Tiêu đề tltk.pdf ✅

43 [10] Anggadiredja J., & Andyani R. (1997). Antioxidant activity of Sargassum polycystum (Phaeophyta) and Laurencia obtusa (Rhodophyta) from Seribu islands, Journal of Applied Phycology, 9, 477-479 [11] Harizani M., Ioannou E., & Roussis V. (2016). The Laurencia paradox: An endless source of chemodiversity, Progress in the Chemistry of Organic Natural Products, 102, 91-252 [12] AlgaeBase, https://www.algaebase.org/, truy cập ngày 10/4/2022 [13] Al-Massarani, S. M. (2014). Phytochemical and biological properties of sesquiterpene constituents from the marine red seaweed Laurencia: A review, Natural Products Chemistry & Research, 2 [14] Suzuki M., & Kurosawa E. (1979). Halogenated and non-halogenated aromatic sesquiterpenes from the red algae Laurencia okamurai Yamada, Bulletin of the Chemical Society of Japan, 52, 3352-3354 [15] Nam K W., & Saito Y. (1995). Vegetative and reproductive anatomy of some Laurencia (Ceramiales, Rhodophyta) species with a description of L. maris-rubri sp. nov. from the Red Sea, Phycologia, 34, 157-165 [16] Notarte K. I., Yaguchi T., & Suganuma K. (2018). Antibacterial, cytotoxic and trypanocidal activities of marine-derived fungi isolated from Philippine macroalgae and seagrasses, Acta Botanica Croatica, 77, 141-151 [17] Suzuki M., & Vairappan C. S. (2005). Halogenated secondary metabolites from Japanese species of the red algal genus Laurencia (Rhodomelaceae, Ceramiales), Current Topics in Phytochemistry, 7, 1-34 [18] Wang B G., Gloer J B., Ji N Y., & Zhao J C. (2013). Halogenated organic molecules of Rhodomelaceae origin: Chemistry and biology, Chemical Reviews, 113(5), 3632-3685. [19] Li C. S., Li X. M., Cui C. M., & Wang B. G., (2010). Brominated metabolites from the marine red alga Laurencia similis, Zeitschrift für Naturforschung B, 65(1), 87-89
44 [20] de Carvalho L. R., Fujii M. T., Roque N. F., & Lago J. H. G., (2006). Aldingenin derivatives from the red alga Laurencia aldingensis, Phytochemistry, 67(13), 1331- 1335 [21] Ji N. Y., Li X. M., & Wang B. G., (2010). Sesquiterpenes and other metabolites from the marine red alga Laurencia composita (Rhodomelaceae), Helvetica Chimica Acta, 93(11), 2281-2286 [22] Kladi M., Vagias C., Papazafiri P., Furnari G., Serio D., & Roussis V., (2007). New sesquiterpenes from the red alga Laurencia microcladia, Tetrahedron, 63(32), 7606-7611 [23] Yu X. Q., He W. F., Liu D. Q., Feng M. T., Fang Y., Wang B., & Mao, S. C., (2014). A seco-laurane sesquiterpene and related laurane derivatives from the red alga Laurencia okamurai Yamada, Phytochemistry, 103, 162-170 [24] Ji N. Y., Li X. M., Li K., & Wang B. G., (2009). Halogenated sesquiterpenes from the marine red alga Laurencia saitoi (Rhodomelaceae), Helvetica Chimica Acta, 92(9), 1873-1879 [25] Davyt D., Fernandez R., Suescun L., Mombrú A. W., Saldaña J., Domínguez L., & Manta E., (2006). Bisabolanes from the Red Alga Laurencia scoparia, Journal of Natural Products, 69(7), 1113-1116 [26] Sun J., Shi D., Ma M., Li S., Wang S., Han L., & He L., (2005). Sesquiterpenes from the red alga Laurencia tristicha, Journal of Natural Products, 68(6), 915-919 [27] Iliopoulou D., Roussis V., Pannecouque C., De Clercq E., & Vagias C., (2002). Halogenated sesquiterpenes from the red alga Laurencia obtusa, Tetrahedron, 58, 6749-6755 [28] Aydo &gcaron; mu ş Z., Imre S., Ersoy L., & Wray V., (2004). Halogenated secondary metabolites from Laurencia obtusa, Natural Product Research, 18(1), 43- 49 [29] Juagdan E. G., Kalidindi R., & Scheuer P. (1997). Two new chamigranes from an hawaiian red alga, Laurencia cartilaginea, Tetrahedron, 53(2), 521-528
45 [30] Denys R., Coll J. C., & Bowden B. F. (1993). Tropical marine algae. IX. A new sesquiterpenoid metabolite from the red alga Laurencia marianensis, Australian Journal of Chemistry, 46(6), 933-937 [31] Nocchi N., Soares A. R., Souto M. L., Fernández J. J., Martin M. N., & Pereira R. C. (2017). Detection of a chemical cue from the host seaweed Laurencia dendroidea by the associated mollusc Aplysia brasiliana, PLoS One, 12(11), 1-15 [32] Suzuki M., Kurosawa E., & Irie T. (1970). Spirolaurenone, a new sesquiterpenoid containing bromine from Laurencia glandulifera Kützing, Tetrahedron Letters, 11(57), 4995-4998 [33] Vairappan C. S., Suzuki M., Abe T., & Masuda M. (2001). Halogenated metabolites with antibacterial activity from the Okinawan Laurencia species, Phytochemistry, 58(3), 517-523 [34] Vairappan C. S. (2003). Potent antibacterial activity of halogenated metabolites from Malaysian red algae, Laurencia majuscula (Rhodomelaceae, Ceramiales), Biomolecular Engineering, 20(4-6), 255-259 [35] Ji N. Y., Li X. M., Li K., Ding L. P., Gloer J. B., & Wang B. G. (2007). Diterpenes, sesquiterpenes, and a C15-acetogenin from the marine red alga Laurencia mariannensis, Journal of Natural Products, 70(12), 1901-1905 [36] González A. G., Darias J., Diaz A., Fourneron J. D., Martin J. D., & Pérez C. (1976). Evidence for the biogenesis of halogenated chamigrenes from the red alga Laurencia obtusa, Tetrahedron Letters, 17(35), 3051-3054 [37] Brito I., Cueto M., Díaz-Marrero A. R., Darias J., & San Martín A. (2002). Oxachamigrenes, New Halogenated Sesquiterpenes from Laurencia obtusa, Journal of Natural Products, 65(6), 946-948 [38] Li X. D., Ding W., Miao F. P., & Ji N. Y. (2012). Halogenated chamigrane sesquiterpenes from Laurencia okamurae, Magnetic Resonance in Chemistry, 50(2), 174-177 [39] Li X. D., Miao F. P., Li K., & Ji N. Y. (2012). Sesquiterpenes and acetogenins from the marine red alga Laurencia okamurai, Fitoterapia, 83(3), 518-522