Lyn Jennens scite author profile

We describe in full the first synthesis of the potent insect antifeedant azadirachtin through a highly convergent approach. An O-alkylation reaction is used to unite decalin ketone and propargylic mesylate fragments, after which a Claisen rearrangement constructs the central C8-C14 bond in a stereoselective fashion. The allene which results from this sequence then enables a second critical carbon-carbon bond forming event whereby the [3.2.1] bicyclic system, present in the natural product, is generated via a 5-exo-radical cyclisation process. Finally, using knowledge gained through our early studies into the reactivity of the natural product, a series of carefully designed steps completes the synthesis of this challenging molecule.

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The effects of phytochemical pesticides on the growth of cultured invertebrate and vertebrate cells

Salehzadeh

Jabbar

Jennens

et al. 2002

Pest Management Science

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A range of cultured cells of invertebrate and vertebrate origin was grown in the presence of a number of phytochemical pesticides to test the effect of the latter on cell proliferation. The main observation was that azadirachtin was a potent inhibitor of insect cell replication, with an EC50 of 1.5 x 10(10) M against Spodoptera cells and of 6.3 x 10(9) M against Aedes albopictus cells, whilst affecting mammalian cells only at high concentrations (> 10(-4) M). As expected, the other phytochemical pesticides, except for rotenone, had little effect on the growth of the cultured cells. Rotenone was highly effective in inhibiting the growth of insect cells (EC50:10(-8) M) but slightly less toxic towards mammalian cells (EC50:2 x 10(-7) M). Neem terpenoids other than azadirachtin and those very similar in structure significantly inhibited growth of the cell cultures, but to a lesser degree. The major neem seed terpenoids, nimbin and salannin, for example, inhibited insect cell growth by 23% and 15%, respectively.

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Behavioural and neurophysiological responses of Spodoptera littoralis to azadirachtin and a range of synthetic analogues

Simmonds

Blaney

Ley

et al. 1995

Entomologia Exp Applicata

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The antifeedant activity of azadirachtin and 56 azadirachtin analogues, including 22, 23‐dihydroazadirachtin, against larvae of Spodoptera littoralis was investigated using behavioural and electrophysiological bioassays. None of the analogues was as active as azadirachtin, although many showed significant antifeedant activity at high concentrations. The majority of the analogues stimulated a dose‐dependent response from a neurone in the medial styloconic maxillary sensilla which correlated with the behavioural activity. Methylation of the hydroxy substitutions on the azadirachtin molecule usually resulted in a decrease in antifeedant activity, as did the addition of bulky groups to the dihydrofuran ring.

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Characterization of azadirachtin binding to Sf9 nuclei in vitro

Nisbet

Mordue

Grossman

et al. 1997

Arch. Insect Biochem. Physiol.

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Lyn Jennens

Chemistry of insect antifeedants from Azadirachta Indica (Part 19): 1A potential relay route for the synthesis of azadirachtin

The Synthesis of Azadirachtin: A Potent Insect Antifeedant

The effects of phytochemical pesticides on the growth of cultured invertebrate and vertebrate cells

Behavioural and neurophysiological responses of Spodoptera littoralis to azadirachtin and a range of synthetic analogues

Characterization of azadirachtin binding to Sf9 nuclei in vitro

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