References
- Alam A, Asaduzzaman M, Nasrin N. 2011. Characterization and evaluation of antimicrobial activity of Ravenia spectabilis (Rutaceae). Int J Pharmacog Phytochem Res. 3:80–84.
- Arunkumar R, Nair SA, Rameshkumar KB, Subramoniam A. 2014. The essential oil constituents of Zornia diphylla (L.) Pers, and anti-inflammatory and antimicrobial activities of the oil. Rec Nat Prod. 8(4):385–393.
- Bhattacharyya P, Chowdhury BK. 1984. Ravesilone, a quinolone alkaloid from Ravenia spectabilis. Phytochemistry. 23(8):1825–1826.
- Cao Y, Zhang H, Liu H, Liu W, Zhang R, Xian M, Liu H. 2018. Biosynthesis and production of sabinene: current state and perspectives. Appl Microbiol Biotechnol. 102(4):1535–1544.
- Haque MM, Begum S, Sohrab MH, Ahsan M, Hasan CM, Ahmed N, Haque R. 2013. Secondary metabolites from the stem of Ravenia spectabilis Lindl. Pharmacogn Mag. 9(33):76–80.
- Heywood VH. 1993. Flowering plants of the world. New York (NY): Oxford University Press, p. 202.
- Khan MA, Waterman PG. 1990. Constituents of Ravenia spectabilis. Fitoterapia. 61:282.
- Manjamalai A, Varghese SS, Haridas A, Grace VMB. 2012. Anti-fungal, anti-inflammatory and GC-MS analysis for bioactive molecules of Tridax procumbens L. leaf. Asian J Pharm Clin Res. 5(1):139–145.
- Park B-I, Kim B-S, Kim K-J, You Y-O. 2019. Sabinene suppresses growth, biofilm formation, and adhesion of Streptococcus mutans by inhibiting cariogenic virulence factors. J Oral Microbiol. 11(1):1632101.
- Sohrab MH, Chowdhury R, Rahman KM, Hasan CM, Rashid MA. 2004. Antibacterial activity and cytotoxicity of extractives from Ravenia spectabilis. Fitoterapia. 75(5):510–513.
- Tabassum F. 2021. Phytochemical and biological studies on Ravenia spectabilis and Erythrina variegata [PhD thesis]. Bangladesh: University of Dhaka.
- Tabassum F, Hasan CM, Masud MM, Islam SN, Ahsan M. 2019. Phytochemical and biological investigation of Ravenia spectabilis leaves. Asian J Chem. 31(1):139–142.
- Verma RS, Chauhan A, Padalia RC, Jat SK, Thul S, Sundaresan V. 2013. Phytochemical diversity of Murraya koengii (L.) Spreng. from western Himalaya. Chem Biodiver. 10(4):628–641.
- Viana CB, Liesner IL, Martins RCC. 2018. GC-MS analysis and antiacetylcholinesterase activity of the dichloromethane leaves extract of Ravenia spectabilis Lindl. (Rutaceae). IOSR J App Chem. 11:8–11.