Screening of bacterial endophytes inhabiting Mimosa pudica L.

Authors

  • S. Baker Herbal Drug Technological Laboratory, Department of Studies in Microbiology, University of Mysore, Manasagangotri, Mysore 570 006. Karnataka, India
  • P. Santhosh Plant Biotechnology Division, Unit of Central Coffee Research Institute, Coffee Board, Manasagangotri, Karnataka, India Mysore 570 006
  • D. Rakshith Herbal Drug Technological Laboratory, Department of Studies in Microbiology, University of Mysore, Manasagangotri, Mysore 570 006. Karnataka, India
  • S. Satish Herbal Drug Technological Laboratory, Department of Studies in Microbiology, University of Mysore, Manasagangotri, Mysore 570 006. Karnataka, India

Keywords:

Plants, Endophytes, Mimosa pudica L, Bioactive compounds, Antimicrobials

Abstract

Research on endophytes is burgeoning immense importance since recent years with almost all plants harboring untold number of microorganism as endophytes. Endophytic plethora is reported to secrete unique novel metabolites bearing therapeutic property which are being constantly exploited. The present study uncaps the bacterial endophytes inhabiting stem and roots of Mimosa pudica L located in southern part of India. The screening resulted in isolation of one forty one myriad bacterial endophytes with different morphological characteristics. The endophytes isolated in the present study will be exploited for further research which will be promising enough to extract the novel leads of pharmaceutical importance

References

Berdy, J., 2005. Bioactive Microbial Metabolites. J. Antibiot. 58(1), 1–26.

Hayakava, M., Yoshida, Y., Limura, Y., 2004. Selective isolation of bioactive soil actinomycetes belonging to the

Streptomces violaceusniger phenotypic cluster. J Appl Microbiol. 56, 21-25.

Nicolaou, K.C., Yang, Z., Liu, J.J., Ueno, H., Nantermet, P.G., Guy, R.K., Claiborne, C.F., Renaud, J., Couladouros, E.A.,

Paulvannin, K., Sorensen, E.J., 1994.Total synthesis of taxol. Nature. 367,630-634.

Owen, N.L., Hundley, N., 2004. Endophytes the chemical synthesizers inside plants. Sci. Prog. 87, 79–99.

Raubitschek, F., Dostrovsky, A., 1950. An antibiotic against dermatophytes, derived from Bacillus subtilis.

Dermatol.100, 1-4.

Satish, S., Raghavendra, M.P., Raveesha, K.A., 2008. Evaluation of the Antibacterial Potential of Some Plants

Against Human Pathogenic Bacteria. Adv. Biol. Res. 2, (3), 44-48.

Schulz, B., Boyle, C., Draeger, S., Rommert, A., Krohn, K., 2002. Endophytic fungi: a source of novel biologically

active secondary metabolites. Mycol. Res. 106(9), 996-1004.

Strobel, G.A., 2003.Endophytes as sources of bioactive products, Microbes. Infect. 5, 535-544.

Syed Baker., Satish, S., 2012. Endophytes: Toward a Vision in Synthesis of Nanoparticle for Future Therapeutic

Agents. Int. J. Bio-Inorg. Hybd. Nanomat. 1 (2), 67-77.

Syed Baker., Sahana, S., Rakshith, D., Kavitha, H.U., Kavitha, K.S., Satish, S., 2012. Biodecaffeination by endophytic

Pseudomonas sp. isolated from Coffee arabica L. J. Pharm. Res. 5 (7), 3654-3657.

Varnika, S., Ashish, S., Imran, A., 2012. A review on ethnomedical and traditional uses of Mimosa Pudica (ChuiMui). Int. Res. J. Pharm. 3 (2), 41-44.

Webster, N.S., Wilson, K.J., Blackall, L.L., Hill, R.T., 2001. Phylogenetic diversity of bacteria associated with the

marine sponge Rhopaloeides odorabile. Appl. Environ. Microbiol. 67, 434-444.

Zin, N.M., Loi, C.S., Sarmin, N.M., Rosli, A.N., 2010. Cultivation-dependent characterization of endophytic

actinomycetes. Res. J. Microbiol. 5, 717-724.

Published

2012-10-29

How to Cite

Baker, S. ., Santhosh, P. ., Rakshith, D. ., & Satish, S. . (2012). Screening of bacterial endophytes inhabiting Mimosa pudica L. Scientific Journal of Review, 1(5), 136-140. Retrieved from http://sjournals.com/index.php/sjr/article/view/1409

Issue

Section

Short Communication