Investigation of Biological Activity of Squamarina cartilaginea (With.) P. James Species Distributed in Türkiye
Abstract
Keywords
Cytotoxicity, Lichen, pBR322, Squamarina, Usni acid
Supporting Institution
Project Number
Thanks
References
- [1] Miao V., Coëffet-LeGal M. F., Brown D., Sinnemann S., Donaldson G., Davies J., Genetic approaches to harvesting lichen products, Trends in Biotechnology, 19(9) (2001) 349-355.
- [2] Stanojković T., Investigations of lichen secondary metabolites with potential anticancer activity. Lichen secondary metabolites: bioactive properties and pharmaceutical potential, 9 (2019) 155-174.
- [3] Shukla V., Joshi G. P., Rawat M. S. M., Lichens as a potential natural source of bioactive compounds: a review, Phytochemistry reviews, 9 (2010) 303-314.
- [4] Illana-Esteban C. Lichens used in traditional medicine, Boletin de La Sociedad Micologica de Madrid, 36, (2012), 163-174.
- [5] Crawford S. D., Lichens used in traditional medicine, Lichen secondary metabolites: bioactive properties and pharmaceutical potential, 9 (2019) 31-97.
- [6] Richardson D. H. S., Lichens and man, Frontiers in mycology, 1 (1991) 187-210.
- [7] Çobanoğlu G. ve Yavuz M., Tıp Tarihinde Likenlerle Tedavi, Yeni Tıp Tarihi Araştırmaları, 9, (2003) 37-90.
- [8] Oksanen I., Ecological and biotechnological aspects of lichens, Applied microbiology and biotechnology, 73 (2006) 723-734.
- [9] Paudel B., Bhattarai H. D., Lee J. S., Hong S. G., Shin H. W., Yim J. H., Antioxidant activity of polar lichens from King George Island (Antarctica), Polar Biology, 31 (2008) 605-608.
- [10] Behera B. C., Verma N., Sonone A., Makhija U., Antioxidant and antibacterial activities of lichen Usnea ghattensis in vitro, Biotechnology letters, 27 (2005) 991-995.