Evaluation of antifungal activity of seaweed extracts

Peres, Julio Cesar Fernandes; Carvalho, Luciana Retz de; Gonçalez, Edlayne; Berian, Luis Otávio Saggion; Felício, Joana D.

doi:10.1590/s1413-70542012000300004

Cited by 54 publications

(33 citation statements)

References 22 publications

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“…For example, some SWEs have bactericidal effects [18] associated with the presence of terpenes and phenolic compounds [17, 19]. Other reports indicate that seaweeds might stimulate the production of plant defense elicitors (e.g.…”

Section: Introductionmentioning

confidence: 99%

Enhancement of Calibrachoa growth, secondary metabolites and bioactivity using seaweed extracts

Elansary

Norrie

Ali

et al. 2016

BMC Complement Altern Med

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Background: Calibrachoa x hybrida (Solanaceae) cultivars are widely used in North and South America as ornamental plants. Their potential as a source of antimicrobial compounds might be enhanced by seaweed extract (SWE) applications. Methods: SWE of Ascophyllum nodosum were applied at 5 and 7 ml/L as a soil drench or foliar spray on Calibrachoa cultivars of Superbells® 'Dreamsicle' (CHSD) and Superbells® 'Frost Fireʼ (CHSF). The total phenolics, tannins and antioxidants composition as well as specific flavonols in leaf extracts were determined. Further, the chemical composition of SWE was assessed. Results: The drench and foliar SWE treatments significantly enhanced Calibrachoa cultivars leaf number and area, dry weight, plant height, antioxidant capacity as well as phenolic, flavonols and tannin content. The increased growth and composition of phenols, flavonols and tannins was attributed to the stimulatory effects of SWE mineral composition. The antifungal activity of Calibrachoa cultivars was significantly enhanced following SWE treatments and the minimum inhibitory concentration (MIC) and minimum fungicidal concentration (MFC) were in the range of 0.07-0.31 mg/ml and from 0.16 to 0.56 mg/ml, respectively. Moreover, antibacterial activity was significantly increased and the MIC and minimum bactericidal concentration (MBC) measurements were in the range of 0.06-0. 23 mg/ml and from 0.10 to 0.44 mg/ml, respectively. The most sensitive fungus to SWE treatments was C. albicans and the most sensitive bacterium was E. cloacae. Conclusion:The results suggest that enhanced antifungal and antibacterial activities might be attributed to significant increases of phenolic, flavonols and tannin contents, which ultimately enhance the potential of Calibrachoa as a natural source of alternative antibiotics.

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Section: Introductionmentioning

confidence: 99%

Enhancement of Calibrachoa growth, secondary metabolites and bioactivity using seaweed extracts

Elansary

Norrie

Ali

et al. 2016

BMC Complement Altern Med

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“…Production of terpenes and phenols by some seaweed species has the potential to inhibit the growth of various fungal plant pathogens [50]. These bioactive polyphenol compounds, acting singly or in combination, interfere with the life process of fungi by binding their protein molecules, acting as chelating agents, altering structural component synthesis, weakening or destroying the permeability barrier of the cell membrane and changing the physiological status of cells.…”

Section: Discussionmentioning

confidence: 99%

Control of Fusarium Dry Rot Incited by Fusarium oxysporum f. sp. tuberosi Using Sargassum vulgare Aqueous and Organic Extracts

Ammar¹,

Nefzi²,

Jabnoun‐Khiareddine³

et al. 2017

J Microb Biochem Technol

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“…Aspergillus niger showed resistance against majority of methanolic extracts. In Brazil, Peres, et al (2013) reported that ten seaweed extracts significantly inhibited the Colletotrichum lagenarium growth, but not inhibited significantly the Aspergillus flavus growth [13]. In Ireland, Rajauria and Abu-Ghannam (2013) screened antimicrobial activity and bioactive compounds of Himanthalia elongate (Brown Seaweed) [14].…”

Section: Journal Of Microbiology and Modern Techniquesmentioning

confidence: 99%

Antifungal Potential in Crude Extracts of Five Selected Brown Seaweeds Collected from the Western Libya Coast

Am¹,

Im²,

Aa³

2016

Journal of Microbiology and Modern Techniques

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Seaweeds are one of these marine organisms that has been considered as a source of major metabolites that possess bioactive effects [1]. There are numerous reports of compounds derived from macroalgae with a broad range of biological activities, such as antifungal and antibacterial [2,3]. Investigations of the antibiotic properties of marine algae have focused on the effects of algal extracts on bacteria, with relatively little attention being paid to their potential antifungal properties [4]. M. Kausalya* and G.M. Narasimha Rao (2015) indicated that the presence of active constituents with antimicrobial activity in the extractions of marine algae such as Sargassum polycystum and Sargassum tenerrimum which can be exploited for the production of innovation drugs for the benefit of the humanity [5]. Several investigations have been carried out worldwide. In this respect, in USA, Martin, (1995) tested extracts from macroalgae by spraying on plants and reported a pronounced reduction in the disease incidence of Botrytis cinerea on strawberries, Erysiphe polygonion turnips, and reported that macroalgae, produce various, biologically active compounds [6]. In France, Hellio, et al. (2000) tested antimicrobial potentiality of many seaweed extracts and observed a conspicuous decrease in the development of the fungi tested [7]. In China, Yi, et al. (2001) used ethanol, acetone and methanoltoluene to extract antibiotics from 23 species of marine algae belonging to the Chlorophyta, Phaeophyta and Rhodophyta and revealed that the strongest antifungal activities were exhibited by the ethanol extract but the least were by the methanol-toluene extract [8]. In Pakistan, Khanzada, et al. (2007) screened various fractions of ethanolic extract of Solieria robusta (Rhodophyta) for antifungal activity against five fruit spoiling fungi isolated from fruits and reported that all fractions were able to inhibit fungal growth [9]. Aqueous fraction showed maximum inhibition ratios followed by methanol, ethyl acetate, chloroform and ethanol. In Korea, Kim and Kim, (2008) . Cyclohexanic extracts were almost the most active exhibiting a broad spectrum inhibitory action irrespective to the experimented algal extract or fungal species whereas both acetone and ethyl acetate extracts exhibited the lowest antifungal activity. Some algal extracts did not show recognizable inhibitory actions, and some others enhanced some fungal species. The experimented fungal species exhibited variable responses to the tested algal extracts depending upon the experimented fungal and algal species as well as the applied extract. Interestingly, some algal extracts exerted higher antifungal potential in comparable with the patented antifungal medicine (Nystatin and Clotrimazole). Generally, Alternaria alternata was relatively more resistant to most of the tested seaweed extracts where as Fusarium oxysporum was more sensitive. The present study confirms the potential use of seaweed extracts as a source of antifungal compound and may constitute a basis for promising...

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Evaluation of antifungal activity of seaweed extracts

Cited by 54 publications

References 22 publications

Enhancement of Calibrachoa growth, secondary metabolites and bioactivity using seaweed extracts

Enhancement of Calibrachoa growth, secondary metabolites and bioactivity using seaweed extracts

Control of Fusarium Dry Rot Incited by Fusarium oxysporum f. sp. tuberosi Using Sargassum vulgare Aqueous and Organic Extracts

Antifungal Potential in Crude Extracts of Five Selected Brown Seaweeds Collected from the Western Libya Coast

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