The spinosyn family of insecticides: realizing the potential of natural products research

Kirst, Herbert A.

doi:10.1038/ja.2010.5

Cited by 280 publications

(188 citation statements)

References 107 publications

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“…Spinosad was previously thought to be a reduced-risk biopesticide by United States Environmental Protection Agency due to its selective toxicity to non-target species and the lower potential for environmental damage, which is widely used in agriculture and stockbreeding (Kirst, 2010). Until now, spinosad has been shown to be non-target toxicity, the molecular mechanism has been paying more and more attention (Biondi et al, 2012).…”

Section: Discussionmentioning

confidence: 99%

Oxidative stress and DNA damage induced by spinosad exposure in Spodoptera frugiperda Sf9 cells

Yang

Gao

et al. 2017

Food and Agricultural Immunology

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Spinosad, a neurotoxic insecticide, is widely used for crop protection. In order to elucidate the effects of spinosad on oxidative stress and genotoxicity in Sf9 cells, the levels of lipid peroxidation, the activity of antioxidative enzymes, and DNA damage were measured. The results showed that spinosad caused a time-dependent increase in the formation of malondialdehyde and decrease in the activity of superoxide dismutase and catalase. Further studies confirmed that spinosad induced 8-oxoguanine accumulation in Sf9 cells, which is accompanied by increased expression of DNA repair enzymes (OGG1 and MTH1). The neutral comet assay revealed that spinosad induced significant timerelated increases of DNA double-strand breaks in Sf9 cells. Our results indicate that spinosad effectively induced oxidative stress and DNA damage in Sf9 cells. ARTICLE HISTORY

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Section: Discussionmentioning

confidence: 99%

Oxidative stress and DNA damage induced by spinosad exposure in Spodoptera frugiperda Sf9 cells

Yang

Gao

et al. 2017

Food and Agricultural Immunology

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“…However, it is relatively simple to generate many similar chemical structures, using either chemical or biochemical pathways. Thus, the MoA of these compounds can be studied using an approximation of the structure-activity relationship (SAR) (Tewary et al 2006;Bhardwaj et al 2010;Kirst 2010;Li et al 2013). This term describes a rapidly growing field of research that studies relationships between molecular structure (e.g., available hydroxyl (He et al 1997) or polymerization degree (Frackenpohl et al 2009)) and the physicochemical and biological response.…”

Section: Chemical Synthesis Of Natural Active Substancesmentioning

confidence: 99%

“…Tewary et al (2006) carried out a similar work with Aphis craccivora, and they observed that the position of double bonds in the C6-C3 system is important because it influences mitochondrial respiration; increasing the activity of phenylpropanoids by nonpolar substitutes such as methoxy groups enhances its penetration through the body cuticle and diffusion. In the spinosyn family, over 1000 analogs have been obtained and tested (Salgado and Sparks 2005), and their SARs have been evaluated (Kirst 2010). 1.…”

Section: Chemical Synthesis Of Natural Active Substancesmentioning

confidence: 99%

Biopesticides from Natural Products: Current Development, Legislative Framework, and Future Trends

Villaverde¹,

Sandín‐España²,

Sevilla-Morán³

et al. 2016

BioResources

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The importance of biomass as a source of chemicals, biofuels, and energy is widely accepted. Currently, the attention is mainly focused on the valorisation of by-products from lignocellulosic materials. Chemical compounds derived from plants and microorganisms that provide good protection for crops against weeds, pests, and diseases (biopesticide active substances) have been used to formulate pesticides. Their use is increasingly encouraged by new pesticide regulations that discourage the use of harmful active substances. This article reviews the current and future situation of biopesticides, especially natural chemical products, and focuses on their potential within the European pesticide legislative framework. Moreover, this article highlights the importance of the different modes/mechanisms of action of the active substances obtained from natural sources, the role of chemistry in biopesticide development, and how the adoption of integrated pest management practices contributes to a greater trend towards biopesticides.

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“…Several studies have shown that spinosyn has no long time persistence ability in plants, soil and other environments due to facile degradation by microbes present, whereby they partition them into organic matter and sediment with subsequent biotic degradation in the absence of light. Overall, they are easily subjected to diverse degradative pathways and metabolic mechanisms, and hence reduce their persistence in plants, and other environments (Kirst, 2010).…”

Section: Actinomycetes and Its Metabolitesmentioning

confidence: 99%

Microbial agents against Helicoverpa armigera: Where are we and where do we need to go?

Vijayabharathi¹,

Kumari²,

Gopalakrishnan³

2014

Afr. J. Biotechnol.

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Plants are prone to various biotic stresses in nature by bacteria, viruses, fungi, parasites, harmful insects and weeds. The biggest percentage loss (70%) in plants is attributed to insects. Lepidoptera is one such diversified phytophagous insect group, which include Helicoverpa armigera, a key pest of many food crops including chickpea, pigeonpea, pea, lentil, chillies, sunflower, tomato, tobacco and cotton. Controlling this insect has been a big task for farmers leading to the manufacture of a plethora of pesticides. However, over reliance on chemical pesticides has resulted in problems including safety risks, environmental contamination, outbreaks of secondary pests, insecticide resistance and decrease in biodiversity. Hence, there is an urgent need for the development of eco-friendly methods such as entomopathogens, antagonist or competitor populations of a third organism and botanicals to suppress H. armigera. Also, many compounds from microorganisms have been found to be effective in crop production, and these have a role in controlling H. armigera. The actinomycetes play an astounding role in controlling the key plant pathogens. They are the representative genera of higher microbial mass in the soil. Numerous studies have shown that these productive actino-bacteria can generate an impressive array of secondary metabolites such as antibiotics, antitumor agents, insecticides etc. This review emphasizes the mechanism behind resistance to insecticides along with actinomycetes and its potential as a biocontrol agent against H. armigera.

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The spinosyn family of insecticides: realizing the potential of natural products research

Cited by 280 publications

References 107 publications

Oxidative stress and DNA damage induced by spinosad exposure in Spodoptera frugiperda Sf9 cells

Oxidative stress and DNA damage induced by spinosad exposure in Spodoptera frugiperda Sf9 cells

Biopesticides from Natural Products: Current Development, Legislative Framework, and Future Trends

Microbial agents against Helicoverpa armigera: Where are we and where do we need to go?

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