Marcos Gabriel Derita scite author profile

This work describes the synthesis and antifungal evaluation of 5‐arylidene‐(Z)‐2‐(1,1‐dicyanomethylene)‐1,3‐thiazol‐4‐ones 5 obtained from the reaction of 2‐(1,1‐dicyanomethylene)‐1,3‐thiazol‐4‐one 3 and benzaldehydes 4. The starting material 3 was synthesized by a condensation reaction of rhodanine 1 and malononitrile 2. The structures of the obtained products were established by IR, NMR, mass spectrometry, and elemental analysis. J. Heterocyclic Chem., (2011).

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Relation between lipophilicity of alkyl gallates and antifungal activity against yeasts and filamentous fungi

Leal

Mascarello

Derita³

et al. 2009

Bioorganic & Medicinal Chemistry Letters

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Antifungal Activity of Zuccagnia punctata Cav.: Evidence for the Mechanism of Action

et al. 2007

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Petroleum ether and dichloromethane extracts of fruits, aerial parts and exudate of Zuccagnia punctata Cav. (Fabaceae) showed moderate antifungal activities against the yeasts C. albicans, S. cerevisiae and C. neoformans (MICs: 62.5 - 250 microg/mL) and very strong antifungal activities against the dermatophytes M. gypseum, T. rubrum and T. mentagrophytes (MICs: 8 - 16 microg/mL) thus supporting the ethnopharmacological use of this plant. Antifungal activity-directed fractionation of active extracts by using bioautography led to the isolation of 2',4'-dihydroxy-3'-methoxychalcone (1) and 2',4'-dihydroxychalcone (2) as the compounds responsible for the antifungal activity. Second-order studies included MIC (80), MIC (50) and MFC of both chalcones in an extended panel of clinical isolates of the most sensitive fungi, and also comprised a series of targeted assays. They showed that the most active chalcone 2 is fungicidal rather than fungistatic, does not disrupt the fungal membranes up to 4 x MFC and does not act by inhibiting the fungal cell wall. So, 2',4'-dihydroxychalcone would act by a different mechanism of action than the antifungal drugs in current clinical use, such as amphotericin B, azoles or echinocandins, and thus appears to be very promising as a novel antifungal agent.

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Influence of plant part, season of collection and content of the main active constituent, on the antifungal properties of Polygonum acuminatum Kunth.

Derita

Leiva

Zacchino

2009

Journal of Ethnopharmacology

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Quinolines: Microwave-assisted synthesis and their antifungal, anticancer and radical scavenger properties

Liberto

Simões

Silva

et al. 2017

Bioorganic & Medicinal Chemistry

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Structural Requirements for the Antifungal Activities of Natural Drimane Sesquiterpenes and Analogues, Supported by Conformational and Electronic Studies

et al. 2013

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Seventeen drimanes including polygodial (1), isopolygodial (2), drimenol (3) and confertifolin (4) obtained from natural sources and the semi-synthetic derivatives 5–17 obtained from 1–3, were evaluated in vitro for antifungal properties against a unique panel of fungi with standardized procedures by using two end-points, MIC100 and MIC50. A SAR analysis of the whole series, supported by conformational and electronic studies, allowed us to show that the Δ7,8 -double bond would be one of the key structural features related to the antifungal activity. The MEPs obtained for active compounds exhibit a clear negative minimum value (deep red zone) in the vicinity of the Δ7,8 -double bond, which is not present in the inactive ones. Apart of this negative zone, a positive region (deep blue) appears in 1, which is not observed either in its epimer 2 nor in the rest of the active compounds. The LogP of active compounds varies between 2.33 and 3.84, but differences in MICs are not correlated with concomitant variations in LogP values.

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