Molecular connectivity and hydrophobicity in the study of antifeedant activity of clerodane diterpenoids

Luco, Juan M.; Sosa, Mart A. E.; Cesco, Juan Carlos; Tonn, Carlos E.; Giordano, Óscar S.

doi:10.1002/ps.2780410102

Cited by 30 publications

(16 citation statements)

References 17 publications

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“…Taking into account the grain production of Argentina it is an interesting insect model to use in antifeedant activity studies toward clerodane diterpenes. In this order a considerable number of this kind of compounds (23-49) has been isolated in our laboratory from plants of the Asteraceae and Labiatae families Luco et al 1994;Gallardo Varas et al 1996;Ceñ al et al 1997;Enriz et al 2000;Simirgiotis et al 2000;Cifuente et al 2002;Gonzá lez Coloma et al 2005;Juan et al 2006). From this set of diterpenes, compounds 50-55 were prepared by chemical transformations.…”

Section: Neo-clerodane-diterpenesmentioning

confidence: 97%

Plant secondary metabolites from Argentinean semiarid lands: bioactivity against insects

Sosa

Tonn

2007

Phytochem Rev

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Section: Neo-clerodane-diterpenesmentioning

confidence: 97%

Plant secondary metabolites from Argentinean semiarid lands: bioactivity against insects

Sosa

Tonn

2007

Phytochem Rev

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“…The percentage feeding index (PFI) was calculated (cf. LUCO et al, 1994) where treated is the area treated with the solution of compound in 1 ml acetone and solvent control is the area treated with 1 ml acetone. The effect of triterpenoids on the duration of development was also studied using third instar S. litura larvae (GOVINDACHARI et al, 1996a).…”

Section: Insect Bioassaysmentioning

confidence: 99%

Insect antifeedant and growth regulating activities of neem seed oil – the role of major tetranortriterpenoids

Govindachari¹,

Suresh²,

Gopalakrishnan³

et al. 2000

J Applied Entomology

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An attempt was made to correlate insect antifeedant and growth regulatory activities of neem (Azadirachta indica) seed oil with the major tetranortriterpenoids. Selective elimination of triterpenoids by preparative high‐performance liquid chromatography, incorporation of the eliminated compounds in defined concentrations and bioassaying the resultant fractions against Spodoptera litura indicated the necessity to quantify major triterpenoids for correlation of bioactivity of neem oil.

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“…In previous studies [15][16][17], hydrophobicity parameters obtained by RPLC as well as nonempirical descriptors based on the chemical graph theory, have been found useful in establishing quantitative structure-activity and structureproperty relationships (QSAR, QSPR).…”

Section: Introductionmentioning

confidence: 99%

High-performance liquid chromatography of chalcones: Quantitative structure-retention relationships using partial least-squares (PLS) modeling

et al. 2000

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SummaryIn this study, the multivariate partial least squares projections to latent structures (PLS) technique was used for modeling the RP-HPLC retention data of 17 chalcones, which were determined with methanol-water mobile phases of different compositions. The PLS model was based on molecular descriptors which can be calculated for any compound utilizing only the knowledge of its molecular structure. The PLS analysis resuited in a model with the following statistics: r = 0.976, Q = 0.933, s = 0.076, and F = 43.63. The adequacy of the developed model was assessed by means of crossvalidation and also, by PLS modeling of the retention data of several chalcones reported by Walczak et al. [J. Chromatogr. 353, 123, (1986)], which were obtained using stationary phases of different polarity (-NHa, DIOL, -CN, ODS, C8). The structural interpretation of the developed PLS model was accomplished by means of comparative correlations between the nonempirical descriptors used in the model and the solvation parameters developed by Abraham. The results obtained in this work provides evidence for the great potential of the topological approach for the development of quantitative structure-retention relationship (QSRR) models.

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Molecular connectivity and hydrophobicity in the study of antifeedant activity of clerodane diterpenoids

Cited by 30 publications

References 17 publications

Plant secondary metabolites from Argentinean semiarid lands: bioactivity against insects

Plant secondary metabolites from Argentinean semiarid lands: bioactivity against insects

Insect antifeedant and growth regulating activities of neem seed oil – the role of major tetranortriterpenoids

High-performance liquid chromatography of chalcones: Quantitative structure-retention relationships using partial least-squares (PLS) modeling

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