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Submitted: 11 Jun 2020
Accepted: 20 Sep 2020
ePublished: 30 Sep 2020
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Avicenna J Clin Microbiol Infect. 2020;7(3): 90-96.
doi: 10.34172/ajcmi.2020.20
  Abstract View: 1272
  PDF Download: 833

Original Article

Antioxidant and Antibacterial Activity of the Aqueous and Alcoholic Extracts of the Plant Citrus maxima Merr

Mostafa Alamholo 1* ORCID logo, Mohadeseh Shojaemehr 2, Jalal Soltani 3

1 Department of Biotechnology, Faculty of Agriculture, Bu Ali Sina University, Hamadan, Iran.
2 Department of Plant Biotechnology, Faculty of Agriculture, Bu Ali Sina University, Hamadan, Iran.
3 Department of Plant Protection, Faculty of Agriculture, Bu-Ali Sina University, Hamedan, Iran.
*Corresponding Author: *Corresponding author: Mostafa Alamholo, Department of Biotechnology, Faculty of Agriculture, Bu Ali Sina University, Hamadan, Iran. Tel: +989372028192; Email: , Email: mostafaalamholo@ yahoo.com

Abstract

Background: The resistance of pathogenic bacteria against synthetic drugs led scientists to conduct research on medicinal plants. The present study investigated the antioxidant and antibacterial activity of the aqueous, methanol, and ethanol alcoholic extracts of the plant Citrus maxima Merr. (Syn. Citrus grandis) against some human pathogenic bacteria. Then, the presence of secondary metabolites was evaluated in vitro, including alkaloid, saponin, and tannin.

Methods: The samples (i.e., root, stem, and seed) of C. maxima were collected at Babolsar, Mazandaran province, Iran. The agar well diffusion assay was used to determine antibacterial activity. In addition, several bacteria were applied based on the aim of the study, including Streptococcus pyogenes (PTCC1447), Bacillus subtilis (PTCC-1156), Bacillus cereus (PTCC-1247), Enterococcus faecalis (PTCC-1185), Micrococcus luteus (ATCC-10987), and Staphylococcus aureus (PTCC-1189). Further, some Gram-negative bacteria were used, encompassing Escherichia coli (ATCC-25922), Shigella boydi(-), Salmonella typhi (PTCC-1609), Pseudomonas aeruginosa (PTCC-1181), Enterobacter aerogenes (PTCC-1221), and Klebsiella pneumoniae (PTCC-1139). Next, the minimum inhibitory and bactericidal concentrations were determined by the serial dilution method. Furthermore, free radical activity was identified by 2,2-diphenyl-1-picrylhydrazyl. Moreover, the total phenolic and total flavonoid contents were conducted by Folin-Ciocalteu and aluminum chloride methods, respectively. Finally, the phytochemical compounds were investigated as well.

Results: The highest sensitivity was observed on M. luteus against the root methanol extract. Additionally, the total phenolic content of root, seed, and leaf was determined as 98.22, 89.66, and 77.51 (mgGA/g), respectively. Similarly, the flavonoid content was determined as 3.52, 3.43, and 3.56 (mgQ/g), respectively. In addition, the IC50 of the root, seed, leaf, and ascorbic acid were calculated as 0.129, 0.135, 0.113, and 0.109 mg mL-1, respectively. Eventually, the methanol extract of the leaf and root showed the presence of alkaloid, saponin, and tannin.

Conclusions: In general, C. maxima is suggested for producing natural drugs with antibiotic properties in the pharmaceutical industry due to the presence of secondary metabolites in its different parts.

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