ANTIFUNGAL ACTIVITY OF NATURAL COLOURANT FROM MELIA COMPOSITA BARK AND ITS APPLICATION IN FUNCTIONAL TEXTILE FINISHING

Authors

  • Anita Pal
  • Rakesh Kumar
  • Y. C. Tripathi Chemistry Division, Forest Research Institute, P.O. New Forest, Dehradun-248006 (India)

Keywords:

Melia composita, Bark, Natural Dye, Dyed Fabrics, Antifungal activity

Abstract

Objective: The present study was aimed to evaluate the antifungal efficacy of natural dye obtained from Melia composita bark and its impact on the antimicrobial finishing of different types of textile fabrics.

Methods: Antifungal activity of M. composita bark dye was assessed against standard strains of five fungi namely Aspergillus flavus, A. niger, A. parasiticus, Fusarium moniliforme and Penicillium canescens using agar-well diffusion method. The minimum inhibitory concentration (MIC) was determined by broth dilution method. The antifungal potency of dyed fabrics (silk, wool, and cotton) against the five test fungi was quantitatively evaluated by reported method.

Results: Different treatment doses of natural dye exhibited a varying degree of antifungal activity against the five test fungi. The treatment dose of 100 mg/ml and above were considerably active. Growth inhibition impact of natural dye at 250 mg/ml dose was almost at par with positive control. Maximum growth inhibition in all the five test fungi was evident with 500 mg/ml dose followed by 250 and 100 mg/ml. MIC of the natural dye against test fungi were found in the range of 20.50-23.00 mg/ml. Dyed fabrics of silk, wool, and cotton also showed remarkable antifungal efficacy against all the test fungi. The highest growth reduction was observed in A. parasiticus whereas lowest in P. canescens with the three types of dyed fabrics. Dyed wool fabrics exhibited the maximum growth reduction followed by silk and cotton fabrics.

Conclusion: The study revealed the remarkable antifungal activity of natural dye from barks of M. composita; therefore, the plant can be considered as a good source of natural dye with functional properties and can be used in commercial dyeing and protective finishing of different kinds of textile fabrics.

Keywords: Melia composita, Bark, Natural Dye, Dyed Fabrics, Antifungal activity

 

Downloads

Download data is not yet available.

References

Gupta D, Bhaumik S. Antimicrobial treatment for textiles. Indian J Fibre Text Res 2007;32:254-63.

Thiry MC. Small game hunting: antimicrobials take the field. Am Text Chem Colorist Rev 2001;1:11-7.

Ramachandran T, Rajendrakumar K, Rajendran R. Antimicrobial finishes–an overview. J Inst Eng (India) 2004;84:42-7.

Singh R, Jain A, Panwar S, Gupta D, Khare SK. Antimicrobial activity of some natural dyes. Dyes Pigm 2005;66:99-102.

Ali NF, El-Mohammedy RSR. Eco-friendly and protective natural dye from red prickly pear (Opuntia lasialatha Pfeiffer) plant. J Saudi Chem Soc 2010;15:257-61.

Ali NF, EL-Mohamedy RSR, El-Khatib EM. Antimicrobial activity of wool fabric dyed with natural dyes. Res J Text Apparel 2011;15:1-10.

El-Mohamedy RSR, Aboelfetoh MA. Evaluation of antifungal activity of Moreinga olefera extracts as a natural fungicide against some plant pathogenic fungi in vitro. Int J Agric Technol 2014;10:963-82.

Nakatani M, Abdelgaeil SAM, Kurawaki J, Okamura H, Iwagawa T, Doe M. Antifeedant rings B and D opened limonoids from Khaya senegalensis. J Nat Prod 2001;65:1261-5.

Roy A, Saraf S. Limonoids: an overview of significant bioactive triterpenes distributed in plants kingdom. Biol Pharm Bull 2006;29:191-201.

Mabberley DJ. A monograph of Melia in asia and the pacific: the history of white cedar and Persian lilac. Gard Bull Singapore 1984;37:49-64.

Ascher KRS, Schmutterer H, Zabitz CPM, Naqvi SNH. The persian lilac or chinaberry tree: Melia azedarach L.: Schmutterer H (ed.) The Neem Tree and Other Meliacious Plants, Source of Unique Natural Products for Integrated Pest Management, Medicine, Industry and Other Purposes, VCH Verlagsgesellschaft, Weinheim; 1995. p. 605-37.

Koul O, Jain MP, Sharma VK. Growth inhibitory and antifeedant activity of extracts from Melia duabia to Spodoptera litura and Helicoverpa armigera larvae. Indian J Exp Biol 2000;38:63-8.

Zhao L, Huo CH, Shen LR, Yang Y, Zhang Q, Shi QW. Chemical constituents of plants from the genus Melia. Chem Biodiversity 2010;7:839-59.

Awang K, Lim CS, Mohamad K, Morita H, Hirasawa Y, Takeya K, et al. Erythrocarpines A-E, new cytotoxic limonoids from Chisocheton erythrocarpus. Bioorg Med Chem 2007;15:59-97.

Nakagawa H, Duan H, Takaishi Y. Limonoids from Citrus sudachi. Chem Pharm Bull 2001;49:649-51.

Koul OG, Singh R, Singh J, Singh WM, Daniewski SB. Bioefficacy and modeof-action of some limonoids of salannin group from Azadirachta indica A. Juss and their role in a multicomponent system against lepidopteran larvae. J Biosci 2004;29:409-16.

Endo T, Kita M, Shimada T, Moriguchi T, Hidaka T, Matsumoto R, et al. Modification of limonoid metabolism in suspension cell culture of Citrus. Plant Biotechnol 2002;19:397-403.

Kokwaro JO. Medicinal plants in East Africa. In L. Van Puyvelde, Geysen D. (Eds.) East African Literature Bureau, Nairobi, Kenya; 1976. p. 92-3, 203.

Govindachari TR. Chemical and biological investigations on Azadirachta indica (Neem tree). Curr Sci 1992;63:117-22.

Srivastava SD, Srivastava SK. New constituents of Melia composite. Fitoterapia 1996;67:113-6.

Purushothaman KK, Kalyani K. Two new tetranortriterpenoids from Melia composita. Planta Med 1981;39:262.

Nagalakshmi MAH, Thangadurai D, Anuradha T, Pullaiah T. Essential oil constituents of Melia dubia, a wild relative of Azadirachta indica growing in the eastern ghats of peninsular India. Flavour Fragrance J 2001;16:241-4.

Dhiman AK. Sacred plants and their medicinal Uses, Daya publishing House, Delhi; 2003. p. 125-7.

Murugesan S, Senthilkumar N, Rajeshkannan C, Vijayalakshmi KB. Phytochemical characterization of Melia dubia for their biological properties. Chem Sin 2013;4:36-40.

Saptha Jyothi G. Ramjaneyulu, Antimicrobial activity of Melia dubia leaf volatile oil and camphene compound against skin. Int J Plant Sci 2007;2:166-8.

Samdani V, Rana A. Evaluation of hydroalcoholic extract of Melia Azedarach Linn roots for analgesic and anti-Inflammatory activity. Int J Phytomed 2010;2:341-4.

Khadse CD, Kakde RB. Anti-inflammatory activities of aqueous extract of fruits and their different fractions of Melia dubia. Res J Pharm Biol Chem Sci 2014;5:780.

Rao AS, Ahmed MF, Ibrahim M. Hepatoprotective activity of Melia azedarach leaf extract against simvastatin induced Hepatotoxicity in rats. J Appl Pharm Sci 2012;2:144-8.

Senthil RD, Rajkumar M, Kumarappan C, Srinivasan R, Krishna G, Swetha P, et al. Anti-urolithiatic activity of Melia Azedarach Linn leaf extract in ethylene glycol-induced urolithiasis in male albino rats. Trop J Pharm Res 2014;13:391-7.

Malarvannan S, Giridharan R, Sekar S, Prabavathy VR, Sudha N. Ovicidal activity of crude extracts of few traditional plants against Helicoverpa armigera (Hubner) (Noctuidae: Lepidoptera). J Biopestic 2009;2:64-71.

Karthikeyan J, Kamalanathan MN, George T, Elangovan V. Larvicidal and antibacterial efficacy of green synthesized silver nanoparticles using Melia dubia. Int J Pharm Pharm Sci 2014;6:395-9.

Chanthuru A, Prabhu MM, Aysha OS, Karthik R. Evaluation of leaf and root extracts of Melia dubia L. against larvae of Culex quinquefasciatus and five important human pathogens. Biosci Biotechnol Res Asia 2014;11:207-10.

Susheela T, Balaravi P, Theophilus J, Reddy TN, Reddy PUM. Evaluation of hypoglycaemic and antidiabetic effect of Melia dubia CAV fruits in mice. Curr Sci 2008;94:1191-5.

Rohini S, Arya V. A review on fruits having anti-diabetic potential. J Chem Pharm Res 2011;3:204-12.

McCracken WA, Cowsan RA. Clinical and oral microbiology, Hemispher Publishing Corporation, New York; 1983. p. 512.

Moiz A, Ahmed MA, Kauser N, Ahmed K, Sohail M. Study the effect of metal ion on wool fabric dyeing with tea as a natural dye. J Saudi Chem Soc 2010;14:69-76.

Junior A, Zanil C. Biological screening of Brazilian medicinal plants. Braz J Sci 2000;95:367-73.

Ronald MA. Microbiologia. Compania Editorial Continental SA, de CV, Mexico DF; 1990. p. 505.

Koneman EW, Allen SD, Janda WN, Schreckenberger PC, Winn WC. The family Streptococcaceae: taxonomy and clinical significance. Color atlas and textbook of diagnostic microbiology. 5thedn. Lippincott: Williams and Wilkins Publishers; Philadelphia; 1997. p. 581.

Hang S, Yang Y. Antimicrobial activity of wool fabric treated with curcumin. Dyes Pigm 2005;64:157-61.

Saravanan P, Chandramohan G, Saivaraj S, Deepa D. Extraction and application of eco-friendly natural dye obtained from barks of Odina wodier. L on cotton fabric. J Nat Prod Plant Resour 2013;3:80-5.

Mari selvam R, Ranjit Singh AJA, Kalirajan K. Antifungal activity of different natural dyes against traditional products affected fungal pathogens. Asian Pac J Trop Biomed 2012;S1461-5.

Mohammad Y, Ahmad A, Mohammad S, Khan MI, Khan SA, Manzoor N, et al. Assessment of colorimetric, antibacterial and antifungal properties of woollen yarn dyed with the extract of the leaves of henna (Lawsonia inermis). J Clean Prod 2012;27:42-50.

Salem N, Msaada K, Kahoui S, Mangano G, Azaiz S, Slimen IB, et al. Evaluation of antibacterial, antifungal, and antioxidant activities of safflower natural dyes during flowering. Biomed Res Int 2014. Doi.org/10.1155/2014/762397. [Article in Press].

Published

01-05-2016

How to Cite

Pal, A., R. Kumar, and Y. C. Tripathi. “ANTIFUNGAL ACTIVITY OF NATURAL COLOURANT FROM MELIA COMPOSITA BARK AND ITS APPLICATION IN FUNCTIONAL TEXTILE FINISHING”. International Journal of Pharmacy and Pharmaceutical Sciences, vol. 8, no. 5, May 2016, pp. 387-91, https://journals.innovareacademics.in/index.php/ijpps/article/view/10881.

Issue

Vol 8, Issue 5, 2016

Section

Original Article(s)