Azadirachtin effects on mating success, gametic abnormalities and progeny survival in <i>Drosophila melanogaster</i> (Diptera)

Oulhaci, Chemseddine M; Denis, Béatrice; Kilani-Morakchi, Samira; Sandoz, Jean‐Christophe; Kaiser, Laure; Joly, Dominique; Aribi, Nadia

doi:10.1002/ps.4678

Cited by 31 publications

(27 citation statements)

References 70 publications

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“…In addition, the percent pupation and the tendency of the treated pupae to develop to adults, obviously, decreased when they were treated as larvae with azadirachtin. The same findings were also reported for other insect species by using azadirachtin against Aphis glycines (Kraiss and Cullen 2008), Plodia interpunctella (Rharrabe et al 2008, Lynn et al 2012, Aedes aegypti (Koodalingam et al 2014), Drosophila melanogaster (Boulahbel et al 2015, Bezzar-Bendjazia et al 2016, Oulhaci et al 2018, Lutzomyia longipalpis (Andrade Coelho et al 2014) and Anopheles stephensi (Siddiqui et al 2003). The major retarding effect of azadirachtin on the development of M. scalaris, in the present study, can be explicated by the delaying effects of azadirachtin on the ecdysis and transformation of the insect.…”

Section: Discussionsupporting

confidence: 90%

Development Rate and Ultrastructure Changes of Puparia of Megaselia scalaris (Loew) (Diptera: Phoridae) Induced by Azadirachtin.

Abdel-Gawad

2018

Egyptian Academic Journal of Biological Sciences. A, Entomology

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The effect of azadirachtin on the development and mortality of the scuttle fly, Megaselia scalaris (Loew) (Diptera: Phoridae) was investigated in the laboratory by using neem extract, Achook ® , containing 0.15% azadirachtin. Different biological changes were recorded after treatment 1 st larval instar with different concentrations of azadirachtin as larval mortality, pupation rate and adult emergence of. Azadirachtin-LC 50 against the 1 st instar larvae of M. scalaris was 13.79 mg/L. Exposing larvae to LC 50 of azadirachtin caused many changes in the puparia such as having folded cuticle and swelling of the integument compared to control. Distortion of the anterior spiracle and papillae found on respiratory horns were also observed. The present study suggests that azadirachtin hampers the development rate of M. scalaris by reducing the insect population and causing several scanning electron microscopic changes in the puparia of the insect.

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Section: Discussionsupporting

confidence: 90%

Development Rate and Ultrastructure Changes of Puparia of Megaselia scalaris (Loew) (Diptera: Phoridae) Induced by Azadirachtin.

Abdel-Gawad

2018

Egyptian Academic Journal of Biological Sciences. A, Entomology

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“…For insects, the reproductive ability was vital for species propagation and great potential as targets for insect control. Indeed, azadirachtin could have impacts on the reproductive ability of flies by regulating the yolk protein content in fat body and ovaries, postmating process of both sexes of flies, and the number of cysts and the apical nuclei position, reducing the size of the queens’ reproductive organs . However, the detailed mechanisms underlying such regulation were largely unknown.…”

Section: Introductionmentioning

confidence: 99%

Proteomic Profiling Analysis of Male Infertility inSpodoptera LituraLarvae Challenged with Azadirachtin and its Potential‐Regulated Pathways in the Following Stages

et al. 2018

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Biopesticides are considered as an alternative to synthetic pesticide with a focus on increasing agricultural productivity as well as maintaining the ecosystem. Prior to application, its potential mechanism should be clearly addressed. Here, the effects of azadirachtin on the reproductive behavior in male Spodoptera litura (Fabricius) are determined. To further explore its molecular mechanism, an iTRAQ (isobaric tags for relative and absolute quantitation) based approach is applied to identify the differentially expressed proteins regulated by azadirachtin at two developmental stages. The results demonstrate that many proteins in the pathway of focal adhesion are regulated to exert influences in detachment of cell attachment, the loss of cell-cell interactions and inducing apoptosis at pupal stage, and many proteins in adenosine monophosphate-activated protein kinase pathway are also changed at the adult stage after azadirachtin-treatment as larvae. Moreover, based on their important roles, it is suggested that some proteins, such as ACTB-G1, ste20-related adaptor protein alpha, and regulatory-associated protein of mTOR (mTORC1) could serve as potential target proteins of azadirachtin to induce male infertility. The results of this study could provide evidence to illuminate the mechanism of male infertility induced by azadirachtin and potential targets for the development of environmentally friendly pesticides.

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“…Azadirachtin A, the major insecticidal ingredient in neem-based products, exhibits excellent bioactivity against over 600 insect species [ 1 ] in agricultural areas [ 2 ]. It is processed by insects as a natural hormone and it induces antifeedant, repellent, and growth inhibiting behavior in insects [ 3 ]. Azadirachtin A-based pesticides are biodegradable, environment-friendly, and non-toxic to mammals, plants, and birds.…”

Section: Introductionmentioning

confidence: 99%

Multi-tissue transcriptome analysis using hybrid-sequencing reveals potential genes and biological pathways associated with azadirachtin A biosynthesis in neem (azadirachta indica)

Wang

Huo

2020

BMC Genomics

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Background Azadirachtin A is a triterpenoid from neem tree exhibiting excellent activities against over 600 insect species in agriculture. The production of azadirachtin A depends on extraction from neem tissues, which is not an eco-friendly and sustainable process. The low yield and discontinuous supply of azadirachtin A impedes further applications. The biosynthetic pathway of azadirachtin A is still unknown and is the focus of our study. Results We attempted to explore azadirachtin A biosynthetic pathway and identified the key genes involved by analyzing transcriptome data from five neem tissues through the hybrid-sequencing (Illumina HiSeq and Pacific Biosciences Single Molecule Real-Time (SMRT)) approach. Candidates were first screened by comparing the expression levels between the five tissues. After phylogenetic analysis, domain prediction, and molecular docking studies, 22 candidates encoding 2,3-oxidosqualene cyclase (OSC), alcohol dehydrogenase, cytochrome P450 (CYP450), acyltransferase, and esterase were proposed to be potential genes involved in azadirachtin A biosynthesis. Among them, two unigenes encoding homologs of MaOSC1 and MaCYP71CD2 were identified. A unigene encoding the complete homolog of MaCYP71BQ5 was reported. Accuracy of the assembly was verified by quantitative real-time PCR (qRT-PCR) and full-length PCR cloning. Conclusions By integrating and analyzing transcriptome data from hybrid-seq technology, 22 differentially expressed genes (DEGs) were finally selected as candidates involved in azadirachtin A pathway. The obtained reliable and accurate sequencing data provided important novel information for understanding neem genome. Our data shed new light on understanding the biosynthesis of other triterpenoids in neem trees and provides a reference for exploring other valuable natural product biosynthesis in plants.

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Azadirachtin effects on mating success, gametic abnormalities and progeny survival in Drosophila melanogaster (Diptera)

Cited by 31 publications

References 70 publications

Development Rate and Ultrastructure Changes of Puparia of Megaselia scalaris (Loew) (Diptera: Phoridae) Induced by Azadirachtin.

Development Rate and Ultrastructure Changes of Puparia of Megaselia scalaris (Loew) (Diptera: Phoridae) Induced by Azadirachtin.

Proteomic Profiling Analysis of Male Infertility inSpodoptera LituraLarvae Challenged with Azadirachtin and its Potential‐Regulated Pathways in the Following Stages

Multi-tissue transcriptome analysis using hybrid-sequencing reveals potential genes and biological pathways associated with azadirachtin A biosynthesis in neem (azadirachta indica)

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