppm) were highest in third-instar S. litura larvae (96.4%), while those of 3H-dp and Ty-ol (5 ppm) were highest in second-instar larvae (76.5% and 81.4%, respectively). The growth and development of S. litura larvae and pupae were significantly reduced by all three treatments. Fecundity rates were also reduced by all treatments [from 1020 eggs (control) to 540 eggs by Mx-Na-t treatment, 741 eggs by 3H-dp treatment, and 721 eggs by Ty-ol treatment]. The extract and its active constituents decreased adult emergence and slowed total larval development in a dose-dependent manner. A decrease was noted in the major gut enzymes of young S. litura larvae exposed to Mx-Na-t, 3H-dp, and Ty-ol. Moreover, midgut tissues of fourth-instar larvae were severely damaged by Mx-Na-t (250 ppm), 3H-dp (2.5 ppm), and Ty-ol (2.5 ppm); the treatments induced structural damage to the epithelial cells and gut lumen. The earthworm Eisenia fetida was used to assess nontarget toxicity. Compared with cypermethrin, the phytochemicals exhibited minimal effects on the earthworm's detoxifying enzymes superoxide dismutase and catalase after 14 days of treatment. Moreover, in silico predictions using BeeTox and ProTox-II indicated little or no toxicity of 3H-dp and Ty-ol toward honey bees and other nontarget species. • Toxicity against S. litura larvae of Mx-Na-t (at 500 ppm) was highest in 3rd instars. • Phytometabolites of Mx-Nat delivered significant inhibition of S. litura midgut enzymes. • Growth and development of S. litura larvae and pupae were significantly reduced. • The nontarget toxicty of phytometabolites delivered harmless actions against earthworm. [ABSTRACT FROM AUTHOR]

Published

2024

10. Entomopathogenic fungi promising biocontrol agents for managing lepidopteran pests: Review of current knowledge.

Author

Karthi, Sengodan, Vasantha-Srinivasan, Prabhakaran, Senthil-Nathan, Sengottayan, Han, Yeon Soo, Shivakumar, Muthugounder Subramanian, Murali-Baskaran, Ramasamy Kanagaraj, Kalaivani, Kandaswamy, Radhakrishnan, Narayanaswamy, Park, Ki Beom, and Malafaia, Guilherme

Subjects

ENTOMOPATHOGENIC fungi, BIOLOGICAL pest control agents, EXTRACELLULAR enzymes, METABOLITES, PROTEOLYTIC enzymes

Abstract

Entomopathogenic fungi, particularly Metarhizium and Beauveria species, are emerging as effective biocontrol agents for combating lepidopteran pests in agricultural and forestry settings. This review provides a comprehensive overview of their modes of action, secondary metabolites, extracellular enzymes, and infection mechanisms. These fungi employ various strategies, including the secretion of proteolytic enzymes, chitinolytic enzymes, esterases, and lipases, to penetrate the insect cuticle and initiate infection. The process involves spore recognition, adhesion, germination, and differentiation into infective structures. The impact of fungal strains on the insect immune system and the commercial availability of fungal pesticides are also discussed. Furthermore, the advancements in genetically engineered mycotoxins and the key challenges facing their implementation are addressed, in addition to listing future research directions. This review offers valuable insights for researchers involved in the development and application of entomopathogenic fungi for sustainable pest management practices. [Display omitted] • Exploration of the mode of actions of Metarhizium and Beauveria fungi, for targeting lepidopteran pests. • Examination of secondary metabolites contributing to the pathogenicity of entomopathogenic fungi. • Analyze the mechanism of extracellular enzymes, in the degradation of insect cuticles. • Insights into the infection mechanisms employed by mycotoxins to invade lepidopteran hosts. [ABSTRACT FROM AUTHOR]

Published

2024

11. Novel meta‐diamide insecticide, broflanilide, suppresses the population of common cutworm Spodoptera litura through its lethal and sublethal effects.

Author

Shen, Ning, Liu, Huai‐Yu, Mou, Tong‐Yu, Ma, Yi‐Bo, Li, Yao, Song, Zi‐Jiao, Tang, Tao, Han, Zhao‐Jun, and Zhao, Chun‐Qing

Subjects

SPODOPTERA littoralis, CROPS, PEST control, AGRICULTURAL pests, INSECTICIDES, HATCHABILITY of eggs, LEPIDOPTERA, LARVAE

Abstract

BACKGROUND Broflanilide has been registered in China for the control of Lepidoptera and Coleoptera pests, and is widely used to control the target pests at lethal and sublethal levels. The lethal and sublethal effects of broflanilide on the common cutworm (CCW) Spodoptera litura Fabricius, a representative Lepidopteran pest in agricultural crops, were examined to explore its ecological influence on pests. RESULTS: In F0, broflanilide had little influence on the hatchability of eggs, but significantly reduced the neonate survival rate. The lethal activity of broflanilide towards third‐instar larvae and adults was 0.13 mg kg–1 (LD50) and 3.59 mg L–1 (LC50) respectively at 48 h. After being treated with a sublethal dose (LD10 and LD30) of broflanilide, the duration of third‐ to sixth‐instar larvae and the mean fecundity of reproductive females were significantly increased, but pupation rate, weight of pupae and life‐cycle rate were significantly decreased. In F1, the duration of F1 larvae and the doubling time were prolonged, whereas the rates of pupation and the life cycle were decreased by 14.92% and 18.00%, respectively. The intrinsic rate of increase, finite rate of increase and net reproductive rate in the sublethal group were lower than in the control group. The relative fitness of F1 treated by LD10 and LD30 was 0.81 and 0.66, respectively. CONSLUSION: Broflanilide not only has highly lethal activity, but also suppresses the population growth and progeny of CCW, as a critical factor for guidelines of its usage in the field. [ABSTRACT FROM AUTHOR]

Published

2022

12. Next Generation dsRNA-Based Insect Control: Success So Far and Challenges.

Author

Nitnavare, Rahul B., Bhattacharya, Joorie, Singh, Satnam, Kour, Amardeep, Hawkesford, Malcolm J., and Arora, Naveen

Subjects

INSECT pest control, SMALL interfering RNA, DOUBLE-stranded RNA, BEETLES, GENE silencing, LIPOSOMES

Abstract

RNA interference (RNAi) is a method of gene silencing where dsRNA is digested into small interfering RNA (siRNA) in the presence of enzymes. These siRNAs then target homologous mRNA sequences aided by the RNA-induced silencing complex (RISC). The mechanism of dsRNA uptake has been well studied and established across many living organisms including insects. In insects, RNAi is a novel and potential tool to develop future pest management means targeting various classes of insects including dipterans, coleopterans, hemipterans, lepidopterans, hymenopterans and isopterans. However, the extent of RNAi in individual class varies due to underlying mechanisms. The present review focuses on three major insect classes viz hemipterans, lepidopterans and coleopterans and the rationale behind this lies in the fact that studies pertaining to RNAi has been extensively performed in these groups. Additionally, these classes harbour major agriculturally important pest species which require due attention. Interestingly, all the three classes exhibit varying levels of RNAi efficiencies with the coleopterans exhibiting maximum response, while hemipterans are relatively inefficient. Lepidopterans on the other hand, show minimum response to RNAi. This has been attributed to many facts and few important being endosomal escape, high activity dsRNA-specific nucleases, and highly alkaline gut environment which renders the dsRNA unstable. Various methods have been established to ensure safe delivery of dsRNA into the biological system of the insect. The most common method for dsRNA administration is supplementing the diet of insects via spraying onto leaves and other commonly eaten parts of the plant. This method is environment-friendly and superior to the hazardous effects of pesticides. Another method involves submergence of root systems in dsRNA solutions and subsequent uptake by the phloem. Additionally, more recent techniques are nanoparticle- and Agrobacterium -mediated delivery systems. However, due to the novelty of these biotechnological methods and recalcitrant nature of certain crops, further optimization is required. This review emphasizes on RNAi developments in agriculturally important insect species and the major hurdles for efficient RNAi in these groups. The review also discusses in detail the development of new techniques to enhance RNAi efficiency using liposomes and nanoparticles, transplastomics, microbial-mediated delivery and chemical methods. [ABSTRACT FROM AUTHOR]

Published

2021

13. Next Generation dsRNA-Based Insect Control: Success So Far and Challenges

Author

Rahul B. Nitnavare, Joorie Bhattacharya, Satnam Singh, Amardeep Kour, Malcolm J. Hawkesford, and Naveen Arora

Subjects

RNAi silencing, dsRNA, siRNA, coleopteran, hemipteran, lepidopteran, Plant culture, SB1-1110

Abstract

RNA interference (RNAi) is a method of gene silencing where dsRNA is digested into small interfering RNA (siRNA) in the presence of enzymes. These siRNAs then target homologous mRNA sequences aided by the RNA-induced silencing complex (RISC). The mechanism of dsRNA uptake has been well studied and established across many living organisms including insects. In insects, RNAi is a novel and potential tool to develop future pest management means targeting various classes of insects including dipterans, coleopterans, hemipterans, lepidopterans, hymenopterans and isopterans. However, the extent of RNAi in individual class varies due to underlying mechanisms. The present review focuses on three major insect classes viz hemipterans, lepidopterans and coleopterans and the rationale behind this lies in the fact that studies pertaining to RNAi has been extensively performed in these groups. Additionally, these classes harbour major agriculturally important pest species which require due attention. Interestingly, all the three classes exhibit varying levels of RNAi efficiencies with the coleopterans exhibiting maximum response, while hemipterans are relatively inefficient. Lepidopterans on the other hand, show minimum response to RNAi. This has been attributed to many facts and few important being endosomal escape, high activity dsRNA-specific nucleases, and highly alkaline gut environment which renders the dsRNA unstable. Various methods have been established to ensure safe delivery of dsRNA into the biological system of the insect. The most common method for dsRNA administration is supplementing the diet of insects via spraying onto leaves and other commonly eaten parts of the plant. This method is environment-friendly and superior to the hazardous effects of pesticides. Another method involves submergence of root systems in dsRNA solutions and subsequent uptake by the phloem. Additionally, more recent techniques are nanoparticle- and Agrobacterium-mediated delivery systems. However, due to the novelty of these biotechnological methods and recalcitrant nature of certain crops, further optimization is required. This review emphasizes on RNAi developments in agriculturally important insect species and the major hurdles for efficient RNAi in these groups. The review also discusses in detail the development of new techniques to enhance RNAi efficiency using liposomes and nanoparticles, transplastomics, microbial-mediated delivery and chemical methods.

Published

2021

14. Applications of Natural Biopesticides with a Focus on Trypsin Inhibitors from Momordica cochinchinensis.

Author

SAYEED, JAVERIYA and HUYNH, TIEN

Subjects

TRYPSIN inhibitors, PROTEOLYSIS, PEST control, BIOPESTICIDES, DEFENSE mechanisms (Psychology), PROTEASE inhibitors

Abstract

Plants have intrinsic structural, chemical, and proteomic defense mechanisms against pests that can be developed as natural biopesticides as an environmentally friendly and safe alternative. This review investigates advances in biopesticides, focusing on protease inhibitors (PIs) that interfere with the digestion of proteins in insect guts, adversely affecting insect nutrition, growth, and metabolism. One type of PI trypsin inhibitor [TI] was assessed from seeds of 56 plants belonging to 8 families for insecticidal and fungicidal activity with up to 90% effectiveness. Lepidopterans were the main insects causing the most damage to important cultivated crops, and TIs from Momordica cochinchinensis showed up to 80% inhibitory activity. They were selected for further assessment for their potential as biopesticides for pest management. TIs from M. cochinchinensis have been well characterized, and their small sizes, high potency, and genetic simplicity make them ideal candidates for development and commercialization as natural biopesticides. [ABSTRACT FROM AUTHOR]

Published

2021

15. Biochemical characterization of Bombyx mori Dicer-2 that dices double-stranded RNAs into 20-nt small RNA.

Author

Tabara M, Harada M, Kuriyama K, Sakamoto T, Takeda A, Fukuhara T, and Tabunoki H

Subjects

Animals, Insect Proteins metabolism, Insect Proteins genetics, Larva metabolism, Larva genetics, Larva growth & development, Magnesium metabolism, RNA, Small Interfering metabolism, Bombyx genetics, Bombyx metabolism, Ribonuclease III metabolism, Ribonuclease III genetics, RNA, Double-Stranded metabolism

Abstract

We detected enzymatic activity that generates 20-nucleotide (nt) RNA from double-stranded RNAs (dsRNAs) in crude extracts prepared from various silkworm (Bombyx mori) organs. The result using knocked-down cultured cells indicated that this dicing activity originated from B. mori Dicer-2 (BmDcr2). Biochemical analyses revealed that BmDcr2 preferentially cleaves 5'-phosphorylated dsRNAs at the 20-nt site-counted from the 5'-phosphorylated end-and required ATP and magnesium ions for the dicing reaction. This is the first report of the biochemical characterization of Dicer-2 in lepidopteran insects. This enzymatic property of BmDcr2 in vitro is consistent with the in vivo small interfering RNA profile in virus-infected silkworm cells., (© 2024 Wiley Periodicals LLC.)

Published

2024

16. Low Tunnels Reduce Insect Populations, Insecticide Application, and Chewing Insect Damage on Brussels Sprouts.

Author

Acharya, Tej P, Welbaum, Gregory E, and Arancibia, Ramón A

Subjects

BRUSSELS sprouts, INSECT populations, INSECTICIDE application, TUNNELS, INSECT pests, COLE crops, APHIDS

Abstract

Low tunnels covered with spun-bonded fabric (row covers) provide season extension for vegetable production and also afford a physical barrier against airborne insects and other non-soil pests. Brussels sprouts, Brassica oleracea L. group Gemmifera (Brassicaceae), is a popular vegetable in local markets in Virginia; however, unprotected field production is severely affected by insect pest infestation. This study's objective was to determine the level of protection low tunnels provide against insect infestation and leaf herbivory injury. The experiment was conducted at the Virginia Tech Eastern Shore Agricultural Research and Extension Center in Painter, Virginia. The experimental design was split-plot with polyethylene soil mulches (white or black) as whole plot factors and production systems (low tunnel or open field) as subplot factors. In this study, low tunnels reduced insect infestation and chewing herbivory leaf injury to Brussels sprouts. Compared to an unprotected open field, infestations of lepidopteran insects and harlequin bug, Murgantia histrionica (Hahn) (Hemiptera: Pentatomidae) were reduced on plants under low tunnels. However, aphids (Hemiptera: Aphidae) infestation occurred under low tunnels in fall. There was no effect of color mulches (white or black) and no interaction between tunnel and mulch color on insect infestation and chewing injury. Fewer insect infestations and feeding injury indicate that low tunnels can be an effective management tool for sustainable vegetable production. [ABSTRACT FROM AUTHOR]

Published

2020

17. Development of a soybean leaf disc assay for determining oral insecticidal activity in the lepidopteran agricultural pest Helicoverpa armigera.

Author

Wang, Yachen, Guo, Shaodong, Ventura, Tomer, Jain, Ritesh, Robinson, Karl E., Mitter, Neena, and Herzig, Volker

Subjects

*AGRICULTURAL pests, *HELICOVERPA armigera, *INSECTICIDES, *LEAF development, *HELIOTHIS zea, *SMALL molecules, *IMIDACLOPRID

Abstract

Pest insects pose a heavy burden on global agricultural industries with small molecule insecticides being predominantly used for their control. Unwanted side effects and resistance development plagues most small molecule insecticides such as the neonicotinoids, which have been reported to be harmful to honeybees. Bioinsecticides like Bacillus thuringiensis (Bt) toxins can be used as environmentally-friendly alternatives. Arachnid venoms comprise another promising source of bioinsecticides, containing a multitude of selective and potent insecticidal toxins. Unfortunately, no standardised insect models are currently available to assess the suitability of insecticidal agents under laboratory conditions. Thus, we aimed to develop a laboratory model that closely mimics field conditions by employing a leaf disk assay (LDA) for oral application of insecticidal agents in a bioassay tray format. Neonate larvae of the cotton bollworm (Helicoverpa armigera) were fed with soybean (Glycine max) leaves that were treated with different insecticidal agents. We observed dose-dependent insecticidal effects for Bt toxin and the neonicotinoid insecticide imidacloprid, with imidacloprid exhibiting a faster response. Furthermore, we identified several insecticidal arachnid venoms that were active when co-applied with sub-lethal doses of Bt toxin. We propose the H. armigera LDA as a suitable tool for assessing the insecticidal effects of insecticidal agents against lepidopterans. [Display omitted] • Oral activity is often overlooked when characterising insecticidal compounds. • We established a tray-based leaf disc assay (LDA) that mimics lepidopteran larval feeding in nature. • Our LDA confirmed the oral activities of existing commercial insecticides imidacloprid and Bt toxin. • We found that several arachnid venoms caused oral toxicity in the presence of sublethal Bt toxin doses. [ABSTRACT FROM AUTHOR]

Published

2024

18. Bioefficacy of Epaltes divaricata (L.) n-Hexane Extracts and Their Major Metabolites against the Lepidopteran Pests Spodoptera litura (fab.) and Dengue Mosquito Aedes aegypti (Linn.)

Author

Kesavan Amala, Sengodan Karthi, Raja Ganesan, Narayanaswamy Radhakrishnan, Kumaraswamy Srinivasan, Abd El-Zaher M. A. Mostafa, Abdullah Ahmed Al-Ghamdi, Jawaher Alkahtani, Mohamed Soliman Elshikh, Sengottayan Senthil-Nathan, Prabhakaran Vasantha-Srinivasan, and Patcharin Krutmuang

Subjects

Epaltes, n-HDa, n-ODa, lepidopteran, dengue vector, insecticide, Organic chemistry, QD241-441

Abstract

The present research investigated the chemical characterization and insecticidal activity of n-Hexane extracts of Epaltes divaricata (NH-EDx) along with their chief derivatives n-Hexadecanoic acid (n-HDa) and n-Octadecanoic acid (n-ODa) against the dengue vector Aedes aegypti and lepidopteran pest Spodoptera litura. Chemical screening of NH-EDx through GC–MS analysis delivered nine major derivatives, and the maximum peak area percentage was observed in n-Hexadecanoic acid (14.63%) followed by n-Octadecadienoic acid (6.73%). The larvicidal activity of NH-EDx (1000 ppm), n-HDa (5 ppm), and n-ODa (5 ppm) against the A. aegypti and S. litura larvae showed significant mortality rate in a dose-dependent way across all the instars. The larvicidal activity was profound in the A. aegypti as compared to the S. litura across all the larval instars. The sublethal dosages of NH-EDx (500 ppm), n-HDa (2.5 ppm), and n-ODa (2.5 ppm) also showed alterations in the larval/pupal durations and adult longevity in both the insect pests. The enzyme activity revealed that the α- and β-carboxylesterase levels were decreased significantly in both the insect pests, whereas the levels of GST and CYP450 uplifted in a dose-dependent manner of NH-EDx, n-HDa, and n-ODa. Correspondingly, midgut tissues such as the epithelial layer (EL), gut lumen (GL), peritrophic matrix (Pm), and brush border membrane (BBM) were significantly altered in their morphology across both A. aegypti and S. litura against the NH-EDx and their bioactive metabolites. NH-EDx and their bioactive metabolites n-HDa and n-ODa showed significant larvicidal, growth retardant, enzyme inhibition, and midgut toxicity effects against two crucial agriculturally and medically challenging insect pest of ecological importance.

Published

2021

19. LEPIDOPTERA DAN PARASITOID YANG BERASOSIASI PADA TANAMAN KENANGA (CANANGA ODORATA (LAM.) HOOK.F. & THOMSON)

Author

Maidatun Kamilah Hilamawati and Retno Wijayanti

Subjects

Satyridae, Psychidae, Cricula trifenestrata, Atlas Attacus, Apanteles sp ., Pteromalus sp, Lepidopteran, Nymphalidae, Papilionidae, Parasitoid, Canangan odorata, Lymantridae, Agriculture

Abstract

The objectives of this research are to identify the Lepidoptera and parasitoid that associated on C. odorata. The research was conducted in Laboratory of Pest and Disease of Crop of Agriculture Faculty UNS and in C. odorata plantation in Banyudono, Boyolali Regency, Central Java. Observation was done at seedling and crop yield. Lepidoptera (larvae, pupae, adult) and parasitoids that found were taken to be identified in laboratory. Larvae and pupae which infected by parasitoid or pathogen placed in separated jar to be kept and waited for parasitoid emerged. Collection of Lepidopteras and parasitoids were identified by comparing with picture, using key of determination, and combination both of them. Identifying was done at family and several of them at species.In this research was found eight species of Lepidopteras and two parasitoids. Eight species of Lepidopteras consist of species of family Lymantridae, Nymphalidae, Papilionidae, Satyridae, Psychidae, and Saturniidae (Cricula trifenestrata and Attacus atlas). Two parasitoid were Apanteles sp. and Pteromalus sp.)

Published

2017

20. Butterflies do not alter oviposition or larval foraging in response to anthropogenic increases in sodium.

Author

Mitchell, Timothy S., Shephard, Alexander M., Kalinowski, Carolyn R., Kobiela, Megan E., and Snell-Rood, Emilie C.

Subjects

*OVIPARITY, *SODIUM, *BUTTERFLIES

Abstract

Humans have drastically increased the availability of many once-limited nutrients, resulting in potential attraction of animals to now toxic, novel nutritional conditions. For instance, herbivores are attracted to sodium in many terrestrial ecosystems because sodium occurs in much lower concentrations in plants than in animals. However, sodium availability has increased due to crop irrigation or distribution of de-icing salts along roads. While moderate increases in once-limited sodium may be beneficial, large increases are potentially toxic. Here, we investigate whether increased sodium along roadsides is functioning as an ecological trap, drawing butterflies to oviposit and forage on plants with toxic levels of sodium. As in many other animals, butterflies exhibit sodium-specific foraging behaviour – males will 'puddle' for minerals on mud, dung or carrion; yet sodium-seeking behaviours at other life stages remain unexplored. We present data from a series of field- and laboratory-based sodium preference trials using both caterpillars and ovipositing adult females. Female monarch and cabbage white butterflies did not show any preference for laying eggs on sodium-enriched plants, either at moderate levels that are likely to be physiologically beneficial, or at potentially toxic levels typical of high-traffic roads. Monarch caterpillars somewhat avoided the plants highest in sodium, but this behaviour is unlikely to compensate for the failure of ovipositing females to avoid toxic high-sodium plants. These results suggest that while butterflies frequently use sodium-enriched roadside habitats, they are unlikely to be seeking out or avoiding these areas due to elevated sodium. • Butterflies did not alter oviposition with respect to sodium levels in plants. • Caterpillars did not avoid plants containing moderate levels of sodium. • Caterpillars somewhat avoided plants with toxic levels. • Butterflies are neither attracted to nor repelled by elevated sodium along roadsides. [ABSTRACT FROM AUTHOR]

Published

2019

21. Identification and expression analysis of the Spodoptera exigua neuropeptidome under different physiological conditions.

Author

Llopis‐Giménez, A., Han, Y., Kim, Y., Ros, V. I. D., and Herrero, S.

Subjects

*BEET armyworm, *NEUROPEPTIDES, *NEUROHORMONES, *NEUROTRANSMITTERS, *RNA sequencing

Abstract

Neuropeptides are small signalling molecules acting as neurohormones, neurotransmitters and neuromodulators. Being part of the chemical communication system between cells within an organism, they are involved in the regulation of different aspects of animal physiology and behaviour such as feeding, reproduction, development and locomotion. Transcriptomic data from larval and adult tissues have been obtained and mined to generate a comprehensive neuropeptidome for the polyphagous insect pest Spodoptera exigua. Sixty‐three neuropeptides have been identified and described based on their tissue specificity and their regulation in response to different abiotic perturbations. Expression analyses have identified those neuropeptides involved in ingestive and digestive behaviour of S. exigua larvae and revealed a general pattern of upregulation in the midgut during larval starvation. Our results represent a comprehensive neuropeptidome of a lepidopteran species that will be highly relevant to future studies and provide novel information of the insect's perception of its environment. [ABSTRACT FROM AUTHOR]

Published

2019

22. The role of learning in the oviposition behavior of the silkworm moth (Bombyx mori).

Author

Gámez, A. Matías and León, Samuel P.

Subjects

*SILKWORMS, *INSECT behavior, *COMPARATIVE psychology, *OVIPARITY, *OVUM

Abstract

Highlights • Silkworm moths can learn. • Oviposition decisions are mediated by Pavlovian conditioning. • The Hopkins Host Selection Principle is replicated in the silkworm. • This is evidence for the important adaptive role of Pavlovian conditioning. Abstract One of the most relevant behaviors in the life of some insects is oviposition, because reproductive fitness largely depends on the choice of egg-laying site. We report one experiment that explored the influence of Pavlovian conditioning on oviposition choices of the silkworm. Our results show that moths that jointly experienced an odor (conditioned stimulus) and mulberry leaves (the preferred oviposition place for the moths) preferred to lay their eggs near the odor when it was present, whereas moths in which the odor and the mulberry leaves never appeared together showed no preference. This result provides evidence of the important role that a psychological process such as Pavlovian conditioning has for the survival of this species. [ABSTRACT FROM AUTHOR]

Published

2018

23. Individual and synergist activities of monocrotophos with neem based pesticide, Vijayneem against Spodoptera litura Fab.

Author

Radhika, S., Sahayaraj, K., Senthil-Nathan, S., and Hunter, W.B.

Subjects

*BOTANICAL insecticides, *MONOCROTOPHOS, *NEEM oil, *PESTICIDES, *CATERPILLARS, *SPODOPTERA littoralis

Abstract

Evaluation of monocrotophos and Azadirachta indica oil, herein referred to as ‘Vijayneem’, were combined in ratios of 10% (10: 90), 20% (20: 80), 30% (30: 70), 40% (40: 60) and 50% (50: 50) [Monocrotophos: Vijayneem] under laboratory conditions to determine efficacy for properties of pesticidal, repellency, attraction, stimulant of consumption, development and reproduction. Asa biopesticide, Vijayneem oil (LC 50 = 10.619%), caused greater mortality in dermal toxicity bioassays (LC 50 = 18.045%) over ingestion. The greatest repellent activity was observed in third (Access Proportion Index = −0.25), fourth (API = −0.52) and fifth instar larvae (API = −0.67) in sprays of cotton leaves with monocrotophos. The detoxification enzymes like esterase (0.3, 11.1 μl/min/mg) and lactate dehydrogenase (6.8, 13.8 μl/min/mg) levels increased postingestion of treatments. Insects which ingested treated leaves showed an increase in carbohydrate (27.0, 18.0%), protein (4.7, 7.7%) and lipid (4.0, 10.4%) content. The greatest deformation of larvae, pupae and adults occurred in monocrotophos alone treatments, while the least deformities were recorded for monocrotophos + Vijayneem treatments. The male and female ratio and percentage of adult emergence was high in control than in A. indica oil alone treated S. litura . The greatest fecundity was observed in control (1620/4 female). In conclusion, the synergistic effects of A. indica oil + monocrotophos can be used for use the management of S. litura . [ABSTRACT FROM AUTHOR]

Published

2018

24. Propuesta de estrategia de conservación y monitoreo de lepidópteros en áreas protegidas administradas por ECOVIDA

Author

Medina Sotolongo, Aylet, Díaz Morales, Yeilin, Cruz Mora, José Manuel de la, Medina Sotolongo, Aylet, Díaz Morales, Yeilin, and Cruz Mora, José Manuel de la

Abstract

The information gaps, referring to diurnal butterflies (Lepidoptera), present in the management plans of some protected areas in western Cuba, hinder the existence of conservation and management actions aimed at this group. The objective of this work was the creation of a conservation and management proposal, the completion of the lists of Lepidoptera species, in said protected areas. The results were based on an extensive bibliographical review and the incorporation of study experiences in the fields of projects implemented by the Center for Environmental Research and Services (ECOVIDA). It was shown that in none of the reviewed management plans were representatives of the Order Lepidoptera identified or included. The proposal, for a list of species, included 22 species of diurnal butterflies grouped into three families. 13 endemic species were identified, which were prioritized within said list and three of them proposed as Conservation Objects of high interest, since they were under threat categories. The remaining nine species were classified as of high cultural value and as "control species" for future monitoring of the group. Finally, a proposal for a Monitoring and Conservation Plan was incorporated to be evaluated and included in the management plans of the identified areas., Los vacíos de información, referentes a las mariposas diurnas (Lepidóptera), presentes en los planes de manejo de algunas áreas protegidas en el Occidente de Cuba, entorpecen la existencia de acciones de conservación y manejo dirigidos a este grupo. El objetivo del presente trabajo fue la creación de una propuesta de conservación y manejo, el completamiento de los listados de especies de Lepidópteros, en dichas áreas protegidas. Los resultados estuvieron basados en una extensa revisión bibliográfica y la incorporación de experiencias de estudios en campos de proyectos implementados por el Centro de Investigaciones y Servicios Ambientales (ECOVIDA). Se mostraron que en ninguno de los planes de manejo revisados estuvieron identificados o incluidos representantes del Orden Lepidóptera. La propuesta, de listado de especies, incluyó 22 especies de mariposas diurnas agrupadas en tres familias. Fueron identificadas 13 especies endémicas las que fueron priorizadas dentro de dicho listado y tres de ellas propuestas como Objetos de Conservación de alto interés, dado que se encontraban bajo categorías de amenaza. Las restantes nueve especies fueron clasificadas como de alto valor cultural y como “especies control” para futuros monitoreos del grupo. Por último, fue incorporada una propuesta de Plan de Monitoreo y conservación a ser valorada e incluida en los planes de manejo de las áreas identificadas.

Published

2022

25. Redox imbalance mediates entomotoxic effects of the conifer Araucaria angustifolia in Anticarsia gemmatalis velvetbean caterpillar

Author

Cátia dos Santos Branco, Tiago Selau Rodrigues, Émilin Dreher de Lima, Lúcia Rosane Bertholdo-Vargas, Neiva Monteiro Barros, and Mirian Salvador

Subjects

biological control, lepidopteran, velvetbean caterpillar, polyphenols, Agriculture, Food processing and manufacture, TP368-456

Abstract

The velvetbean caterpillar, Anticarsia gemmatalis is one of the most important pests of soybean crops in tropical America. By feeding on leaves, significant defoliation occurs resulting in reduced photosynthetic capacity required for plants’ maintenance and growth, which subsequently can lead to crop losses and reduced agricultural productivity. Many studies have sought to look for compounds that have insecticidal effects. One class of compounds is phenolics, which are produced by plants and have been found to influence the behavior and development of defoliators, representing an important alternative approach to many synthetic insecticides. Particularly, Araucaria angustifolia is a plant rich in polyphenols, which are compounds able to alter cellular dynamics through modulating redox status. In this study, A. angustifolia extract (AAE) was added to the artificial diet of A. gemmatalis. The results demonstrated that AAE was able to reduce larval viability by inducing morphological changes and a delay in the insect’s development. In addition, AAE was found to induce oxidative damage to lipids and proteins, as well as increased nitric oxide levels in A. gemmatalis larvae. AAE treatments also decreased the antioxidant defense systems, leading to a redox imbalance. The reduction in viability in A. gemmatalis was positively correlated with oxidative markers, suggesting that redox imbalance can lead to larvae’s death. These results suggest that AAE possess insecticidal potential through the mechanisms of action of altering cellular redox state. Though further studies are required to confirm this, our study nevertheless contributes to a better understanding of AAE’s mechanisms of action as potential biopesticides in pest management, opening new perspectives on the development of compounds with insecticidal action.

Published

2016

26. Selection and characterization of Bacillus thuringiensis isolates with a high insecticidal activity against Spodoptera frugiperda (Lepidoptera: Noctuidae)

Author

Fernando Barnabe Cerqueira, Giselly Batista Alves, Roberto Franco Teixeira Corrêa, Soares Martins, Luiz Carlos Bertucci Barbosa, Ildon Rodrigues do Nascimento, Rose Gomes Monnerat, Bergmann Morais Ribeiro, and Raimundo Wagner de Souza Aguiar

Subjects

cry protein, lepidopteran, entomopathogen, microbial insecticide, insect control, Agriculture, Biology (General), QH301-705.5

Abstract

Spodoptera frugiperda (SMITH, 1797) (Lepidoptera: Noctuidae) affects diverse crops of great economic interest, for instance, it can cause severe yield losses in maize, rice and sorghum. In this study, a selection and characterization of Bacillus thuringiensis (BERLINER, 1911) isolates with a high insecticidal activity against S. frugiperda was performed. Fifty-two crystal-forming B. thuringiensis isolates that were identified from 3384 Bacillus-like colonies were examined and screened by PCR for the presence cry genes (cry1, cry1Aa, cry1Ab, cry1Ac, cry1D, cry2 and cry2Ab). Four isolates that showed high toxicity towards S. frugiperda were shown to harbor cry2 genes. The crystals were analyzed by electron microscopy and showed bipyramidal and cuboidal shapes. Furthermore, these four isolates had lethal concentration (LC50) values of 44.5 ng/cm2 (SUFT01), 74.0 ng/cm2 (SUFT02), 89.0 ng/cm2 (SUFT03) and 108 ng/cm2 (SUFT 04) to neonate S. frugiperda larvae. An ultrastructural analysis of midgut cells from S. frugiperda incubated with the SUFT01 spore-crystal complex showed disruptions in cellular integrity and in the microvilli of the midgut columnar cells. The isolates characterized in this work are good candidates for the control of S. frugiperda, and could  be used for the formulation of new bioinsecticides.

Published

2016

27. Identification and Evaluations of Novel Insecticidal Proteins from Plants of the Class Polypodiopsida for Crop Protection against Key Lepidopteran Pests

Author

Lu Liu, Eric Schepers, Amy Lum, Janet Rice, Nasser Yalpani, Ryan Gerber, Nuria Jiménez-Juárez, Fikru Haile, Alejandra Pascual, Jennifer Barry, Xiuli Qi, Adane Kassa, Matthew J. Heckert, Weiping Xie, Changkui Ding, Jarred Oral, Minh Nguyen, James Le, Lisa Procyk, Scott H. Diehn, Virginia C. Crane, Howard Damude, Carol Pilcher, Russ Booth, Genhai Zhu, Timothy M. Nowatzki, Mark E. Nelson, Albert L. Lu, and Gusui Wu

Subjects

plant protein, insecticidal, genetically modified, lepidopteran, resistance management, Medicine

Abstract

Various lepidopteran insects are responsible for major crop losses worldwide. Although crop plant varieties developed to express Bacillus thuringiensis (Bt) proteins are effective at controlling damage from key lepidopteran pests, some insect populations have evolved to be insensitive to certain Bt proteins. Here, we report the discovery of a family of homologous proteins, two of which we have designated IPD083Aa and IPD083Cb, which are from Adiantum spp. Both proteins share no known peptide domains, sequence motifs, or signatures with other proteins. Transgenic soybean or corn plants expressing either IPD083Aa or IPD083Cb, respectively, show protection from feeding damage by several key pests under field conditions. The results from comparative studies with major Bt proteins currently deployed in transgenic crops indicate that the IPD083 proteins function by binding to different target sites. These results indicate that IPD083Aa and IPD083Cb can serve as alternatives to traditional Bt-based insect control traits with potential to counter insect resistance to Bt proteins.

Published

2019

28. Cloning and functional identification of moricins from the diamondback moth, Plutella xylostella (L.).

Author

Xia, X.‐F., Li, Y., Yu, X.‐Q., Lin, J.‐H., Li, S.‐Y., Li, Q., and You, M.‐S.

Subjects

*PEPTIDE antibiotics, *IMMUNE response, *ANTIGEN-antibody reactions, *PLANT parasites, *CIRCULAR dichroism

Abstract

Antimicrobial peptides (AMPs) are small-molecule peptides that play crucial roles in insect innate immune responses. To better understand the function of AMPs in Plutella xylostella, one of the main pests of cruciferous vegetables, three full-length cDNAs encoding moricins were cloned from Pl. xylostella. Two variants of the moricin named PxMor2 and PxMor3 were heterologously expressed and purified. A secondary structure analysis using circular dichroism demonstrated that the two peptides adopted an α-helical structure in the membrane-like environment, but in aqueous solution, they were present in random coiled conformation. Antimicrobial activity assays demonstrated that PxMor2 exhibited high activity against Gram-positive Staphylococcus aureus and Gram-negative Escherichia coli; however, PxMor3 only demonstrated high activity against E. coli. Scanning electron microscopy and confocal laser-scanning microscopy analyses suggest that PxMors can lead to the disruption of bacterial membrane, which might be the mechanism by which PxMors inhibit bacterial growth. This study contributes to the understanding of Pl. xylostella AMPs and immune responses, and also enriches the knowledge of insect moricin. [ABSTRACT FROM AUTHOR]

Published

2017

29. Synthesis and biological potency of anilino-triazine insecticides.

Author

Johnson, Timothy C, Brown, Annette V, Bryan, Kristy K, Guenthenspberger, Katherine K, Hunter, Ricky, Martin, Timothy P, Niyaz, Noormohamed, Tisdell, Gene F, and Trullinger, Tony

Subjects

TRIAZINES, INSECTICIDES, HELIOTHIS zea, BEET armyworm, ANILINE

Abstract

BACKGROUND An insecticide screening effort identified N-(4-bromophenyl)-4,6-bis(2,2,2-trifluoroethoxy)-1,3,5-triazine-2-amine as having weak potency against two lepidopteran species, Helicoverpa zea and Spodoptera exigua. A structure-activity relationship study about the trifluoroethoxy substituents and the aniline of this compound was carried out in an effort to improve insecticidal potency. RESULTS Initially, a series of analogs bearing various substituents on the aniline were prepared, and the insecticidal potency was evaluated against H. zea and S. exigua in greenhouse diet feeding assays. The results showed that electron-withdrawing substituents, such as Cl, Br and CF3, were preferred over electron-donating substituents, such as methoxy, and that potency was significantly better when the substituent was in the para-position. Additional investigations showed that bis(anilino)trifluoroethoxytriazines were more potent. Replacement of the remaining trifluoroethyl group in the bis(anilino)triazine series with an alkyl amine lead to compounds of equal or superior efficacy. CONCLUSION The work presented showed that electron-withdrawing substituents in the para-position of the aniline ring of the initial hit delivered the best levels of insecticidal potency against the two insect species tested. Further investigations showed that potency could be improved by replacing one of the two trifluoroethoxy groups with additional 4-substituted aniline. This level of potency was maintained or further improved when the remaining trifluoroethoxy was replaced with a substituted amine. © 2017 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2017

30. Next Generation dsRNA-Based Insect Control: Success So Far and Challenges

Author

Amardeep Kour, Satnam Singh, Rahul B. Nitnavare, Joorie Bhattacharya, Naveen Arora, and Malcolm J. Hawkesford

Subjects

Integrated pest management, Small interfering RNA, Mechanism (biology), RNAi silencing, media_common.quotation_subject, transgenics, fungi, coleopteran, Plant culture, lepidopteran, dsRNA, Computational biology, Insect, Common method, Plant Science, Review, Biology, SB1-1110, hemipteran, RNA silencing, RNA interference, siRNA, Gene silencing, nanoparticles, media_common

Abstract

RNA interference (RNAi) is a method of gene silencing where dsRNA is digested into small interfering RNA (siRNA) in the presence of enzymes. These siRNAs then target homologous mRNA sequences aided by the RNA-induced silencing complex (RISC). The mechanism of dsRNA uptake has been well studied and established across many living organisms including insects. In insects, RNAi is a novel and potential tool to develop future pest management means targeting various classes of insects including dipterans, coleopterans, hemipterans, lepidopterans, hymenopterans and isopterans. However, the extent of RNAi in individual class varies due to underlying mechanisms. The present review focuses on three major insect classes viz hemipterans, lepidopterans and coleopterans and the rationale behind this lies in the fact that studies pertaining to RNAi has been extensively performed in these groups. Additionally, these classes harbour major agriculturally important pest species which require due attention. Interestingly, all the three classes exhibit varying levels of RNAi efficiencies with the coleopterans exhibiting maximum response, while hemipterans are relatively inefficient. Lepidopterans on the other hand, show minimum response to RNAi. This has been attributed to many facts and few important being endosomal escape, high activity dsRNA-specific nucleases, and highly alkaline gut environment which renders the dsRNA unstable. Various methods have been established to ensure safe delivery of dsRNA into the biological system of the insect. The most common method for dsRNA administration is supplementing the diet of insects via spraying onto leaves and other commonly eaten parts of the plant. This method is environment-friendly and superior to the hazardous effects of pesticides. Another method involves submergence of root systems in dsRNA solutions and subsequent uptake by the phloem. Additionally, more recent techniques are nanoparticle- and Agrobacterium-mediated delivery systems. However, due to the novelty of these biotechnological methods and recalcitrant nature of certain crops, further optimization is required. This review emphasizes on RNAi developments in agriculturally important insect species and the major hurdles for efficient RNAi in these groups. The review also discusses in detail the development of new techniques to enhance RNAi efficiency using liposomes and nanoparticles, transplastomics, microbial-mediated delivery and chemical methods.

Published

2021

31. Articulating Fragrant Agarwood Formation as an Outcome of the Interaction between the Insect Zeuzera conferta and Aquilaria trees – A Review

Author

Arup Khakhlari and Supriyo Sen

Subjects

Insecticides, Frass, Taxonomy, Artificial rearing, Interaction, Lepidopteran

Abstract

Agarwood is the resinous infected wood obtained from Aquilaria species, which is a highly priced product in the flavour and fragrance market. Its formation is a complex process of interaction between the plant, insect, and microorganisms. Multiple studies concerning the interaction of microorganisms with the Aquilaria tree have been reported. However, the significant interaction between the insectZeuzera conferta Walker (Lepidoptera: Cossidae) with Aquilaria has been overlooked, and only exiguous studies have been accomplished. Considering the dearth of available literature on this interesting phenomenon a review has been attempted. The taxonomical and morphological descriptions proffered by researchers and the insect life cycle are discussed. The review lays emphasis on the chemical ecology of the interaction between Z. conferta, Aquilaria and associating microorganisms as a possible continuum operating in the form of complex chemical signalling via release and sensing of Volatile Organic Compounds (VOCs), Herbivore Induced Plant Volatiles (HIPVs) and Microbial Volatile Organic Compounds (MVOCs). The review also scrutinizes the future perspectives of understanding the interaction in devising suitable management strategies to prevent uncontrolled infestation and, simultaneously, develop artificial rearing technology for the insectZ. confertaas a strategy for ensuring sustainable livelihood of farmers dependent on agarwood production. &nbsp

Published

2021

32. Limited ecological risk of insect-resistance transgene flow from cultivated rice to its wild ancestor based on life-cycle fitness assessment.

Author

Li, Lei, Yang, Xiao, Wang, Lei, Yan, Huanxin, Su, Jun, Wang, Feng, and Lu, Bao-Rong

Subjects

*HARVESTING, *RICE, *PLANT resistance to insects, *TRANSGENIC plants, *ECOLOGICAL risk assessment, *CATERPILLARS

Published

2016

33. Reconfiguration of the immune system network during food limitation in the caterpillar Manduca sexta.

Author

Adamo, Shelley A., Davies, Gillian, Easy, Russell, Kovalko, Ilya, and Turnbull, Kurtis F.

Subjects

*CATERPILLARS, *EXPERIMENTAL biology, *IMMUNE system, *ANTIOXIDANTS, *LIPIDS, *OXIDATIVE stress

Abstract

Dwindling resources might be expected to induce a gradual decline in immune function. However, food limitation has complex and seemingly paradoxical effects on the immune system. Examining these changes from an immune system network perspective may help illuminate the purpose of these fluctuations. We found that food limitation lowered long-term (i.e. lipid) and short-term (i.e. sugars) energy stores in the caterpillar Manduca sexta. Food limitation also: altered immune gene expression, changed the activity of key immune enzymes, depressed the concentration of a major antioxidant (glutathione), reduced resistance to oxidative stress, reduced resistance to bacteria (Grampositive and -negative bacteria) but appeared to have less effect on resistance to a fungus. These results provide evidence that food limitation led to a restructuring of the immune system network. In severely food-limited caterpillars, some immune functions were enhanced. As resources dwindled within the caterpillar, the immune response shifted its emphasis away from inducible immune defenses (i.e. those responses that are activated during an immune challenge) and increased emphasis on constitutive defenses (i.e. immune components that are produced consistently). We also found changes suggesting that the activation threshold for some immune responses (e.g. phenoloxidase) was lowered. Changes in the configuration of the immune system network will lead to different immunological strengths and vulnerabilities for the organism. [ABSTRACT FROM AUTHOR]

Published

2016

34. In-Silico Determination of Insecticidal Potential of Vip3Aa-Cry1Ac Fusion Protein Against Lepidopteran Targets Using Molecular Docking.

Author

Ahmad, Aftab, Javed, Muhammad R., Rao, Abdul Q., Khan, Muhammad A. U., Ahad, Ammara, ud Din, Salah, Shahid, Ahmad A., and Husnain, Tayyab

Subjects

CHIMERIC proteins, MOLECULAR docking, SPODOPTERA littoralis, INSECT pests, BEET armyworm, ENDOTOXINS, TOXINS

Abstract

Study and research of Bt (Bacillus thuringiensis) transgenic plants have opened new ways to combat insect pests. Over the decades, however, insect pests, especially the Lepidopteran, have developed tolerance against Bt delta-endotoxins. Such issues can be addressed through the development of novel toxins with greater toxicity and affinity against a broad range of insect receptors. In this computational study, functional domains of Bacillus thuringiensis crystal delta-endotoxin (Cry1Ac) insecticidal protein and vegetative insecticidal protein (Vip3Aa) have been fused to develop a broad-range Vip3Aa-Cry1Ac fusion protein. Cry1Ac and Vip3Aa are non-homologous insecticidal proteins possessing receptors against different targets within the midgut of insects. The insecticidal proteins were fused to broaden the insecticidal activity. Molecular docking analysis of the fusion protein against aminopeptidase-N (APN) and cadherin receptors of five Lepidopteran insects (Agrotis ipsilon, Helicoverpa armigera, Pectinophora gossypiella, Spodoptera exigua, and Spodoptera litura) revealed that the Ser290, Ser293, Leu337, Thr340, and Arg437 residues of the fusion protein are involved in the interaction with insect receptors. The Helicoverpa armigera cadherin receptor, however, showed no interaction, which might be due to either loss or burial of interactive residues inside the fusion protein. These findings revealed that the Vip3Aa-Cry1Ac fusion protein has a strong affinity against Lepidopteran insect receptors and hence has a potential to be an efficient broad-range insecticidal protein. [ABSTRACT FROM AUTHOR]

Published

2015

35. Identification and expression analysis of the Spodoptera exigua neuropeptidome under different physiological conditions

Subjects

Laboratorium voor Virologie, fungi, physiology, Laboratory of Virology, neuropeptides, lepidopteran, Spodoptera, PE&RC, RNAseq

Abstract

Neuropeptides are small signalling molecules acting as neurohormones, neurotransmitters and neuromodulators. Being part of the chemical communication system between cells within an organism, they are involved in the regulation of different aspects of animal physiology and behaviour such as feeding, reproduction, development and locomotion. Transcriptomic data from larval and adult tissues have been obtained and mined to generate a comprehensive neuropeptidome for the polyphagous insect pest Spodoptera exigua. Sixty-three neuropeptides have been identified and described based on their tissue specificity and their regulation in response to different abiotic perturbations. Expression analyses have identified those neuropeptides involved in ingestive and digestive behaviour of S. exigua larvae and revealed a general pattern of upregulation in the midgut during larval starvation. Our results represent a comprehensive neuropeptidome of a lepidopteran species that will be highly relevant to future studies and provide novel information of the insect’s perception of its environment.

Published

2019

36. Identification and classification of silks using infrared spectroscopy.

Author

Boulet-Audet, Maxime, Vollrath, Fritz, and Holland, Chris

Subjects

*SILK, *INFRARED spectroscopy, *CALCIUM oxalate, *SERICIN, *SILKWORMS

Abstract

Lepidopteran silks number in the thousands and display a vast diversity of structures, properties and industrial potential. To map this remarkable biochemical diversity, we present an identification and screening method based on the infrared spectra of native silk feedstock and cocoons. Multivariate analysis of over 1214 infrared spectra obtained from 35 species allowed us to group silks into distinct hierarchies and a classification that agrees well with current phylogenetic data and taxonomies. This approach also provides information on the relative content of sericin, calcium oxalate, phenolic compounds, poly-alanine and poly(alanine-glycine) β- sheets. It emerged that the domesticated mulberry silkmoth Bombyx mori represents an outlier compared with other silkmoth taxa in terms of spectral properties. Interestingly, Epiphora bauhiniae was found to contain the highest amount of β-sheets reported to date for any wild silkmoth. We conclude that our approach provides a new route to determine cocoon chemical composition and in turn a novel, biological as well as material, classification of silks. [ABSTRACT FROM AUTHOR]

Published

2015

37. Panning for sperm gold: Isolation and purification of apyrene and eupyrene sperm from lepidopterans.

Author

Karr, Timothy L. and Walters, James R.

Subjects

*CATERPILLARS, *SPERMATOZOA, *INSECT morphogenesis, *CENTRIFUGATION, *GEL electrophoresis, *SEPARATION (Technology)

Abstract

We describe a simple and straightforward procedure for the purification and separation of apyrene and eupyrene forms of lepidopteran sperm. The procedure is generally applicable to both butterfly and moth species with results varying according to the relative amounts of sperm produced and size of sperm storage organs. The technique relies upon inherent differences between eupyene sperm bundles and free apyrene sperm morphology. These differences allow for separation of the sperm morphs by repeated “panning” of sperm bundles into the center of a plastic dish. The purified eupyrene sperm bundles can then be removed and apyrene sperm collected from the supernatant by centrifugation. Efficacy of the purification process was confirmed by light microscopy and gel electrophoresis of the resulting fractions. Both one- and two-dimensional gel electrophoresis identified significant protein differences between the fractions further suggesting that the panning procedure effectively separated eurpyrene from apyrene sperm. The panning procedure should provide a convenient and accessible technique for further studies of sperm biology in lepidopterans. [ABSTRACT FROM AUTHOR]

Published

2015

38. Chromosomal-level reference genome of the moth Heortia vitessoides (Lepidoptera: Crambidae), a major pest of agarwood-producing trees.

Author

Law, Sean T.S., Nong, Wenyan, So, Wai Lok, Baril, Tobias, Swale, Thomas, Chan, Chi Bun, Tobe, Stephen S., Kai, Zhen-Peng, Bendena, William G., Hayward, Alexander, and Hui, Jerome H.L.

Subjects

*CRAMBIDAE, *NON-coding RNA, *TREE diseases & pests, *LEPIDOPTERA, *MOTHS, *NEUROPEPTIDES, *GENETIC distance

Abstract

The moth Heortia vitessoides Moore (Lepidoptera: Crambidae) is a major pest of ecologically, commercially and culturally important agarwood-producing trees in the genus Aquilaria. In particular, H. vitessoides is one of the most destructive defoliating pests of the incense tree Aquilaria sinesis , which produces a valuable fragrant wood used as incense and in traditional Chinese medicine [33]. Nevertheless, a genomic resource for H. vitessoides is lacking. Here, we present a chromosomal-level assembly for H. vitessoides , consisting of a 517 megabase (Mb) genome assembly with high physical contiguity (scaffold N50 of 18.2 Mb) and high completeness (97.9% complete BUSCO score). To aid gene annotation, 8 messenger RNA transcriptomes from different developmental stages were generated, and a total of 16,421 gene models were predicted. Expansion of gene families involved in xenobiotic metabolism and development were detected, including duplications of cytosolic sulfotransferase (SULT) genes shared among lepidopterans. In addition, small RNA sequencing of 5 developmental stages of H. vitessoides facilitated the identification of 85 lepidopteran conserved microRNAs, 94 lineage-specific microRNAs, as well as several microRNA clusters. A large proportion of the H. vitessoides genome consists of repeats, with a 29.12% total genomic contribution from transposable elements, of which long interspersed nuclear elements (LINEs) are the dominant component (17.41%). A sharp decrease in the genome-wide percentage of LINEs with lower levels of genetic distance to family consensus sequences suggests that LINE activity has peaked in H. vitessoides. In contrast, opposing patterns suggest a substantial recent increase in DNA and LTR element activity. Together with annotations of essential sesquiterpenoid hormonal pathways, neuropeptides, microRNAs and transposable elements, the high-quality genomic and transcriptomic resources we provide for the economically important moth H. vitessoides provide a platform for the development of genomic approaches to pest management, and contribute to addressing fundamental research questions in Lepidoptera. • Heortia vitessoides is a major pest of the lign aloes Aquilaria malaccensis and Aquilaria sinensis in Malaysia and southern China. • A high-quality chromosomal level genome of Heortia vitessoides is assembled by Illumina short-read, 10× Genomics linked-read, and Hi-C sequencing data. • Transcriptomic resources (mRNA and small RNAs) have facilitated predicting 16,421 gene models and identifying 85 conserved and 94 novel microRNAs. • Gene family expansions have been detected in H. vitessoides , including duplications of cytosolic sulfotransferase (SULT) genes shared among lepidopterans. • Transposable elements account for 29.12% total genomic contribution, with long interspersed nuclear elements (LINEs) identified as the dominant component (17.41%). [ABSTRACT FROM AUTHOR]

Published

2022

39. Bioefficacy of Epaltes divaricata (L.) n-Hexane Extracts and Their Major Metabolites against the Lepidopteran Pests Spodoptera litura (fab.) and Dengue Mosquito Aedes aegypti (Linn.)

Author

Patcharin Krutmuang, Kumaraswamy Srinivasan, Jawaher Alkahtani, Sengodan Karthi, Sengottayan Senthil-Nathan, Abdullah A. Al-Ghamdi, Narayanaswamy Radhakrishnan, Abd El-Zaher M. A. Mostafa, Kesavan Amala, Raja Ganesan, Mohamed Soliman Elshikh, and Prabhakaran Vasantha-Srinivasan

Subjects

Insecticides, Veterinary medicine, n-ODa, lepidopteran, Pharmaceutical Science, Spodoptera litura, Mosquito Vectors, Aedes aegypti, Asteraceae, Spodoptera, Epaltes, 010501 environmental sciences, Biology, n-HDa, 01 natural sciences, Article, Analytical Chemistry, Dengue, 03 medical and health sciences, QD241-441, Aedes, Drug Discovery, Animals, Hexanes, Peritrophic matrix, Physical and Theoretical Chemistry, 030304 developmental biology, 0105 earth and related environmental sciences, 0303 health sciences, Larva, dengue vector, Plant Extracts, fungi, Organic Chemistry, insecticide, Midgut, biology.organism_classification, Enzyme assay, Plant Leaves, Culex, Chemistry (miscellaneous), Solvents, biology.protein, Molecular Medicine, Instar, PEST analysis

Abstract

The present research investigated the chemical characterization and insecticidal activity of n-Hexane extracts of Epaltes divaricata (NH-EDx) along with their chief derivatives n-Hexadecanoic acid (n-HDa) and n-Octadecanoic acid (n-ODa) against the dengue vector Aedes aegypti and lepidopteran pest Spodoptera litura. Chemical screening of NH-EDx through GC–MS analysis delivered nine major derivatives, and the maximum peak area percentage was observed in n-Hexadecanoic acid (14.63%) followed by n-Octadecadienoic acid (6.73%). The larvicidal activity of NH-EDx (1000 ppm), n-HDa (5 ppm), and n-ODa (5 ppm) against the A. aegypti and S. litura larvae showed significant mortality rate in a dose-dependent way across all the instars. The larvicidal activity was profound in the A. aegypti as compared to the S. litura across all the larval instars. The sublethal dosages of NH-EDx (500 ppm), n-HDa (2.5 ppm), and n-ODa (2.5 ppm) also showed alterations in the larval/pupal durations and adult longevity in both the insect pests. The enzyme activity revealed that the α- and β-carboxylesterase levels were decreased significantly in both the insect pests, whereas the levels of GST and CYP450 uplifted in a dose-dependent manner of NH-EDx, n-HDa, and n-ODa. Correspondingly, midgut tissues such as the epithelial layer (EL), gut lumen (GL), peritrophic matrix (Pm), and brush border membrane (BBM) were significantly altered in their morphology across both A. aegypti and S. litura against the NH-EDx and their bioactive metabolites. NH-EDx and their bioactive metabolites n-HDa and n-ODa showed significant larvicidal, growth retardant, enzyme inhibition, and midgut toxicity effects against two crucial agriculturally and medically challenging insect pest of ecological importance.

Published

2021

40. Bioefficacy of Epaltes divaricata (L.) n -Hexane Extracts and Their Major Metabolites against the Lepidopteran Pests Spodoptera litura (fab.) and Dengue Mosquito Aedes aegypti (Linn.).

Author

Amala, Kesavan, Karthi, Sengodan, Ganesan, Raja, Radhakrishnan, Narayanaswamy, Srinivasan, Kumaraswamy, Mostafa, Abd El-Zaher M. A., Al-Ghamdi, Abdullah Ahmed, Alkahtani, Jawaher, Elshikh, Mohamed Soliman, Senthil-Nathan, Sengottayan, Vasantha-Srinivasan, Prabhakaran, and Krutmuang, Patcharin

Subjects

*SPODOPTERA littoralis, *AEDES aegypti, *HEXANE, *MOSQUITOES, *BRUSH border membrane, *INSECT pests, *INSECTICIDES, *ARBOVIRUS diseases

Abstract

The present research investigated the chemical characterization and insecticidal activity of n-Hexane extracts of Epaltes divaricata (NH-EDx) along with their chief derivatives n-Hexadecanoic acid (n-HDa) and n-Octadecanoic acid (n-ODa) against the dengue vector Aedes aegypti and lepidopteran pest Spodoptera litura. Chemical screening of NH-EDx through GC–MS analysis delivered nine major derivatives, and the maximum peak area percentage was observed in n-Hexadecanoic acid (14.63%) followed by n-Octadecadienoic acid (6.73%). The larvicidal activity of NH-EDx (1000 ppm), n-HDa (5 ppm), and n-ODa (5 ppm) against the A. aegypti and S. litura larvae showed significant mortality rate in a dose-dependent way across all the instars. The larvicidal activity was profound in the A. aegypti as compared to the S. litura across all the larval instars. The sublethal dosages of NH-EDx (500 ppm), n-HDa (2.5 ppm), and n-ODa (2.5 ppm) also showed alterations in the larval/pupal durations and adult longevity in both the insect pests. The enzyme activity revealed that the α- and β-carboxylesterase levels were decreased significantly in both the insect pests, whereas the levels of GST and CYP450 uplifted in a dose-dependent manner of NH-EDx, n-HDa, and n-ODa. Correspondingly, midgut tissues such as the epithelial layer (EL), gut lumen (GL), peritrophic matrix (Pm), and brush border membrane (BBM) were significantly altered in their morphology across both A. aegypti and S. litura against the NH-EDx and their bioactive metabolites. NH-EDx and their bioactive metabolites n-HDa and n-ODa showed significant larvicidal, growth retardant, enzyme inhibition, and midgut toxicity effects against two crucial agriculturally and medically challenging insect pest of ecological importance. [ABSTRACT FROM AUTHOR]

Published

2021

41. Primeiro Registro de Aricoris campestris (H. Bates) (Lepidoptera: Riodinidae) em Palma Forrageira Nopalea cochenillifera (L.) Salm-Dyck (Cactaceae) no Brasil

Author

Guilherme Ferreira da Costa Lima, Jacinto de Luna Batista, José Thyago Aires Souza, Robério de Oliveira, Márcio Raimundo de Medeiros, and Mileny dos Santos de Souza

Subjects

biology, Riodinidae, forrageiras, insetos-praga, Cactáceas, forage, lepidopteran, Nopalea cochenillifera, biology.organism_classification, palma doce, lcsh:QK1-989, Lepidoptera genitalia, Horticulture, lcsh:QH540-549.5, lcsh:Botany, lcsh:Zoology, pest, lcsh:Ecology, lcsh:QL1-991, Aricoris, Cacti, sweet cacti, lepidópteros

Abstract

Resumo. A palma Nopalea cochenillifera (L.) foi introduzida no Brasil para producao do corante carmim, porem logo se descobriu seu potencial como forrageira. Ate entao, os relatos eram de que essa planta tinha como principais insetos-praga um grupo de cochonilhas. Este trabalho relata pela primeira vez a presenca de Aricoris campestris (H. Bates) infestando essa cultura. First Record of Aricoris campestris (H. Bates) (Lepidoptera: Riodinidae) in Cacti Nopalea cochenillifera (L.) Salm-Dyck (Cactaceae) in Brazil Abstract. The Nopalea cochenillifera (L.) cacti was introduced in Brazil to produce the carmine dye, but soon its potential as forage was discovered. Until then reports were that this plant had as main insects-pest a group of mealybugs. This work reports for the first time the presence of Aricoris campestris (H. Bates) infesting this culture.

Published

2018

42. Identification and classification of silks using infrared spectroscopy

Author

Chris Holland, Maxime Boulet-Audet, and Fritz Vollrath

Subjects

Spectrophotometry, Infrared, Physiology, Silk, Infrared spectroscopy, Aquatic Science, Biology, Moths, Sericin, Phylogenetic, Phenols, Bombyx mori, Phylogenetics, Botany, Silkworm, Cocoon, Arachnida, Animals, Sericins, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Phylogeny, Bombyx, Phylogenetic tree, Calcium Oxalate, biology.organism_classification, SILK, Lepidopteran, Multivariate analysis, Evolutionary biology, Insect Science, Animal Science and Zoology, Identification (biology), Peptides, Research Article

Abstract

Lepidopteran silks number in the thousands and display a vast diversity of structures, properties and industrial potential. To map this remarkable biochemical diversity, we present an identification and screening method based on the infrared spectra of native silk feedstock and cocoons. Multivariate analysis of over 1214 infrared spectra obtained from 35 species allowed us to group silks into distinct hierarchies and a classification that agrees well with current phylogenetic data and taxonomies. This approach also provides information on the relative content of sericin, calcium oxalate, phenolic compounds, poly-alanine and poly(alanine-glycine) β-sheets. It emerged that the domesticated mulberry silkmoth Bombyx mori represents an outlier compared with other silkmoth taxa in terms of spectral properties. Interestingly, Epiphora bauhiniae was found to contain the highest amount of β-sheets reported to date for any wild silkmoth. We conclude that our approach provides a new route to determine cocoon chemical composition and in turn a novel, biological as well as material, classification of silks., Summary: FTIR analysis performed on unspun silks and cocoons from 35 different species provides information regarding the biochemical diversity and evolution of this group of materials.

Published

2015

43. Redox imbalance mediates entomotoxic effects of the conifer Araucaria angustifolia in Anticarsia gemmatalis velvetbean caterpillar

Author

Mirian Salvador, Cátia dos Santos Branco, Lúcia Rosane Bertholdo-Vargas, Émilin Dreher de Lima, Neiva Monteiro de Barros, and Tiago Selau Rodrigues

Subjects

0301 basic medicine, Biological pest control, biological control, lepidopteran, Crop, lcsh:Agriculture, 03 medical and health sciences, Botany, Caterpillar, polyphenols, Larva, biology, lcsh:TP368-456, fungi, lcsh:S, food and beverages, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Photosynthetic capacity, Anticarsia gemmatalis, lcsh:Food processing and manufacture, 030104 developmental biology, Polyphenol, velvetbean caterpillar, Araucaria, Food Science

Abstract

The velvetbean caterpillar, Anticarsia gemmatalis is one of the most important pests of soybean crops in tropical America. By feeding on leaves, significant defoliation occurs resulting in reduced photosynthetic capacity required for plants’ maintenance and growth, which subsequently can lead to crop losses and reduced agricultural productivity. Many studies have sought to look for compounds that have insecticidal effects. One class of compounds is phenolics, which are produced by plants and have been found to influence the behavior and development of defoliators, representing an important alternative approach to many synthetic insecticides. Particularly, Araucaria angustifolia is a plant rich in polyphenols, which are compounds able to alter cellular dynamics through modulating redox status. In this study, A. angustifolia extract (AAE) was added to the artificial diet of A. gemmatalis. The results demonstrated that AAE was able to reduce larval viability by inducing morphological changes and a delay in the insect’s development. In addition, AAE was found to induce oxidative damage to lipids and proteins, as well as increased nitric oxide levels in A. gemmatalis larvae. AAE treatments also decreased the antioxidant defense systems, leading to a redox imbalance. The reduction in viability in A. gemmatalis was positively correlated with oxidative markers, suggesting that redox imbalance can lead to larvae’s death. These results suggest that AAE possess insecticidal potential through the mechanisms of action of altering cellular redox state. Though further studies are required to confirm this, our study nevertheless contributes to a better understanding of AAE’s mechanisms of action as potential biopesticides in pest management, opening new perspectives on the development of compounds with insecticidal action.

Published

2016

44. Preimaginal conditioning affects oviposition choices in the silkworm moth (Bombyx mori).

Author

Gámez, A. Matías and León, Samuel P.

Abstract

• The Hopkins Host Selection Principle seems to be replicated in the silkworm. • Memories formed during the larval stage persist in the lepidopterans adult brain. • Preimaginal learning influences the oviposition behaviour. • Pavlovian conditioning in larvae seems to be useful for silkworm offspring survival. Nowadays we can find a number of experiments that have showed the importance of learning in several situations related with survival of many animal species. For instance, knowledge acquired in the early stages of life could be crucial on the choice of egg-laying site. In this study we explored the influence of Pavlovian conditioning of silkworm larvae on their oviposition behaviour as adult female moths. For this, the larvae learning have to survive the metamorphosis and be shown in oviposition choice. In acquisition phase, a larvae group experienced an odour (conditioned stimulus) paired with mulberry leaves (unconditioned stimulus), another one experienced the odour and the mulberry leaves in an unpaired way and the last one experienced the odour alone during this phase. The results show that when these larvae became moths, only the first group preferred to lay their eggs near the odour when it was present during the test, so that associations learned during the larval stage seem to influence oviposition behaviour during adulthood. [ABSTRACT FROM AUTHOR]

Published

2020

45. Hybrid speciation : reflexions on the process and exploration of a case study in a complex of alpine butterflies

Author

Capblancq, Thibaut, STAR, ABES, Laboratoire d'Ecologie Alpine (LECA ), Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019]), Université Grenoble Alpes, and Laurence Després

Subjects

[SDE.BE] Environmental Sciences/Biodiversity and Ecology, Lepidopteran, Introgression, Speciation, Hybridation, [SDE.ES] Environmental Sciences/Environmental and Society, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Adaptation, Spéciation, [SDE.ES]Environmental Sciences/Environmental and Society, Hybridization, Lepidoptère

Abstract

Interspecific hybridization is more and more studied these last years and its consequences on species evolution are diverse. The literature especially points out its potential impact on new species emergence and the number of hybrid speciation cases is increasing. My work aims at understanding how interspecific crosses can initiate the rise of a new hybrid lineage and stimulate the diversification of living organisms.Reviewing the examples of animals hybrid species described in the literature allows me, in the first part of this work, to identify the main patterns associated with the process of hybrid speciation. I observe in particular that, if the recombination of parental characteristics is always the main driver of hybrid speciation, it leads to various patterns in hybrid species establishment. I also discuss methodological issues concerning the identification of hybrid species, which limit our capacity to estimate the prevalence of such process in species evolution dynamic.In the second part of this work I investigate the process of hybrid speciation in a complex of closely related butterfly species of the genus Coenonympha. I show that among the four lineages composing the complex, two originated through hybridization events. Their genetic, ecological and morphological characteristics allow us to better understand how their recombinant phenotype led to their emergence and their isolation from parental species.The evolutionary history of these butterflies is discussed in detail in the last part of this work. The results obtained in this particular case are compared with other examples of hybrid species and with theoretical expectations from literature. This example adds its specificities to the current knowledges about hybrid speciation and evolutionary impacts of hybridization., L’hybridation interspécifique est un phénomène très étudié ces dernières années et les conséquences qui lui sont attribuées dans l’évolution des espèces sont diverses. Une littérature de plus en plus fournie met notamment en évidence le rôle que peut avoir l’hybridation sur l’émergence de nouveaux taxons. Mon travail de thèse s’attache à comprendre comment des croisements entre espèces peuvent impacter le processus de spéciation d’une nouvelle lignée évolutive et stimuler ainsi la diversification des organismes vivants.Une revue des différents cas d’espèces hybrides animales proposés dans la littérature a permis, dans la première partie de cette thèse, d’identifier les patrons associés de façon redondante au processus de spéciation hybride. Nous observons par exemple que, si l’apport premier de l’hybridation à la spéciation reste toujours la recombinaison de caractéristiques parentales divergentes, cela peut se traduire de manière différente lors de l’émergence de la lignée hybride. Cette synthèse a aussi été l’occasion de discuter des difficultés méthodologiques qui limitent une réelle estimation de la prévalence de ce phénomène dans l’évolution des espèces.Dans la seconde partie de ma thèse j’explore le processus de spéciation hybride chez un complexe d’espèces proches de papillons du genre Coenonympha. Je montre que, parmi les quatre lignées identifiées dans le complexe, deux sont issues de l’hybridation. Leurs caractéristiques génétiques, écologiques et morphologiques permettent de comprendre, en partie, comment leur phénotype recombinant a favorisé leur établissement en tant qu’espèces à part entière et leur isolement vis-à-vis de leurs espèces parentales.L’histoire évolutive de ces papillons est discutée en détail dans la dernière partie de mon travail de thèse. Les résultats obtenus pour ce cas particulier y sont confrontés aux autres exemples de spéciation hybride ainsi qu’aux attendus théoriques associés à ce phénomène. Les spécificités de ce système d’étude viennent ainsi enrichir les connaissances actuelles sur le processus de spéciation hybride et sur les impacts évolutifs de l’hybridation.

Published

2016

46. In-Silico Determination of Insecticidal Potential of Vip3Aa-Cry1Ac Fusion Protein Against Lepidopteran Targets Using Molecular Docking

Author

Abdul Qayyum Rao, Ammara Ahad, Tayyab Husnain, Salah ud Din, Muhammad Rizwan Javed, Muhammad Azmat Ullah Khan, Ahmad Ali Shahid, and Aftab Ahmad

Subjects

Lepidopteron, homology modeling, Spodoptera litura, Agrotis ipsilon, Plant Science, lcsh:Plant culture, Spodoptera, Helicoverpa armigera, Vip3Aa, Hypothesis and Theory, Bacillus thuringiensis, fusion protein, Cry1Ac, lcsh:SB1-1110, Homology modeling, biology, business.industry, fungi, molecular docking, biology.organism_classification, Fusion protein, Biotechnology, Biochemistry, Lepidopteran, Molecular docking, business

Abstract

Study and research of Bt (Bacillus thuringiensis) transgenic plants have opened new ways to combat insect pests. Over the decades, however, insect pests, especially the Lepidopteran, have developed tolerance against Bt delta-endotoxins. Such issues can be addressed through the development of novel toxins with greater toxicity and affinity against a broad range of insect receptors. In this computational study, functional domains of Bacillus thuringiensis crystal delta-endotoxin (Cry1Ac) insecticidal protein and vegetative insecticidal protein (Vip3Aa) have been fused to develop a broad-range Vip3Aa-Cry1Ac fusion protein. Cry1Ac and Vip3Aa are non-homologous insecticidal proteins possessing receptors against different targets within the midgut of insects. The insecticidal proteins were fused to broaden the insecticidal activity. Molecular docking analysis of the fusion protein against aminopeptidase-N (APN) and cadherin receptors of five Lepidopteran insects (Agrotis ipsilon, Helicoverpa armigera, Pectinophora gossypiella, Spodoptera exigua, and Spodoptera litura) revealed that the Ser290, Ser293, Leu337, Thr340, and Arg437 residues of the fusion protein are involved in the interaction with insect receptors. The Helicoverpa armigera cadherin receptor, however, showed no interaction, which might be due to either loss or burial of interactive residues inside the fusion protein. These findings revealed that the Vip3Aa-Cry1Ac fusion protein has a strong affinity against Lepidopteran insect receptors and hence has a potential to be an efficient broad-range insecticidal protein.

Published

2015

47. Friend or foe? Effects of host immune activation on the gut microbiome in the caterpillar Manduca sexta .

Author

McMillan LE and Adamo SA

Subjects

Animals, Hemolymph, Larva, Gastrointestinal Microbiome, Manduca, Microbiota

Abstract

For many animals, the gut microbiome plays an essential role in immunity and digestion. However, certain animals, such as the caterpillar Manduca sexta , do not have a resident gut microbiome. Although these animals do have bacteria that pass through their gut from their natural environment, the absence of such bacteria does not reduce growth or survival. We hypothesized that M. sexta would sterilize their gut as a protective measure against secondary infection when faced with a gut infection or exposure to heat-killed bacteria in the blood (haemolymph). However, we found that gut sterilization did not occur during either type of immune challenge, i.e. bacterial numbers did not decrease. By examining the pattern of immune-related gene expression, gut pH, live bacterial counts and mass change (as a measure of sickness behaviour), we found evidence for physiological trade-offs between regulating the microbiome and defending against systemic infections. Caterpillars exposed to both gut pathogens and a systemic immune challenge had higher numbers of bacteria in their gut than caterpillars exposed to a single challenge. Following a multivariate analysis of variance, we found that the response patterns following an oral challenge, systemic challenge or dual challenge were unique. Our results suggest that the immune response for each challenge resulted in a different configuration of the immunophysiological network. We hypothesize that these different configurations represent different resolutions of physiological trade-offs based on the immune responses needed to best protect the animal against the present immune challenges., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published

2020

48. Influence of dietary aconitine and nicotine on the gut microbiota of two lepidopteran herbivores.

Author

Zeng JY, Wu DD, Shi ZB, Yang J, Zhang GC, and Zhang J

Subjects

Animals, Bacteria classification, Bacteria genetics, Larix, Larva drug effects, Larva microbiology, Moths drug effects, Moths growth & development, Plant Leaves, RNA, Ribosomal, 16S, Salix, Aconitine pharmacology, Gastrointestinal Microbiome drug effects, Moths microbiology, Nicotine pharmacology

Abstract

The gut microbiota plays an important role in pheromone production, pesticide degradation, vitamin synthesis, and pathogen prevention in the host animal. Therefore, similar to gut morphology and digestive enzyme activity, the gut microbiota may also get altered under plant defensive compound-induced stress. To test this hypothesis, Dendrolimus superans larvae were fed either aconitine- or nicotine-treated fresh leaves of Larix gmelinii, and Lymantria dispar larvae were fed either aconitine- or nicotine-treated fresh leaves of Salix matsudana. Subsequently, the larvae were sampled 72hr after diet administration and DNA extracted from larval enteric canals were employed for gut microbial 16S ribosomal RNA gene sequencing (338 F and 806 R primers). The sequence analysis revealed that dietary nicotine and aconitine influenced the dominant bacteria in the larval gut and determined their abundance. Moreover, the effect of either aconitine or nicotine on D. superans and L. dispar larvae had a greater dependence on insect species than on secondary plant metabolites. These findings further our understanding of the interaction between herbivores and host plants and the coevolution of plants and insects., (© 2020 Wiley Periodicals, Inc.)

Published

2020

49. Molecular Insights into the Insensitivity of Lepidopteran Pests to Cycloxaprid.

Author

Qi H, Liu T, Lu Q, and Yang Q

Subjects

Amino Acid Sequence, Animals, Insect Proteins chemistry, Insect Proteins genetics, Insect Proteins metabolism, Larva drug effects, Larva growth & development, Molecular Structure, Moths chemistry, Moths genetics, Moths growth & development, Sequence Alignment, Heterocyclic Compounds, 3-Ring chemistry, Heterocyclic Compounds, 3-Ring pharmacology, Insecticides chemistry, Insecticides pharmacology, Moths drug effects, Pyridines chemistry, Pyridines pharmacology

Abstract

Cycloxaprid (CYC) is effective in the control of hemipteran pests, but its bioactivity against lepidopteran pests is still unclear. Here, the bioactivity of CYC against lepidopteran pests was found to be much worse than that against hemipteran insects. To reveal the mechanism, the transcriptomes of CYC-treated and untreated Ostrinia furnacalis larvae were compared. Among the top 20 differentially expressed genes, 11 encode proteins involved in cuticle formation, while only one encodes a detoxifying enzyme. Thus, the cuticle appears to be important for the insensitivity of O. furnacalis to CYC. A pretreatment of O. furnacalis larvae with methoprene enhanced the bioactivity of CYC by 1.12-fold. Moreover, mixtures of CYC with graphene oxide increased the bioactivity of CYC by 1.88-fold. Because lepidopteran and hemipteran insects often harm crops at the same time, the work can help make full use of CYC and reduce the environmental impacts of using multiple pesticides.

Published

2020

50. Larvicidal and enzyme inhibition of essential oil from Spheranthus amaranthroids (Burm.) against lepidopteran pest Spodoptera litura (Fab.) and their impact on non-target earthworms.

Author

Murfadunnisa, Sunar, Vasantha-Srinivasan, Prabhakaran, Ganesan, Raja, Senthil-Nathan, Sengottayan, Kim, Tae-Jin, Ponsankar, Athirstam, Dinesh Kumar, Singaravelu, Chandramohan, Devarajan, and Krutmuang, Patcharin

Subjects

SPODOPTERA littoralis, BRUSH border membrane, EARTHWORMS, ACID phosphatase, ALKALINE phosphatase, ENZYMES, ESSENTIAL oils

Abstract

The present investigation was highlighted the green-derived Essential oils with bio-active derivatives of Sphaeranthus amaranthoides (Sa-EO) can be employed in larvicidal and enzyme inhibitory effects against threatening tobacco cutworm S. litura and their detrimental effects against soil indicator earthworms. Chemical screening of EO-Sa using GC-MS exposed thoroughly five major derivatives with major peak area in d -Carvone (89.7%). The larvicidal activity of both third and fourth instar were improved steadily with higher dosage of treatments (400, 600, 800 and 1000 ppm). The lethal concentration (LC50) for third and fourth instar larvae was observed at 2.71 and 2.74 ppm (log dosage) respectively. Correspondingly, the sub-lethal dosage of EO-Sa (500 ppm) reduced the enzyme activity of Acid Phosphatase (ACP), Alkaline Phosphatase (ALP) and Adenosine triphosphate (ATP) significantly in both third and fourth instars. Further, the gut-histological activity of EO-Sa (500 ppm) against fourth instar showed damaged and disintegrated epithelial cells (EL) and columnar cells (CC), gut lumen (GL) and brush border membrane (BBM). Finally, the non-target screening against E. euginae showed that the EO-Sa was found to be harmless even at the maximum dosage of 1000 and 1500 ppm as compared to synthetic chemical monocrotophos in both filter paper test (FPT) and artificial soil test (AST). Thus the present investigation evidenced that active phyto-chemistries of EO-Sa delivers a sturdy toxicological response against S. litura and harmless against non-target earthworm. [ABSTRACT FROM AUTHOR]

Published

2019